Yanmar 4TNV98 D20S-5, D25S-5, D30S-5, D33S-5, D35C-5, EM0Q3, EM0Q4, EM0Q5, 4TNE98 D20S-5, D25S-5, D30S-5, D33S-5, D35C-5, EM0QC, EM0QD, EM0QE, D20G, D25G, D30G Diesel Engine Service Manual
4TNV98 D20S-5, 4TNV98 D25S-5, 4TNV98 D30S-5, 4TNV98 D33S-5, 4TNV98 D35C-5, 4TNE98 D20S-5, 4TNE98 D25S-5, 4TNE98 D30S-5, 4TNE98 D33S-5, 4TNE98 D35C-5, 4TNE98 D20G, 4TNE98 D25G, 4TNE98 D30G are diesel engines designed for a variety of applications. This document provides comprehensive service information for these models, including maintenance schedules, troubleshooting guides, and detailed instructions on disassembling, inspecting, and reassembling various engine components. The manual covers specific safety precautions, emission control regulations, and important technical specifications. It also provides guidance on proper lubrication, cooling, and fuel system maintenance, ensuring optimal engine performance and longevity.
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SB4319E00
Jan. 2008
Service Manual
4
TNV98 & 4TNE98 Diesel Engine
D20S-5, D25S-5, D30S-5, D33S-5, D35C-5
(4TNV98 : EM0Q3, EM0Q4, EM0Q5)
D20S-5, D25S-5, D30S-5, D33S-5, D35C-5
(4TNE98 : EM0QC, EM0QD, EM0QE)
D20G, D25G, D30G
(4TNE98)
Important Safety Information
Most accidents involving product operation, maintenance and repair are caused by failure to observe basic safety rules or precautions. An accident can often be avoided by recognizing potentially hazardous situations before an accident occurs. A person must be alert to potential hazards. This person should also have the necessary training, skills and tools to perform these functions properly.
Read and understand all safety precautions and warnings before operating or performing lubrication,
maintenance and repair on this product.
Basic safety precautions are listed in the “Safety” section of the Service or Technical Manual. Additional safety precautions are listed in the “Safety” section of the owner/operation/maintenance publication.
Specific safety warnings for all these publications are provided in the description of operations where hazards exist. WARNING labels have also been put on the product to provide instructions and to identify specific hazards. If these hazard warnings are not heeded, bodily injury or death could occur to you or other persons.
Warnings in this publication and on the product labels are identified by the following symbol.
WARNING
Improper operation, lubrication, maintenance or repair of this product can be dangerous and could
result in injury or death.
Do not operate or perform any lubrication, maintenance or repair on this product, until you have read
and understood the operation, lubrication, maintenance and repair information.
Operations that may cause product damage are identified by NOTICE labels on the product and in this publication.
DOOSAN cannot anticipate every possible circumstance that might involve a potential hazard. The warnings in this publication and on the product are therefore not all inclusive. If a tool, procedure, work method or operating technique not specifically recommended by DOOSAN is used, you must satisfy yourself that it is safe for you and others. You should also ensure that the product will not be damaged or made unsafe by the operation, lubrication, maintenance or repair procedures you choose.
The information, specifications, and illustrations in this publication are on the basis of information available at the time it was written. The specifications, torques, pressures, measurements, adjustments, illustrations, and other items can change at any time. These changes can affect the service given to the product. Obtain the complete and most current information before starting any job. DOOSAN dealers have the most current information available.
1
Section 1. GENERAL SERVICE
INFORMATION
Component Identification ......................................7
Location of Labels.................................................8
Engine Nameplate (Typical)......................8
Emission Control Regulations ...............................8
EPA / ARB Regulations - USA Only...........8
Emission Control Labels .......................................9
The 97/68/EC Directive Certified Engines..............9
Engine Family.......................................................9
Function of Major Engine Components................ 10
Function of Cooling System Components............ 11
Diesel Fuel.......................................................... 12
Diesel Fuel Specifications....................... 12
Filling The Fuel Tank .............................. 13
Priming the Fuel System......................... 15
Engine Oil........................................................... 16
Engine Oil Specifications ........................ 16
Engine Oil Viscosity................................ 16
Checking Engine Oil............................... 17
Adding Engine Oil................................... 17
Engine Oil Capacity (Typical).................. 17
Engine Coolant ................................................... 18
Engine Coolant Specifications ................ 19
Filling Radiator with Engine Coolant ....... 19
Engine Coolant Capacity (Typical) .......... 20
Specifications...................................................... 20
Description of Model Number ................. 20
Engine General Specifications ................ 21
Principal Engine Specifications............................ 22
4TNV98 EPA Tier 2.............................. 22
4TNE98 EPA Tier 3.............................. 23
Engine Service Standards................................... 24
Tightening Torques for Standard Bolts and Nuts .. 25
Abbreviations and Symbols................................. 27
Abbreviations. ........................................ 27
Symbols ................................................. 27
Unit Conversions ................................................ 28
Unit Prefixes........................................... 28
Units of Length ....................................... 28
Units of Volume ...................................... 28
Units of Mass ......................................... 28
Units of Force......................................... 28
Units of Torque ....................................... 28
Units of Pressure.................................... 28
Units of Power........................................ 28
Units of Temperature .............................. 28
Section 2. PERIODIC MAINTENANCE
Before You Begin Servicing ................................ 29
Introduction ........................................................ 40
The Importance of Periodic Maintenance 40
Performing Periodic Maintenance........... 40
Yanmar Replacement Parts.................... 40
Required EPA / ARB Maintenance-USA Only
.............................................................. 40
EPA / ARB Installation Requirements-USA
Only....................................................... 40
Periodic Maintenance Schedule.......................... 41
Periodic Maintenance Procedures ...................... 43
Drain Fuel Filter / Water Separator ......... 43
4TNE98 For D25S-5 Only ...................... 43
Daily................................................................... 45
After Initial 50 Hours of Operation........... 45
Every 50 Hours of Operation.................. 48
Every 250 Hours of Operation ................ 51
Every 500 Hours of Operation ................ 54
Every 1000 Hours of Operation .............. 59
Every 1500 Hours of Operation .............. 61
Every 2000 Hours of Operation .............. 62
Section 3. ENGINE
Before You Begin Servicing ................................ 63
Introduction ........................................................ 66
Cylinder Head Specifications .............................. 66
Adjustment Specifications ...................... 66
Cylinder Head ........................................ 66
Intake / Exhaust Valve and Guide Cont... 67
Push Rod............................................... 68
Rocker Arm and Shaft ............................ 68
Valve Spring........................................... 68
Camshaft and Timing Gear Train Specifications .. 68
Camshaft ............................................... 68
Idler Gear Shaft and Bushing ................. 69
Timing Gear Backlash ............................ 69
Crankshaft and Piston Specifications .................. 70
Crankshaft ............................................. 70
Thrust Bearing ....................................... 70
Piston .................................................... 71
Connecting Rod ..................................... 72
Tappet.................................................... 72
Cylinder Block Specifications .............................. 73
Cylinder Block........................................ 73
Special Torque Chart .......................................... 73
Torque for Bolts and Nuts ....................... 73
Special Service Tools.......................................... 75
4TNV98 & 4TNE98 Diesel Engine 3 Index
Measuring Instruments........................................ 77
Cylinder Head..................................................... 80
Cylinder Head Components.................... 80
Disassembly of 4-Valve Cylinder Head ... 82
4TNE98 Engine...................................... 87
Disassembly of Cylinder Head................ 89
Cleaning of Cylinder Head Components . 92
Inspection of Cylinder Head Components93
Reassembly of Cylinder Head ................ 98
Measuring and Adjusting Valve Clearance......... 104
4TNE98 Engine.................................... 105
4TNV98 Engine.................................... 106
Crankshaft and Camshaft Components ............. 109
Disassembly of Engine ..........................111
Disassembly of Camshaft and Timing
Components..........................................111
Disassembly of Crankshaft and Piston
Components......................................... 116
Inspection of Crankshaft and Camshaft
Components......................................... 120
Honing and Boring................................ 126
Reassembly of Crankshaft and Piston
Components......................................... 127
Reassembly of Camshaft and Timing
Components......................................... 136
Final Reassembly of Engine ................. 138
Section 4. FUEL SYSTEM
Before You Begin Servicing............................... 139
4TNV98 ENGINE.............................................. 141
Introduction .......................................... 141
Fuel Injection Pump.............................. 141
Stop Solenoid....................................... 142
Cold Start Device.................................. 142
Trochoid Fuel Pump ............................. 142
Fuel System Specifications ............................... 143
Special Torque Chart ............................ 143
Test and Adjustment Specifications....... 144
Special Service Tools ........................................ 145
Measuring Instruments...................................... 145
Fuel System Diagram ....................................... 146
Fuel System Components ................................. 147
4-Valve Cylinder Head.......................... 147
Fuel Injection Pump .......................................... 148
Removal of Fuel Injection Pump ........... 148
Installation of Fuel Injection Pump ........ 152
Checking and Adjusting Fuel Injection Timing.... 157
Determining the Fuel Injection Timing
Specification......................................... 157
Checking Fuel Injection Timing............. 158
Adjusting Fuel Injection Timing............. 161
Fuel Injectors.................................................... 163
Removal of Fuel Injectors..................... 163
Testing of Fuel Injectors ....................... 164
Disassembly and Inspection of Fuel
Injectors............................................... 165
Adjusting Fuel Injector Pressure........... 166
Reassembly of Fuel Injectors ............... 167
Installation of the Fuel Injectors ............ 167
4TNE98 ENGINE.............................................. 168
Fuel System Special Torque Chart........ 168
Measuring Instruments......................... 168
Fuel System Components .................... 169
Fuel System Components .................... 170
Structure And Operation Of Fuel Injection
Pump................................................... 171
Overview.............................................. 172
Plunger Operation................................ 175
Process................................................ 176
Reverse Rotation Prevention Mechanism
............................................................ 178
Fuel Injection Volume Adjustment
Mechanism .......................................... 178
Delivery Valve Assembly ...................... 179
Delivery Valve Holder with Damping Valve
............................................................ 179
All - Speed Governor ........................................ 180
At Start of Engine................................. 182
During Idling......................................... 183
At Full-Load Maximum Speed Control .. 184
At No-Load Maximum Speed Control ... 185
Full-Load Position Adjustment Mechanism
............................................................ 186
Structure And Operation Of Timer ..................... 187
Standard Type Automatic Timer............ 187
Magnetic Valve (Stop Solenoid)............ 188
Removal Of Fuel Injection Pump....................... 189
Installation Of The Fuel Injection Pump............. 192
Checking / Adjustment Of Fuel Injection Timing. 194
Servicing The Fuel Injectors.............................. 196
Removal of the Fuel Injectors............... 196
Inspection and Testing of the Fuel Injectors
............................................................ 197
Judgement Criteria on Atomization
Condition ............................................. 199
Installation of Fuel Injectors.................. 200
4TNV98 & 4TNE98 Diesel Engine 4 Index
Section 5. COOLING SYSTEM
Before You Begin Servicing............................... 201
Introduction....................................................... 203
Cooling System Diagram .................................. 203
Engine Coolant Pump Components................... 204
Engine Coolant System Check.......................... 205
Engine Coolant Pump ....................................... 205
Removal of Engine Coolant Pump........ 205
Disassembly of Engine Coolant Pump .. 207
Cleaning and Inspection ....................... 207
Reassembly of Engine Coolant Pump... 208
Installation of Engine Coolant Pump ..... 208
Section 6. LUBRICATION SYSTEM
Before You Begin Servicing............................... 210
Introduction....................................................... 212
Oil Pump Service Information............................ 212
Lubrication System Diagram ............................. 214
Checking Engine Oil Pressure........................... 215
Trochoid Oil Pump ............................................ 215
Oil Pump Components ......................... 215
Disassembly of Oil Pump...................... 216
Cleaning and Inspection ....................... 216
Reassembly of Oil Pump ...................... 217
Section 7. STARTER MOTOR
Before You Begin Servicing............................... 219
Introduction....................................................... 221
Starter Motor Information................................... 221
Starter Motor Specifications............................... 222
Starter Motor Troubleshooting ........................... 223
Starter Motor Components ................................ 224
Starter Motor..................................................... 225
Removal of Starter Motor...................... 225
Disassembly of Starter Motor................ 225
Cleaning and Inspection ....................... 227
Reassembly of Starter Motor ................ 232
Check Pinion Projection Length............ 233
No-Load Test........................................ 234
Installation of Starter Motor................... 234
Section 8. TROUBLESHOOTING
Special Service Tools ....................................... 235
Troubleshooting By Measuring Compression
Pressure ........................................................... 236
Compression Pressure Measurement
Method ................................................ 236
Quick Reference Table For Troubleshooting..... 239
Troubleshooting Charts..................................... 240
Wiring Diagram................................................. 243
4TNV98 & 4TNE98 Diesel Engine 5 Index
Section 1. GENERAL SERVICE INFORMATION
Component Identification
(1) Lifting Eye (Flywheel End). Figure 4-1a, Figure 4-1b shows where the major
(3) Lifting Eye (Engine Cooling Fan End). engine components are located.
(4) Engine Coolant Pump. (5) Engine Cooling Fan.
(6) Crankshaft V-Pulley. (7) V-Belt. 4TNV98 ENGINE
(8) Side Filler Port (Engine Oil). (9) Drain Plug (Engine Oil).
(10) Fuel Injection Pump. (12) Engine Oil Filter.
(13) Dipstick (Engine Oil) (14) Governor Lever.
(15) Intake Manifold. (16) Fuel Filter.
(17) Fuel Inlet. (18) Fuel Return to Fuel Tank.
(19) Top Filler Port (Engine Oil). (20) Rocker Arm Cover.
(21) Air Intake Port (From Air Cleaner).
(22) Flywheel. (23)Starter Motor.
(24) Exhaust Manifold. (25) Alternator.
4TNE98 ENGINE
Figure 4-1b
(1) Fuel Filter / Water Separator
(2)Top Filler Port (Engine Oil)
(3) Governor Lever
(4) Fuel Injection Pump
(5) Side Filler Port (Engine Oil)
(6) Fuel Priming Pump
(7) Drain Plug (Engine Oil)
(8) Engine Oil Filter
Figure 4-1a (9) Dipstick (EngineOil)
(10) Engine Coolant Pump
(11) Alternator
(12) Glow Plug
(13) V-Belt
(14) Crankshaft V-Pulley
(15) Starter Motor
4TNV98 & 4TNE98 Diesel Engine 7 Section 1. General Service Information
Location of Labels
Figure 4-2 shows the location of regulatory and safety labels on Yanmar TNV & TNE series engines.
4TNE98 ENGINE
4TNV98 ENGINE
Figure 4-2
The typical location of the emission control information label shown (Figure 4-2 (2), (3)).
The typical location of the engine nameplate is shown (Figure 4-2 (1), (4)).
Engine Nameplate (Typical)
Emission Control Regulations
EPA / ARB Regulations - USA Only
Yanmar engines meet Environmental Protection
Agency (EPA) (U. S. Federal) emission control standards as well as the California Air Resources
Board (ARB, California) regulations. Only engines that conform to ARB regulations can be sold in the
State of California.
Refer to the specific EPA / ARB installation (page
40) and maintenance (page 40) in the Periodic
Maintenance Schedule section of this manual.
4TNV98 & 4TNE98 Diesel Engine 8 Section 1. General Service Information
Emission Control Labels
Since emission control regulations are being issued on a global basis, it is necessary to identify which regulations a particular engine complies with. We have listed several different types of labels you might find on your engine.
EPA / ARB Labels
(EPA) Greater than or Equal to 50 HP SAE (37kW)
(EPA and ARB)
The 97/68/EC Directive Certified
Engines
The engines described in this manual have been certified by the 97/68/EC Directive.
To identify the engines that meet this certification, the 97/68/EC emission control label is affixed on the engines
(97/68/EC)
Engine Family
The EPA / ARB labels and the 97/68/EC label all have an Engine Family field. The following is an explanation of the Engine Family designation:
4TNV98 & 4TNE98 Diesel Engine 9 Section 1. General Service Information
Function of Major Engine Components
Components Functions
Air Cleaner
Dipstick (Engine Oil)
Dipstick (Engine Oil)
Electric Fuel Pump
(If Equipped)
Engine Oil Filter
Engine Oil Cooler
(If Equipped)
Fuel Filter
Fuel Filter/ Water Separator
Fuel Priming Lever
(If Equipped)
Fuel Tank
Side and Top Filler Port
(Engine Oil)
The air cleaner prevents airborne contaminants from entering the engine. Since the air cleaner is application specific, it must be carefully selected by an application engineer. It is not part of the basic engine package as shipped from the Yanmar factory. Periodic replacement of the air cleaner filter element is necessary. See the Periodic Maintenance
Schedule on page 39 for the replacement frequency.
The alternator is driven by a V-belt which is powered by the crankshaft
V-pulley. The alternator supplies electricity to the engine systems and charges the battery while the engine is running.
The engine oil dipstick is used to determine the amount of engine oil in the crankcase.
The electric fuel pump makes sure there is a constant supply of diesel fuel to the fuel injection pump. The electric fuel pump is electro-magnetic and runs on 12 VDC. An electic fuel pump may be installed as an option or as standard equipment. Standard equipment may vary based on engine model and specification. If an electic fuel pump is installed, turn the key switch to the ON position for 10 to 15 seconds to prime the fuel system.
The engine oil filter removes contaminants and sediments from the engine oil. Periodic replacement of the engine oil filter is necessary. See the Periodic Maintenance Schedule on page 39 for the replacement frequency.
The engine oil cooler helps to keep the engine oil cool. Engine coolant from the cooling system is circulated through an adapter at the base of the engine oil filter assembly and then returned to the coolant pump inlet.
The fuel filter removes contaminants and sediments from the diesel fuel.
Periodic replacement of the fuel filter is necessary. See the Periodic
Maintenance Schedule on page 39 for the replacement frequency.
Please note that the word “diesel” is implied throughout this
manual when the word “fuel” is used.
The fuel filter / water separator removes contaminants, sediments and water from the diesel fuel going to the fuel filter. This is a required component of the fuel system. This is standard equipment with every engine. The separator is installed between the fuel tank and the electric fuel pump. Periodically drain the water from the fuel filter / water separator.
If the unit has a mechanical fuel pump, a fuel priming lever on the mechanical fuel pump primes the fuel system. The fuel sytem needs to be primed before you start the engine for the first time, if you run out of fuel, or if fuel system service is performed. To prime the fuel system, operate the fuel priming lever until the cup in the fuel filter is full of fuel.
The fuel tank is a reservoir that holds diesel fuel. When the fuel leaves the fuel tank it goes to the fuel filter / water separator. Next the fuel is pumped to the fuel filter by the electric fuel pump. Then the fuel goes to the fuel injection pump. Since the fuel is used to keep the fuel injection pump cool and lubricated, more fuel than necessary enters the injection pump. When the injection pump pressure reaches a preset value, a relief valve allows the excess fuel to be returned back to the fuel tank. The fuel tank is a required engine component.
You can fill the crankcase with engine oil from either the side or the top filler port depending upon which one is most convenient.
Starter Motor
The starter motor is powered by the battery. When you turn the key switch in the operator’s console to the START position, the starter motor engages with the ring gear installed on the flywheel and starts the flywheel in motion.
4TNV98 & 4TNE98 Diesel Engine 10 Section 1. General Service Information
Function of Cooling System Components
Components Functions
Cooling System
Engine Cooling Fan
Engine Coolant Pump
Radiator
Radiator Cap
Reserve Tank
The TNV engine is liquid-cooled by means of a cooling system. The cooling system consists of a radiator, radiator cap, engine cooling fan, engine coolant pump,thermostat, and reserve tank. Note that all cooling system components are required for proper engine operation. Since some of the components are application specific, they must be carefully selected by an application engineer. The application specific items are not part of the
basic engine package as shipped from the Yanmar factory.
The engine cooling fan is driven by a V-belt which is powered by the crankshaft V-pulley. The purpose of the engine cooling fan is to circulate air through the radiator.
The engine coolant pump circulates the engine coolant through the cylinder block and the cylinder head and returns the engine coolant to the radiator.
The radiator acts as a heat exchanger. As the engine coolant circulates through the cylinder block it absorbs heat. The heat in the engine coolant is dissipated in the radiator. As the engine cooling fan circulates air through the radiator, the heat is transferred to the air.
The radiator cap controls the cooling system pressure. The cooling system is pressurized to raise the boiling point of the engine coolant.
As the engine coolant temperature rises, the system pressure and the coolant volume increases. When the pressure reaches a preset value, the release valve in the radiator cap opens and the excess engine coolant flows into the reserve tank. As the engine coolant temperature is reduced, the system pressure and volume is reduced and the vacuum valve in the radiator cap opens allowing the engine coolant to flow from the reserve tank back into the radiator.
The reserve tank contains the overflow of engine coolant from the radiator. If you need to add engine coolant to the system, add it to the reserve tank; not the radiator.
Thermostat
A thermostat is placed in the cooling system to prevent the engine coolant from circulating into the radiator until the engine coolant temperature reaches a preset temperature. When the engine is cold, no engine coolant flows through the radiator. Once the engine reaches its operating temperature, the thermostat opens and allows the engine coolant to flow through the radiator. By letting the engine warm up as quickly as possible, the thermostat reduces engine wear, deposits and emissions.
4TNV98 & 4TNE98 Diesel Engine 11 Section 1. General Service Information
Diesel Fuel
Diesel Fuel Specifications
Diesel fuel should comply with the following specifications. The table lists several worldwide specifications for diesel fuels.
.
Diesel Fuel
Specification
No. 2-D, No. 1-D,
ASTM D975-94
EN590:96
Location
USA
European
Union
ISO 8217 DMX International
BS 2869-A1 or A2
United
Kingdom
JIS K2204 Grade No.
2
Japan
KSM-2610 Korea
GB252 China
Additional Technical Fuel Requirements
• The fuel cetane number should be equal to 45 or higher.
• The sulfur content must not exceed 0.5% by volume. Less than 0.05% is preferred.
• Bio-Diesel fuels. See Bio-Diesel Fuels on page 4-9.
• NEVER mix kerosene, used engine oil, or residual fuels with the diesel fuel.
• The water and sediment in the fuel should not exceed 0.05% by volume.
• Keep the fuel tank and fuel-handling equipment clean at all times.
• Poor quality fuel can reduce engine performance and / or cause engine damage.
• Fuel additives are not recommended. Some fuel additives may cause poor engine performance. Consult your Yanmar representative for more information.
• The ash content must not exceed 0.01% by volume.
• The carbon residue content must not exceed 0.35% by volume.
Less than 0.1% is preferred.
• The total aromatics content should not exceed 35% by volume.
Less than 30% is preferred.
• The PAH (polycyclic aromatic hydrocarbons) content should be below 10% by volume.
• The metal content of Na, Mg, Si, and Al should be equal to or lower than 1 mass ppm. (Test analysis method JPI-5S-44-95)
• Lubricity: The wear mark of WS1.4 should be Max. 0.018 in
(460 μm) at HFRR test.
Bio-Diesel Fuels
In Europe and in the United States, as well as some other countries, non-mineral oil based fuel resources such as RME (Rapeseed Methyl Ester) and SOME (Soybean Methyl Ester), collectively known as FAME (Fatty Acid Methyl Esters), are being used as extenders for mineral oil derived diesel fuels.
Yanmar approves the use of bio-diesel fuels that do not exceed a blend of 5% (by volume) of FAME with
95% (by volume) of approved mineral oil derived diesel fuel. Such bio-diesel fuels are known in the marketplace as B5 diesel fuels.
These B5 diesel fuels must meet certain requirements.
1. The bio-fuels must meet the minimum specifications for the country in which they areused.
• In Europe, bio-diesel fuels must comply with the European
Standard EN14214.
• In the United States, bio-diesel fuels must comply with the
American Standard ASTM D-6751.
2. Bio-fuels should be purchased only from recognized and authorized diesel fuel suppliers.
12 Section 1. Component Identification
Precautions and concerns regarding the use of bio-fuels:
1. Free methanol in FAME may result in corrosion of aluminum and zinc FIE components.
2. Free water in FAME may result in plugging of fuel filters and increased bacterial growth.
3. High viscosity at low temperatures may result in fuel delivery problems, injection pump seizures, and poor injection nozzle spray atomization.
4. FAME may have adverse effects on some elastomers (seal materials) and may result in fuel leakage and dilution of the engine lubricating oil.
5. Even bio-diesel fuels that comply with a suitable standard as delivered, will require additional care and attention to maintain the quality of the fuel in the equipment or other fuel tanks. It is important to maintain a supply of clean, fresh fuel. Regular flushing of the fuel system, and / or fuel storage containers, may be necessary.
6. The use of bio-diesel fuels that do not comply with the standards as agreed to by the diesel engine manufacturers and the diesel fuel injection equipment manufacturers, or biodiesel fuels that have degraded as per the precautions and concerns above, may affect the warranty coverage of your engine.
Filling The Fuel Tank
DANGER
FIRE AND EXPLOSION HAZARD!
Diesel fuel is flammable and explosive under certain conditions.
Only fill the fuel tank with diesel fuel. Filling the fuel tank with gasoline may result in a fire and will damage the engine.
NEVER refuel with the engine running.
Wipe up all spills immediately.
Keep sparks, open flames or any other form of ignition (match, cigarette, static electric source) well away when refueling.
NEVER overfill the fuel tank.
Fill the fuel tank. Store any containers containing fuel in a well-ventilated area, away from any combustibles or sources of ignition.
Failure to comply will result in death or serious injury.
DANGER
FIRE AND EXPLOSION HAZARD!
Diesel fuel is flammable and explosive under certain conditions.
Be sure to place the diesel fuel container on the ground when transferring the diesel fuel from the pump to the container. Hold the hose nozzle firmly against the side of the container while filling it. This prevents static electricity buildup which could cause sparks and ignite fuel vapors.
NEVER place diesel fuel or other flammable material such as oil, hay or dried grass close to the engine during engine operation or shortly after shutdown.
Failure to comply will result in death or serious injury.
4TNV98 & 4TNE98 Diesel Engine 13 Section 1. General Service Information
DANGER
FIRE AND EXPLOSION HAZARD
!
Diesel fuel is flammable and explosive under certain conditions.
Before you operate the engine, check for fuel leaks. Replace rubberized fuel hoses every two years or every 2000 hours of engine operation, whichever comes first, even if the engine has been out of service. Rubberized fuel lines tend to dry out and become brittle after two years or
2000 hours of engine operation, whichever comes first.
Failure to comply will result in death or serious injury.
CAUTION
Only use diesel fuels recommended by Yanmar for the best engine performance, to prevent engine damage and to comply with EPA / ARB warranty requirements.
Only use clean diesel fuel.
NEVER remove the primary strainer (if equipped) from the fuel tank filler port. If removed, dirt and debris could get into the fuel system causing it to clog.
Note that a typical fuel tank is shown. The fuel tank on your equipment may be different.
1. Clean the area around the fuel cap (Figure 4-3,
(1)).
2. Remove the fuel cap (Figure 4-3, (1)) from the fuel tank (Figure 4-3, (2)).
3. Observe the fuel level sight gauge (Figure 4-3,
(3)) and stop fueling when the gauge shows the fuel tank is full. NEVER overfill the fuel tank.
4. Replace the fuel cap (Figure 4-3, (1)) and hand tighten. Over-tightening the fuel cap will damage it.
4TNV98 & 4TNE98 Diesel Engine 14
Figure 4-3
Section 1. General Service Information
Priming the Fuel System
The fuel system needs to be primed under certain conditions.
• Before starting the engine for the first time.
• After running out of fuel and fuel has been added to the fuel tank.
• After fuel system maintenance such as changing the fuel filter and draining the fuel filter / water separator, or replacing a fuel system component.
To prime the fuel system on engines equipped with an electric fuel pump:
1. Place an approved container under the air bleed port.
2. Loosen the air bleed port 2 or 3 turns.
3. Turn the key to the ON position for 10 to 15 seconds or until the fuel coming out of the air bleed port is free of bubbles.
4. Tighten the air bleed port.
5. Wipe up any spills and properly dispose of fuel.
6. NEVER use the starter motor to crank the engine in order to prime the fuel system. This may cause the starter motor to overheat and damage the coils, pinion and/or ring gear.
To prime the fuel system on engines not equipped with an electric fuel system:
1. Place an approved container under the air bleed port.
2. Loosen the air bleed port (Figure4-4, (1)) 2 or 3 turns.
3. Operate the fuel priming pump (Figure4-4, (2)) until the fuel coming out of the air bleed port is free of bubbles.
4. Tighten the air bleed port.
5. Wipe up any spills and properly dispose of fuel.
6. NEVER use the starter motor to crank the engine in order to prime the fuel system. This may cause the starter motor to overheat and damage the coils, pinion and/or ring gear.
Figure 4-4
4TNV98 & 4TNE98 Diesel Engine 15 Section 1. General Service Information
Engine Oil
CAUTION
Only use the engine oil specified.
Other engine oils may affect warranty coverage, cause internal engine components to seize and / or shorten engine life.
Prevent dirt and debris from contaminating the engine oil. Carefully clean the oil cap / dipstick and the surrounding area before you remove the cap.
NEVER mix different types of engine oil. This may adversely affect the lubricating properties of the engine oil.
NEVER overfill. Overfilling may result in white exhaust smoke, engine overspeed or internal damage.
Engine Oil Specifications
Use an engine oil that meets or exceeds the following guidelines and classifications:
Service Categories
• API Service Categories CD or higher
• ACEA Service Categories E-3, E-4, and E-5
• JASO Service Category DH-1
Definitions
• API Classification (American Petroleum Institute)
• ACEA Classification (Association des
Constructeurs Européens d'Automobilies)
• JASO (Japanese Automobile Standards
Organization)
NOTE:
• Be sure the engine oil, engine oil storage containers, and engine oil filling equipment arefree of sediment and water.
• Change the engine oil after the first 50 hours of peration and then every 500 hours thereafter.
• Select the oil viscosity based on the ambient temperature where the engine is being operated.
See the SAE Service Grade Viscosity Chart
(Figure 4-4a)
• Yanmar does not recommend the use of engine oil
“additives.”
Additional Technical Engine Oil
Requirements:
The engine oil must be changed when the Total
Base Number (TBN) has been reduced to 1.0 mgKOH /g test method; JIS K-201-5.2-2 (HCI),
ASTM D4739 (HCI).
Engine Oil Viscosity
Select the appropriate engine oil viscosity based on the ambient temperature and use the SAE Service
Grade Viscosity Chart in Figure 4-4a.
Figure 4-4a
4TNV98 & 4TNE98 Diesel Engine 16 Section 1. General Service Information
Checking Engine Oil
1. Make sure the engine is level.
2. Remove the dipstick (Figure 4-5, (1)) and wipe it with clean cloth.
3. Fully reinsert the dipstick.
4. Remove the dipstick. The oil level should be between the upper (Figure 4-5, (2)) and lower
(Figure 4-5, (3)) lines on the dipstick.
5. Fully reinsert the dipstick.
Figure 4-5
Adding Engine Oil
1. Make sure the engine is level.
2. Remove the oil cap (Figure 4-5, (4)).
3. Add the indicated amount of engine oil at the top or the side engine oil filler port (Figure 4-5, (5)).
4. Wait three minutes and check the oil level.
5. Add more oil if necessary.
6. Reinstall the oil cap (Figure 4-5, (4)) and handtighten. Over-tightening may damage the cap.
Engine Oil Capacity (Typical)
NOTE: These are the engine oil capacities associated with a “deep standard” oil pan. The oil capacity will vary dependant upon which optional oil pan is used. Refer to the operation manual provided by the driven machine manufacturer for the actual engine oil capacity of your machine.
The following are the engine oil capacities for various Yanmar engines.
Engine Model
Dipstick Upper
Limit / Lower Limit
4TNV98
11.1 / 6.3 qt
(10.5 / 6.0 L)
4TNE98
9.7 / 7.6 qt
(9.2 / 7.2 L)
4TNV98 & 4TNE98 Diesel Engine 17 Section 1. General Service Information
Engine Coolant
DANGER
SCALD HAZARD!
NEVER remove the radiator cap if the engine is hot. Steam and hot engine coolant will spurt out and seriously burn you. Allow the engine to cool down before you attempt to remove the radiator cap.
Tighten the radiator cap securely after you check the radiator. Steam can spurt out during engine operation if the cap is loose.
ALWAYS check the level of the engine coolant by observing the reserve tank.
Failure to comply will result in death or serious injury.
WARNING
BURN HAZARD!
Wait until the engine cools before you drain the engine coolant. Hot engine coolant may splash and burn you.
Failure to comply could result in death or serious injury.
CAUTION
COOLANT HAZARD!
Wear eye protection and rubber gloves when you handle long life or extended life engine coolant. If contact with the eyes or skin should occur, flush eyes and wash immediately with clean water.
Failure to comply may result in minor or moderate injury.
CAUTION
Only use the engine coolant specified. Other engine coolants may affect warranty coverage, cause an internal buildup of rust and scale and / or shorten engine life.
Prevent dirt and debris from contaminating the engine coolant. Carefully clean the radiator cap and the surrounding area before you remove the cap.
NEVER mix different types of engine coolants.
This may adversely affect the properties of the engine coolant.
4TNV98 & 4TNE98 Diesel Engine 18 Section 1. General Service Information
Engine Coolant Specifications
Use a Long Life Coolant (LLC) or an Extended Life
Coolant (ELC) that meets or exceeds the following guidelines and specifications:
Additional Technical Coolant
Specifications:
• ASTM D6210, D4985 (US)
• JIS K-2234 (Japan)
• SAE J814C, J1941, J1034 or J2036 (International)
Alternative Engine Coolant
If an Extended or Long Life Coolant is not available, alternatively, you may use an ethylene glycol or propylene glycol based conventional coolant
(green).
Notes:
• ALWAYS use a mix of coolant and water. NEVER use water only.
• Mix the coolant and water per the mixing instructions on the coolant container.
• Water quality is important to coolant performance. Yanmar recommends that soft, distilled, or demineralized water be used to mix with coolants.
• NEVER mix extended or long life coolants and conventional
(green) coolants.
• NEVER mix different types and / or colors of extended life coolants.
• Replace the coolant every 1000 engine hours or once a year.
Filling Radiator with Engine Coolant
Fill the radiator and reserve tank as follows. This procedure is for filling the radiator for the first time or refilling it after it is flushed. Note that a typical radiator is illustrated (Figure 4-6).
Figure 4-6
1. Check to be sure the radiator drain plug isinstalled and tightened or the drain cock (Figure
4-6, (1)) is closed. Also make sure thecoolant drain plug (Figure 4-7, (1)) in thecylinder block is closed or the oil coolant hoses (Figure 4-8, (1)) are installed at the oil cooler.
Figure 4-7
4TNV98 & 4TNE98 Diesel Engine 19 Section 1. General Service Information
Figure 4-8
2. Remove the radiator cap (Figure 4-6, (2)) by turning it counter-clockwise about 1/3 of a turn.
3. Pour the engine coolant slowly into the radiator until it is even with the lip of the engine coolant filler port. Make sure that air bubbles do not develop as you fill the radiator.
4. Reinstall the radiator cap (Figure 4-6, (2)).Align the tabs on the back side of the radiator cap with the notches on the engine coolant filler port.
Press down and turn the cap clockwise about 1/3 of a turn.
5. Remove the cap on the reserve tank (Figure 4-6,
(3)), and fill it to the LOW (COLD) mark (Figure
4-6, (4)) with engine coolant. Reinstall the cap.
6. Check the hose (Figure 4-6, (5)) that connects the reserve tank (Figure 4-6, (3)) to the radiator.
Be sure it is securely connected and there are no cracks or damage. If the hose is damaged, the engine coolant will leak out instead of going into the reserve tank.
7. Run the engine until it is at operating temperature.
Check the level of engine coolant in the reserve tank. When the engine is running and the engine coolant is at normal temperature, the coolant level in the tank should be at the FULL (HOT) mark (Figure 4-6, (6)). If the engine coolant is not at the FULL (HOT) mark (Figure 4-6, (6)), add additional engine coolant to the reserve tank to bring the level to the FULL (HOT) mark.
Engine Coolant Capacity (Typical)
NOTE: The capacities listed are for the engineonly without a radiator. Refer to theoperation manual provided by the drivenmachine manufacturer for the actualengine coolant capacity on yourmachine.
The following are the engine coolant capacities for various Yanmar engines.
Engine Model
Engine Coolant
Capacity
4TNV98 4.4 qt (4.2 L)
4TNE98 4.4 qt (4.2 L)
Specifications
Description of Model Number
When ordering parts or making an inquiry about the engine you are working on, be sure to include the complete model and serial numbers as shown on the engine nameplate. See Location of Labels on page 8.
4TNV98 & 4TNE98 Diesel Engine 20 Section 1. General Service Information
Engine General Specifications
Type
Combustion
System
Vertical In-line, Water Cooled,
4-Cycle Diesel Engine
Starting System Electric Starting
Cooling System Radiator
Lubricating
System
PTO Position
Forced Lubrication with
Trochoid Pump
Flywheel End
Direction of
Rotation
Counterclockwise Viewed from the Flywheel End
NOTE: The information described in Principal
Engine Specifications is for a “standard” engine. To obtain the information for the engine installed in your driven machine, please refer to the manual provided by the driven machine manufacturer. Engine rating conditions are as follows (SAE J1349, ISO 3046/1):
• Atmospheric Condition: Room temperature 77°F
(25°C), Atmospheric pressure 29.53 in Hg (100 kPa, 750 mm Hg), Relative humidity 30%
• Fuel Temperature at Fuel Injector Pump Inlet:
104°F (40°C)
• With Cooling Fan, Air Cleaner, Muffler: Yanmar
Standard
• After Engine Break-In Period; Output Allowable
Deviation: ± 3%
• 1 PS = 0.7355 kW
• 1 hp SAE (Society of Automotive Engineers) =
0.7457 kW
4TNV98 & 4TNE98 Diesel Engine 21 Section 1. General Service Information
Principal Engine Specifications
4TNV98 EPA Tier 2
Engine Model 4TNV98
Type Vertical In-line Diesel Engine
Combustion System Direct Injection
Aspiration Natural
No. of Cylinders
Bore × Stroke
Displacement
4
3.858 x 4.331 in. (98 x 110 mm)
202.502 cu in. (3.319 L)
Max. Rated Output (Net)
RPM 2200 hp SAE 61.2 kW 45.6
PS 62.0
RPM 2400±25 High Idling
Engine Weight (Dry) with Flywheel Housing
PTO Position
518.2 lb (235 kg)
Flywheel End (Option)
Direction of Rotation
Cooling System
Lubricating System
Normal Oil Pressure at
Rated Engine Speed
Normal Oil Pressure at
Low Idle Speed
Counterclockwise Viewed from Flywheel End
Liquid-Cooled with Radiator
Forced Lubrication with Trochoid Pump
42 - 57 psi (0.29 - 0.39 MPa, 2.96 - 3.98 kgf/cm²)
8.5 psi (0.06 MPa, 0.6 kgf/cm²)or greater
Starting System
Dimensions (L × W × H)*
Electric Starting - Starter Motor: DC12V, 3.1 hp (2.3 kW)**
Alternator: DC12V, 40A**
Recommended Battery Capacity: 12V, 64 Amp-Hour (5h rating)**
28.31 x 19.61 x 29.21 in.
(719 x 498 x 742 mm)
11.1 / 6.3 qt (10.5 / 6.0 L) (Dipstick Upper Limit / Lower Limit) Engine Oil Pan
Engine Coolant Capacity 1.1 gal (4.2 L) Engine Only
Standard Cooling Fan 16.14 in. (410 mm) O.D., 6 Blade Pusher-Type**
* Engine specifications without radiator
** May vary depending on application.
*** Engine oil capacity for a “Deep Standard” oil pan. Refer to the operation manual provided by the driven machine manufacturer for the actual engine oil capacity of your machine.
4TNV98 & 4TNE98 Diesel Engine 22 Section 1. General Service Information
4TNE98 EPA Tier 3
Engine Model 4TNE98 EPA Tier 3
Type Vertical Inline Diesel Engine
Combustion System Indirect Injection, No Turbocharger
Aspiration Natural
No. of Cylinders
Bore × Stroke
4
3.86 x 4.33 in. (98 x 110 mm)
Displacement
**Max. Rated Output
(Gross)
202.5 cu in. (3.319 L)
RPM
(min
-1
) hp SAE
2300
58.6 kW 43.7
PS 59.4
High Idling Speed
(Bare Engine)
Low Idling Speed
(Bare Engine)
Engine Weight (Dry) *
PTO Position
Direction of Rotation
Cooling System
Lubricating System
2625±25
850±25 rpm
496 lb (235 kg)
Flywheel Side
Counterclockwise Viewed From Flywheel Side
Liquid-Cooled With Radiator
Forced Lubrication With Trochoid Pump
At normal operating speeds, oil pressure is: 42-57 psi
(0.29 - 0.39 MPa; 3.0 – 4.0 kgf/cm²)
At idle, oil pressure is: No less than 18.5 psi (0.13 Mpa; 1.3kgf/cm²)
Electric Starting - Starter Motor: DC12V, 3.1 hp (2.3 kW)
Starting System
Dimensions (L × W × H)*
Engine Oil Pan Capacity
Alternator: DC12V, 80A
Recommended Battery Capacity: 12V, 622 CCA
(Cold Cranking Amps)
28.0 x 20.3 x 29.8 in.
(710 x 516 x 758 mm)
9.7 / 7.6 qt (9.2 / 7.2 L)
(Dipstick Upper Limit / Lower Limit)
1.11 gal (4.2 L) Engine Only Engine Coolant Capacity
* Engine Specifications Without Radiator, Muffler, and Air Cleaner.
** The Intake and Exhaust condition of Max. Rated output are
Air Intake Restriction : 250mmAq
Exhaust Gas Restriction : 1000mmAq
***The detail specifications are refer to the Specification document which is agreed between both engineering.
4TNV98 & 4TNE98 Diesel Engine 23 Section 1. General Service Information
Engine Service Standards
Inspection Item
Intake / Exhaust Valve Clearance
Standard
0.006 - 0.010 in.
(0.15 - 0.25 mm)
Limit
-
Reference page
See Measuring and Adjusting
Valve Clearance on page 104
Fuel Injection
Timing
Fuel Injection
Pressure
Compression
Pressure at 250 rpm 250 min¯¹)
Lubricating Oil
Pressure
4TNV98 See Checking and Adjusting Fuel Injection Timing on page 157.
4TNE98 8.5°±1° -
With Plunger Lifted
0.039 in (1mm)
4TNV98 See Test and Adjustment Specifications on page 144.
4TNE98
1711-1842 psi
(11.8 - 12.7 Mpa;
120 - 130 kgf / cm²
- -
4TNV98
483 - 513 psi
(3.33 - 3.53 MPa;
34 - 36 kgf / cm²)
384 - 414 psi
(2.65 - 2.85 MPa;
27 - 29 kgf / cm²)
See
Troubleshooting
By Measuring
Compression
Pressure on page 236
4TNE98
Deviation Between Cylinders
Oil Pressure Switch Operating Pressure
Max.(when cold)
At rated Output
When idling
425 - 428 psi
(2.93 – 2.95 MPa;
29 - 31 kgf / cm²)
29 - 43 psi
(0.2 - 0.3 MPa;
2 - 3 kgf/cm²)
5.8 - 8.8 psi
(0.04 - 0.06 MPa;
0.4 - 0.6 kgf / cm²)
86 psi
(0.59 MPa;
6.0 kgf / cm²)
42 - 57 psi
(0.29 - 0.39 MPa;
2.96 - 3.98 kgf / cm²)
8.5 psi
(0.06 MPa;
0.6 kgf / cm²) or greater
Valve Opening
Temperature
341 psi
(2.35 MPa;
24 kgf / cm²)
-
- -
- -
- -
- -
- -
Thermostat
Option
Standard
157°F - 163°F
(70°C - 73°C)
176°F - 183°F
(80°C - 84°C)
Full Opening Lift
Temperature
0.32 in (8 mm) or
Above
185°F (85°C)
0.39 in (10 mm) or above
203°F (95°C)
See Thermostat on page 207
4TNV98 & 4TNE98 Diesel Engine 24 Section 1. General Service Information
Tightening Torques for Standard
Bolts and Nuts
Use the correct amount of torque when you tighten the fasteners on the machine. Applying excessive torque may damage the fastener or component and not enough torque may cause a leak or component failure.
CAUTION
The tightening torque in the Standard Torque
Chart (see General Service Information section) should be applied only to the bolts with a “7” head. (JIS strength classification: 7T)
Apply 60% torque to bolts that are not listed.
Apply 80% torque when tightened to aluminum alloy.
4TNV98 & 4TNE98 Diesel Engine 25 Section 1. General Service Information
Item
Nominal Thread
Diameter x Pitch
Tightening Torque Remarks
Hexagon Bolt (7T) and
Nut
PT PLug
M6 x 1.0 mm
M8 x 1.25 mm
M10 x 1.5 mm
M12 x 1.75 mm
M14 x 1.5 mm
M16 x 1.5 mm
1/8 mm
1/4 mm
3/8 mm
1/2 mm
7 - 9 ft·lb
(87 -104 in·lb,
9.8 -11.8 N·m,
1.0 -1.2 kgf·m)
17 - 21 ft·lb
(200 - 251 in.·lb,
22.6 - 28.4 N·m,
2.3 - 2.9 kgf·m)
33 - 40 ft·lb
(44.1 - 53.9 N·m,
4.5 - 5.5 kgf·m)
58 - 72 ft·lb
(78.4 - 98.0 N·m,
8.0 - 10 kgf·m)
94 - 108 ft·lb
(127.5 - 147.1 N·m,
13 - 15 kgf·m)
159 - 174 ft·lb
(215.7- 235.4 N·m,
22 – 24 kgf·m)
7 ft·lb (87 in.·lb,
9.8 N·m, 1.0 kgf·m)
14 ft·lb (173 in.·lb,
19.6 N·m, 2.0 kgf·m)
22 ft·lb
(29.4 N·m, 3.0 kgf·m)
43 ft·lb
(58.8 N·m, 6.0 kgf·m)
Use 80% of the value at left when the tightening part is aluminum.
Use 60% of the value at left for 4T bolts and lock nuts.
Item
Nominal Thread
Diameter x Pitch
Tightening Torque Remarks
Pipe Joint Bolt
M8
M10
M12
M14
M16
9 - 12 ft·lb
(112 - 148 in.·lb,
12.7 - 16.7 N·m,
1.3 - 1.7 kgf·m)
14 - 19 ft·lb
(173 - 225 in.·lb,
19.6 - 18.734 N·m,
2.0 - 3.5 kgf·m)
18 - 25 ft·lb
(24.5 - 34.3 N·m,
2.5 - 3.5 kgf·m)
29 - 36 ft·lb
(39.2 - 49.0 N·m,
4.0 5.0 kgf·m)
36 - 43 ft·lb
(49.0 - 58.8 N·m,
5.0 - 6.0 kgf·m)
.
NOTE: Torque values shown in this manual are for clean, non-lubricated fasteners unless otherwise specified.
4TNV98 & 4TNE98 Diesel Engine 26 Section 1. General Service Information
Abbreviations and Symbols
Abbreviations.
A
AC
ACEA ampere alternating current
Association des Constructeurs
Européens d’Automobilies
DI
DVA
EPA
ESG
°F fl oz fl oz/min ft ft-lb ft-lbf/min g gal gal/hr gal/min
Ah
API
ARB
ATDC
BDC
BTDC
°C
CARB
CCA cfm cm cm³ cm³/min cu in.
D
DC ampere-hour
American Petroleum Institute
Air Resources Board after top dead center bottom dead center before top dead center degree Celsius
California Air Resources Board cold cranking amp cubic feet per minute centimeter cubic centimeter cubic centimeter per minute cubic inch diameter direct current direct injection direct volt adapter
Environmental Protection Agency electronic speed governor degree Fahrenheit fluid ounce (U.S.) fluid ounce (U.S.) per minute foot foot pound foot pound force per minute gram gallon (U.S.) gallon (U.S.) per hour gallon (U.S.) per minute lubricant hp horsepower (U.S.) hr hour
I.D. inside diameter
ID identification
IDI indirect injection in. inch in.Aq inches Aqueous (water) in.Hg inches Mercury in.-lb inch pound
j joule
+
-
±
Ω
μ
%
JASO k
Japanese Automobile Standards
Organization kelvin kg kilogram kgf/cm² kilogram force per square centimeter kgf/m kilogram force per meter km kilometers kPa kilopascal kW kilowatt
L liter
L/hr liter per hour lb pound lbf pound force m meter mL milliliter mm millimeter mmAq millimeter Aqueous (water)
MPa megapascal mV millivolt
N newton
N·m newton meter
No. number
O.D. outside diameter oz ounce
Pa pascal
PS horsepower (metric) psi pound per square inch qt quart (U.S.)
R radius rpm revolutions per minute
SAE
Society of Automotive Engineers sec. second t short ton 2000 lb
TBN total base number
TDC top dead center
V volt
VAC volt alternating current
VDC volt direct current
W watt
Symbols
°
degree plus minus plus or minus ohm micro percent
4TNV98 & 4TNE98 Diesel Engine 27 Section 1. General Service Information
Unit Conversions
Unit Prefixes
Prefix Symbol Power micro x
0.000001
Units of Length
Units of Torque
Units of Pressure
14.5030 psi
3.2810 ft
Units of Volume
gal (U.S.) x qt (U.S.) x cu in. cu in. x x fl oz(U.S.) x fl oz(U.S.) x
Units of Mass
Units of Force
3.78540
0.94635
0.01639
16.38700
0.02957
29.57000
= L
= L
= L
= mL
= L
= mL
0.2248 lbf
0.1020 kgf kg/cm² x 0.9807 = in.Hg (60°) x in.Hg (60°) x in.Hg (60°) x
0.0333
3.3770
0.0344
= bar
= kPa
= kg/cm² mmAq x 0.0394 =
Units of Power
hp
(metric or PS) hp x 0.9863201 = hp SAE
(metric or PS) hp SAE x 1.0138697 =hp(metric or PS) hp SAE x 0.7456999 = kW kW x 1.3596216 =hp(metric or PS) kW x 1.3410221 = hp
SAE
Units of Temperature
°F = (1.8 x °C) + 32
°C = 0.556 x (°F - 32)
4TNV98 & 4TNE98 Diesel Engine 28 Section 1. General Service Information
Section 2. PERIODIC MAINTENANCE
Before You Begin Servicing
DANGER DANGER
EXPLOSION HAZARD!
NEVER check the remaining battery charge by shorting out the terminals. This will result in a spark and may cause an explosion or fire. Use a hydrometer to check the remaining battery charge.
If the electrolyte is frozen, slowly warm the battery before you recharge it.
Failure to comply will result in death or serious injury.
SCALD HAZARD!
NEVER remove the radiator cap if the engine is hot. Steam and hot engine coolant will spurt out and seriously burn you. Allow the engine to cool down before you attempt to remove the radiator cap.
Tighten the radiator cap securely after you check the radiator. Steam can spurt out during engine operation if the cap is loose.
ALWAYS check the level of the engine coolant by observing the reserve tank.
Failure to comply will result in death or serious injury.
DANGER
FIRE AND EXPLOSION HAZARD!
Only use the key switch to start the engine.
NEVER jump-start the engine. Sparks caused by shorting the battery to the starter terminals may cause a fire or explosion.
Failure to comply will result in death or serious injury.
DANGER
FIRE AND EXPLOSION HAZARD!
Diesel fuel is flammable and explosive under certain conditions.
Only fill the fuel tank with diesel fuel. Filling the fuel tank with gasoline may result in a fire and will damage the engine.
NEVER refuel with the engine running.
Wipe up all spills immediately.
Keep sparks, open flames or any other form of ignition (match, cigarette, static electric source) well away when refueling.
NEVER overfill the fuel tank.
Fill the fuel tank. Store any containers containing fuel in a well-ventilated area, away from any combustibles or sources of ignition.
Failure to comply will result in death or serious injury.
4TNV98 & 4TNE98 Diesel Engine 29 Section 2. Periodic Maintenance
DANGER
FIRE AND EXPLOSION HAZARD!
Diesel fuel is flammable and explosive under certain conditions.
Before you operate the engine, check for fuel leaks. Replace rubberized fuel hoses every two years or every 2000 hours of engine operation, whichever comes first, even if the engine has been out of service. Rubberized fuel lines tend to dry out and become brittle after two years or
2000 hours of engine operation, whichever comes first.
Failure to comply will result in death or serious injury.
DANGER
FIRE AND EXPLOSION HAZARD!
Diesel fuel is flammable and explosive under certain conditions.
NEVER remove the fuel cap with the engine running.
Failure to comply will result in death or serious injury.
DANGER
FIRE AND EXPLOSION HAZARD!
Diesel fuel is flammable and explosive under certain conditions.
Be sure to place the diesel fuel container on the ground when transferring the diesel fuel from the pump to the container. Hold the hose nozzle firmly against the side of the container while filling it. This prevents static electricity buildup which could cause sparks and ignite fuel vapors.
NEVER place diesel fuel or other flammable material such as oil, hay or dried grass close to the engine during engine operation or shortly after shutdown.
Failure to comply will result in death or serious injury.
DANGER
FIRE AND EXPLOSION HAZARD!
Diesel fuel is flammable and explosive under certain conditions.
NEVER use diesel fuel as a cleaning agent.
Failure to comply will result in death or serious injury.
4TNV98 & 4TNE98 Diesel Engine 30 Section 2. Periodic Maintenance
DANGER
CRUSH HAZARD!
When you need to transport an engine for repair, have a helper assist you to attach it to a hoist and load it on a truck.
NEVER stand under a hoisted engine. If the hoist mechanism fails, the engine will fall on you, causing death or serious injury.
Failure to comply will result in death or serious injury.
DANGER
FIRE AND EXPLOSION HAZARD!
Diesel fuel is flammable and explosive under certain conditions.
When you remove any fuel system component to perform maintenance (such as changing the fuel filter) place an approved container under the opening to catch the fuel.
NEVER use a shop rag to catch the fuel. Vapors from the rag are flammable and explosive.
Wipe up any spills immediately.
Wear eye protection. The fuel system is under pressure and fuel could spray out when you remove any fuel system component.
Failure to comply will result in death or serious injury.
DANGER
FIRE AND EXPLOSION HAZARD!
Diesel fuel is flammable and explosive under certain conditions.
Place an approved container under the air bleed port when you prime the fuel system. Never use a shop rag to catch the fuel. Wipe up any spills immediately. ALWAYS close the air bleed port after you complete priming the system.
Wear eye protection. The fuel system is under pressure and fuel could spray out when you open the air bleed port.
If the unit has an electric fuel pump, turn the key switch to the ON position for 10 to 15 seconds, or until the fuel coming out of the air bleed port is free of bubbles, to allow the electric fuel pump to prime the system.
If the unit has a mechanical fuel pump, operate the fuel priming pump several times until the fuel coming out of the air bleed port is free of bubbles.
Failure to comply will result in death or serious injury.
4TNV98 & 4TNE98 Diesel Engine 31 Section 2. Periodic Maintenance
WARNING
EXHAUST HAZARD!
NEVER operate the engine in an enclosed area such as a garage, tunnel, underground room, manhole or ship’s hold without proper ventilation.
NEVER block windows, vents, or other means of ventilation if the engine is operating in an enclosed area. All internal combustion engines create carbon monoxide gas during operation.
Accumulation of this gas within an enclosure could cause illness or even death.
Make sure that all connections are tightened to specifications after repair is made to the exhaust system.
Failure to comply could result in death or serious injury.
WARNING
SEVER HAZARD!
Keep hands and other body parts away from moving/rotating parts such as the cooling fan, flywheel or PTO shaft.
Wear tight-fitting clothing and keep your hair short or tie it back while the engine is running.
Remove all jewelry before you operate or service the machine.
NEVER start the engine in gear. Sudden movement of the engine and/or machine could cause death or serious personal injury.
NEVER operate the engine without the guards in place.
Before you start the engine make sure that all bystanders are clear of the area.
Keep children and pets away while the engine is operating.
Check before starting the engine that any tools or shop rags used during maintenance have been removed from the area.
Failure to comply could result in death or serious injury.
4TNV98 & 4TNE98 Diesel Engine 32 Section 2. Periodic Maintenance
WARNING
SUDDEN MOVEMENT HAZARD!
Engaging the transmission or PTO at an elevated engine speed could result in unexpected movement of the equipment.
Failure to comply could result in death or serious injury.
WARNING
BURN HAZARD!
Keep your hands and other body parts away from hot engine surfaces such as the muffler, exhaust pipe, turbocharger (if equipped) and engine block during operation and shortly after you shut the engine down. These surfaces are extremely hot while the engine is operating and could seriously burn you.
Failure to comply could result in death or serious injury.
WARNING
ALCOHOL AND DRUG HAZARD!
NEVER operate the engine while you are under the influence of alcohol or drugs.
NEVER operate the engine when you are feeling ill.
Failure to comply could result in death or serious injury.
4TNV98 & 4TNE98 Diesel Engine 33 Section 2. Periodic Maintenance
WARNING
EXPOSURE HAZARD!
Wear personal protective equipment such as gloves, work shoes, eye and hearing protection as required by the task at hand.
NEVER wear jewelry, unbuttoned cuffs, ties or loose-fitting clothing when you are working near moving/rotating parts such as the cooling fan, flywheel or PTO shaft.
ALWAYS tie back long hair when you are working near moving/rotating parts such as a cooling fan, flywheel, or PTO shaft.
NEVER operate the engine while wearing a headset to listen to music or radio because it will be difficult to hear the alert signals.
Failure to comply could result in death or serious injury.
WARNING
BURN HAZARD!
Batteries contain sulfuric acid. NEVER allow battery fluid to come in contact with clothing, skin or eyes. Severe burns could result.
ALWAYS wear safety goggles and protective clothing when servicing the battery. If battery fluid contacts the eyes and / or skin, immediately flush the affected area with a large amount of clean water and obtain prompt medical treatment.
Failure to comply could result in death or serious injury.
WARNING
HIGH-PRESSURE HAZARD!
Avoid skin contact with the high-pressure diesel fuel spray caused by a fuel system leak such as a broken fuel injection line. Highpressure fuel can penetrate your skin and result in serious injury. If you are exposed to highpressure fuel spray, obtain prompt medical treatment.
NEVER check for a fuel leak with your hands.
ALWAYS use a piece of wood or cardboard.
Have your authorized Yanmar industrial engine dealer or distributor repair the damage.
Failure to comply could result in death or serious injury.
4TNV98 & 4TNE98 Diesel Engine 34 Section 2. Periodic Maintenance
WARNING
SHOCK HAZARD!
Turn off the battery switch (if equipped) or disconnect the negative battery cable before servicing the electrical system.
Check the electrical harnesses for cracks, abrasions, and damaged or corroded connectors. ALWAYS keep the connectors and terminals clean.
Failure to comply could result in death or serious injury.
WARNING
BURN HAZARD!
If you must drain the engine oil while it is still hot, stay clear of the hot engine oil to avoid being burned.
ALWAYS wear eye protection.
Failure to comply could result in death or serious injury.
WARNING
ENTANGLEMENT HAZARD!
Stop the engine before you begin to service it.
NEVER leave the key in the key switch when you are servicing the engine. Someone may accidentally start the engine and not realize you are servicing it. This could result in a serious injury.
If you must service the engine while it is operating, remove all jewelry, tie back long hair, and keep your hands, other body parts and clothing away from moving/rotating parts.
Failure to comply could result in death or serious injury.
WARNING
BURN HAZARD!
Wait until the engine cools before you drain the engine coolant. Hot engine coolant may splash and burn you.
Failure to comply could result in death or serious injury.
4TNV98 & 4TNE98 Diesel Engine 35 Section 2. Periodic Maintenance
CAUTION
COOLANT HAZARD!
Wear eye protection and rubber gloves when you handle long life or extended life engine coolant. If contact with the eyes or skin should occur, flush eyes and wash immediately with clean water.
Failure to comply may result in minor or moderate injury.
CAUTION
FLYING OBJECT HAZARD!
ALWAYS wear eye protection when servicing the engine and when using compressed air or high-pressure water. Dust, flying debris, compressed air, pressurized water or steam may injure your eyes.
Failure to comply may result in minor or moderate injury.
CAUTION
Only use diesel fuels recommended by Yanmar for the best engine performance, to prevent engine damage and to comply with EPA/ARB warranty requirements.
Only use clean diesel fuel.
NEVER remove the primary strainer (if equipped) from the fuel tank filler port. If removed, dirt and debris could get into the fuel system causing it to clog.
CAUTION
Only use the engine oil specified. Other engine oils may affect warranty coverage, cause internal engine components to seize and / or shorten engine life.
Prevent dirt and debris from contaminating the engine oil. Carefully clean the oil cap/dipstick and the surrounding area before you remove the cap.
NEVER mix different types of engine oil. This may adversely affect the lubricating properties of the engine oil.
NEVER overfill. Overfilling may result in white exhaust smoke, engine overspeed or internal damage.
CAUTION
Only use the engine coolant specified. Other engine coolants may affect warranty coverage, cause an internal buildup of rust and scale and/or shorten engine life.
Prevent dirt and debris from contaminating the engine coolant. Carefully clean the radiator cap and the surrounding area before you remove the cap.
NEVER mix different types of engine coolants.
This may adversely affect the properties of the engine coolant.
CAUTION
NEVER attempt to modify the engine’s design or safety features such as defeating the engine speed limit control or the diesel fuel injection quantity control.
Modifications may impair the engine’s safety and performance characteristics and shorten the engine’s life. Any alterations to this engine may void its warranty. Be sure to use Yanmar genuine replacement parts.
4TNV98 & 4TNE98 Diesel Engine 36 Section 2. Periodic Maintenance
CAUTION
Observe the following environmental operating conditions to maintain engine performance and avoid premature engine wear:
• Avoid operating in extremely dusty conditions.
• Avoid operating in the presence of chemical gases or fumes.
• Avoid operating in a corrosive atmosphere such as salt water spray.
• NEVER install the engine in a floodplain unless proper precautions are taken to avoid being subject to a flood.
• NEVER expose the engine to the rain.
CAUTION
Observe the following environmental operating conditions to maintain engine performance and avoid premature engine wear:
• The standard range of ambient temperatures for the normal operation of Yanmar engines is from +5°F (-15°C) to +113°F (+45°C).
• If the ambient temperature exceeds +113°F
(+45°C) the engine may overheat and cause the engine oil to break down.
• If the ambient temperature is below +5°F (-
15°C) the engine will be hard to start and the engine oil may not flow easily.
• Contact your authorized Yanmar industrial engine dealer or distributor if the engine will be operated outside of this standard temperature range.
CAUTION
NEVER hold the key in the START position for longer than 15 seconds or the starter motor will overheat.
CAUTION
For maximum engine life, Yanmar recommends that when shutting the engine down, you allow the engine to idle, without load, for five minutes.
This will allow the engine components that operate at high temperatures, such as the turbocharger (if equipped) and exhaust system, to cool slightly before the engine itself is shut down.
CAUTION
NEVER use an engine starting aid such as ether.
Engine damage will result.
CAUTION
Make sure the engine is installed on a level surface. If a continuously running engine is installed at an angle greater than (IDI = 25°, DI =
30°) in any direction or if an engine runs for short periods of time (less than three minutes) at an angle greater than (IDI = 30°, DI = 35°) in any direction, engine oil may enter the combustion chamber causing excessive engine speed and white exhaust smoke. This may cause serious engine damage.
4TNV98 & 4TNE98 Diesel Engine 37 Section 2. Periodic Maintenance
CAUTION
New Engine Break-in:
• On the initial engine start-up, allow the engine to idle for approximately 15 minutes while you check for proper engine oil pressure, diesel fuel leaks, engine oil leaks, coolant leaks, and for proper operation of the indicators and/or gauges.
• During the first hour of operation, vary the engine speed and the load on the engine.
Short periods of maximum engine speed and load are desirable. Avoid prolonged operation at minimum or maximum engine speeds and loads for the next four to five hours.
• During the break-in period, carefully observe the engine oil pressure and engine temperature.
• During the break-in period, check the engine oil and coolant levels frequently.
CAUTION
NEVER engage the starter motor while the engine is running. This may damage the starter motor pinion and/or ring gear.
CAUTION
It is important to perform daily checks.
Periodic maintenance prevents unexpected downtime, reduces the number of accidents due to poor machine performance and helps extend the life of the engine.
CAUTION
ALWAYS be environmentally responsible.
Follow the guidelines of the EPA or other governmental agencies for the proper disposal of hazardous materials such as engine oil, diesel fuel and engine coolant. Consult the local authorities or reclamation facility.
NEVER dispose of hazardous materials irresponsibly by dumping them into a sewer, on the ground, or into ground water or waterways.
Failure to follow these procedures may seriously harm the environment.
CAUTION
Protect the air cleaner, turbocharger (if equipped) and electric components from damage when you use steam or high-pressure water to clean the engine.
CAUTION
NEVER overfill the engine with engine oil.
ALWAYS keep the oil level between the upper and lower lines on the oil cap/dipstick.
4TNV98 & 4TNE98 Diesel Engine 38 Section 2. Periodic Maintenance
CAUTION
NEVER use high-pressure water or compressed air at greater than 28 psi (193 kPa; 19 686 mmAq) or a wire brush to clean the radiator fins.
Radiator fins damage easily.
CAUTION
NEVER attempt to adjust the low or high idle speed limit screw. This may impair the safety and performance of the machine and shorten its life. If the idle speed limit screws require adjustment, see your authorized Yanmar industrial engine dealer or distributor.
CAUTION
Establish a periodic maintenance plan according to the engine application and make sure you perform the required periodic maintenance at the intervals indicated. Failure to follow these guidelines will impair the engine’s safety and performance characteristics, shorten the engine’s life and may affect the warranty coverage on your engine.
See Yanmar Limited Warranty in Warranty
Section.
Consult your authorized Yanmar dealer or distributor for assistance when checking items marked with a.
CAUTION
If the fuel filter/water separator is positioned higher than the fuel level in the fuel tank, water may not drip out when the fuel filter/water separator drain cock is opened. If this happens, turn the air vent screw on the top of the fuel filter/water separator 2-3 turns counterclockwise.
Be sure to tighten the air vent screw after the water has drained out.
CAUTION
When the engine is operated in dusty conditions, clean the air cleaner element more frequently.
NEVER operate the engine with the air cleaner element(s) removed. This may allow foreign material to enter the engine and damage it.
CAUTION
The maximum air intake restriction, in terms of differential pressure measurement, must not exceed 0.90 psi (6.23 kPa; 635 mmAq). Clean or replace the air cleaner element if the air intake restriction exceeds the above mentioned value.
4TNV98 & 4TNE98 Diesel Engine 39 Section 2. Periodic Maintenance
Introduction
This section of the Service Manual describes the procedures for proper care and maintenance of the engine.
The Importance of Periodic
Maintenance
Engine deterioration and wear occurs in proportion to length of time the engine has been in service and the conditions the engine is subject to during operation. Periodic maintenance prevents unexpected downtime, reduces the number of accidents due to poor machine performance and helps extend the life of the engine.
Performing Periodic Maintenance
WARNING
EXHAUST HAZARD!
NEVER operate the engine in an enclosed area such as a garage, tunnel, underground room, manhole or ship’s hold without proper ventilation.
NEVER block windows, vents, or other means of ventilation if the engine is operating in an enclosed area. All internal combustion engines create carbon monoxide gas during operation.
Accumulation of this gas within an enclosure could cause illness or even death.
Make sure that all connections are tightened to specifications after repair is made to the exhaust system.
Failure to comply could result in death or serious injury.
Perform periodic maintenance procedures in an open, level area free from traffic. If possible, perform the procedures indoors to prevent environmental conditions, such as rain, wind, or snow, from damaging the machine.
Yanmar Replacement Parts
Yanmar recommends that you use genuine Yanmar parts when replacement parts are needed. Genuine replacement parts help ensure long engine life.
Required EPA / ARB Maintenance-USA
Only
To maintain optimum engine performance and compliance with the Environmental Protection
Agency (EPA) Regulations Non-road Engines and the California Air Resources Board (ARB,
California), it is essential that you follow the
Periodic Maintenance Schedule on page 41 and
Periodic Maintenance Procedures on page 43.
EPA / ARB Installation Requirements-
USA Only
The following are the installation requirements for the EPA / ARB. Unless these requirements are met, the exhaust gas emissions will not be within the limits specified by the EPA and ARB.
Maximum Exhaust Gas Restriction shall be:
• 4TNV98 : 2.22 psi (15.3 kPa; 1560mm Aq) or
Iess
• 4TNE98 : 8.53 psi (58.8 kPa; 6000mm Aq)
Maximum air intake restriction shall be 0.90 psi
(6.23 kPa; 635 mm Aq) or less. Clean or replace the air cleaner element if the air intake restriction exceeds the above mentioned value.
4TNV98 & 4TNE98 Diesel Engine 40 Section 2. Periodic Maintenance
Periodic Maintenance Schedule
Daily and periodic maintenance is important to keep the engine in good operating condition. The following is a summary of maintenance items by periodic maintenance intervals. Periodic maintenance intervals vary depending on engine application, loads, diesel fuel and engine oil used and are hard to establish definitively. The following should be treated only as a general guideline.
CAUTION
Establish a periodic maintenance plan according to the engine application and make sure you perform the required periodic maintenance at the intervals indicated. Failure to follow these guidelines will impair the engine’s safety and performance characteristics, shorten the engine’s life and may affect the warranty coverage on your engine.
See Yanmar Limited Warranty in Warranty
Section.
Consult your authorized Yanmar dealer or distributor for assistance when checking items marked with a.
4TNV98 & 4TNE98 Diesel Engine 41 Section 2. Periodic Maintenance
○ :Check ◇:Replace
Check and Refill Engine Cool
Check and Clean Radiator Fins
Check Engine Coolant Temp.
Indicator
○
○
Every
50 hours
Periodic Maintenance Interval
Every
250 hours
Every
500 hours
Every
1000 hours
Every
1500 hours
○
Every
2000 hours
Cooling
System Check and Adjust Cooling Fan V-Belt
○ 1st time
○
2nd and after
Drain, Flush and Refill Cooling
System with New Coolant
Adjust Intake / Exhaust Valve
Clearance
Lap Intake / Exhaust Valve Seats
Check Indicators
Check Battery
Check Engine Oil Level
Check Engine Oil Pressure Indicator
Drain and Fill Engine Oil
○
○
○
○
◇ or every year whichever comes first
○
Cylinder
Head
Electrical
Equipment
Engine Oil
Replace Engine Oil Filter
◇ 1st time
◇
2nd and after
Engine
Speed
Control
Emission
Control
Warranty
Fuel
Check and Adjust Governor Lever and Engine Speed Control
Inspect, Clean and Test Fuel Injectors
Inspect Crankcase Breather System
Check and Refill Fuel Tank Level
Check Fuel Filter Indicator
Drain Fuel Tank
Drain Fuel Filter / Water Separator
Check Fuel Filter / Water Separator
Clean Fuel Filter / Water Separator
○
○
○
○
○
○
○
○
○
○
Replace Fuel Filter ◇
Hoses
Replace Fuel System and Cooling
System Hoses
○ or every 2 years
Intake and
Exhaust
Complete
Engine
Clean or Replace Air Cleaner Element
Overall Visual Check Daily ○
○ ◇
NOTE: These procedures are considered normal maintenance and are performed at the owner’s expense.
○
4TNV98 & 4TNE98 Diesel Engine 42 Section 2. Periodic Maintenance
Periodic Maintenance Procedures
Daily
Perform the following procedures daily.
• Drain Fuel Filter / Water Separator
• Check Fuel Hoses and Engine Coolant Hoses
Drain Fuel Filter / Water Separator
DANGER
FIRE AND EXPLOSION HAZARD!
• Diesel fuel is extremely flammable and explosive under certain conditions.
• When you remove any fuel system component to perform maintenance (such as changing the fuel filter) place an approved container under the opening to catch the fuel.
• NEVER use a shop rag to catch the fuel. Vapors from the rag are extremely flammable and explosive.
• Wipe up any spills immediately.
• Wear eye protection. The fuel system is under pressure and fuel could spray out when you remove any fuel system component.
• Failure to comply will result in death or serious
injury.
0000009en.
4TNE98 For D25S-5 Only
WARNING
HIGH PRESSURE HAZARD!
• Avoid skin contact with high pressure diesel fuel spray caused by a fuel system leak such as a broken fuel injection line. High pressure fuel can penetrate your skin and result in serious injury. If you are exposed to high pressure fuel spray obtain prompt medical treatment.
• NEVER check for a fuel leak with your hands.
ALWAYS use a piece of wood or cardboard.
Have your authorized Yanmar industrial engine dealer or distributor repair the damage.
• Failure to comply could result in death or serious injury.
0000008en.
CAUTION
If no water drips when the fuel filter/water separator drain cock is opened, loosen the air vent screw on the top of the fuel filter/water separator by using a screwdriver to turn it counterclockwise 2-3 turns.This may occur if the fuel filter / water separator is positioned higher than the fuel level in the fuel tank. After draining the fuel filter/water separator, be sure to tighten the air vent screw.
0000025en .
4TNV98 & 4TNE98 Diesel Engine 43 Section 2. Periodic Maintenance
CAUTION
Be responsible to the environment.
Follow these procedures for hazardous waste disposal. Failure to follow these procedures may seriously harm the environment.
• Follow the guidelines of the EPA or other governmental agency for the proper disposal of hazardous materials such as engine oil, diesel fuel and engine coolant. Consult the local authorities or reclamation facility.
• NEVER dispose of hazardous materials irresponsibly by dumping them into a sewer, on the ground or into ground water or waterways.
0000013en.
NEVER wait until the scheduled periodic maintenance if the fuel filter indicator comes on.
The fuel filter / water separator contains a sensor to detect the amount of water and contaminants. This sensor sends a signal to an indicator to alert the operator.
Drain the fuel filter / water separator as follows:
Figure 5-1
1. Position an approved container under the fuel filter / water separator (Figure5-1, (1)) to collect the contaminants.
2. Loosen the drain cock (Figure5-1, (2)) at the bottom of the fuel filter / water separator. Drain any water collected inside.
3. Hand tighten the drain cock.
4. Be sure to prime the diesel fuel system when you are done. See Priming the Fuel System on page15.
Check Fuel Hoses and Engine Coolant
Hoses
Daily check the fuel system and engine coolant system hoses. If they are cracked or degraded, replace them.
4TNV98 & 4TNE98 Diesel Engine 44 Section 2. Periodic Maintenance
Daily
After Initial 50 Hours of Operation
Perform the following maintenance after the initial
50 hours of operation.
• Replace Engine Oil and Engine Oil Filter
• Check and Adjust Cooling Fan V-Belt
Replace Engine Oil and Engine Oil Filter
WARNING
BURN HAZARD!
If you must drain the engine oil while it is still hot, stay clear of the hot engine oil to avoid being burned.
ALWAYS wear eye protection.
Failure to comply could result in death or serious injury.
WARNING
SUDDEN MOVEMENT HAZARD!
Engaging the transmission or PTO at an elevated engine speed could result in unexpected movement of the equipment.
Failure to comply could result in death or serious injury.
CAUTION
Only use the engine oil specified. Other engine oils may affect warranty coverage, cause internal engine components to seize and / or shorten engine life.
Prevent dirt and debris from contaminating the engine oil. Carefully clean the oil cap/dipstick and the surrounding area before you remove the cap.
NEVER mix different types of engine oil. This may adversely affect the lubricating properties of the engine oil.
NEVER overfill. Overfilling may result in white exhaust smoke, engine overspeed or internal damage.
CAUTION
ALWAYS be environmentally responsible.
Follow the guidelines of the EPA or other governmental agencies for the proper disposal of hazardous materials such as engine oil, diesel fuel and engine coolant. Consult the local authorities or reclamation facility.
NEVER dispose of hazardous materials irresponsibly by dumping them into a sewer, on the ground, or into ground water or waterways.
Failure to follow these procedures may seriously harm the environment.
4TNV98 & 4TNE98 Diesel Engine 45 Section 2. Periodic Maintenance
The engine oil in a new engine becomes contaminated from the initial break-in of internal parts. It is very important that the initial oil and filter change is performed as scheduled.
NOTE: The oil drain plug may be in another location if an optional oil pan is used.
Drain the engine oil as follows:
1. Make sure the engine is level.
2. Start the engine and bring it up to operating temperature.
3. Stop the engine.
4. Remove one of the oil filler caps (Figure 5-1, (1)) to vent the engine crankcase and allow the engine oil to drain more easily.
5. Position a container under the engine to collect waste oil.
Figure 5-1
6. Remove the oil drain plug (Figure 5-2, (1)) from the engine oil pan. Allow oil to drain.
7. After all oil has been drained from the engine, reinstall the oil drain plug (Figure 5-2, (1)) and tighten to 139.8 - 47.0 ft·lb (53.9 - 63.7 N·m; 5. 5
- 6.5 kgf·m).
8. Dispose of used oil properly.
Remove the engine oil filter as follows:
1. Turn the engine oil filter (Figure 5-2, (2)) counterclockwise (Figure 5-2, (3)) using a filter wrench.
Figure 5-2
2. Clean the engine oil filter mounting face.
3. Lightly coat the gasket on the new oil filter with engine oil. Install the new engine oil filter manually by turning it clockwise (Figure 5-2, (4)) until it contacts the mounting surface. Tighten to
14 - 17 ft·lb (19.6 - 23.5 N·m; 2.0 - 2.4 kgf·m) or one additional turn using the filter wrench.
Applicable Engine Oil Filter Part No.
4TNV98 A408065
4TNE98 A408065
4TNV98 & 4TNE98 Diesel Engine 46 Section 2. Periodic Maintenance
4. Add new engine oil to the engine as specified in
Adding Engine Oil on page 17.
CAUTION
NEVER overfill the engine with engine oil.
ALWAYS keep the oil level between the upper and lower lines on the oil cap/dipstick.
5. Warm up the engine by running it for five minutes and check for any engine oil leaks.
6. After engine is warm, shut it off and let it sit for 10 minutes.
7. Recheck the engine oil level.
8. Add engine oil (Figure 5-3, (5)) as needed until the level is between the upper (Figure 5-3, (2)) and lower lines (Figure 5-3, (3)) shown on the dipstick (Figure 5-3, (1)).
Figure 5-3
9. Reinstall the oil filler cap (Figure 5-3, (4)). If any engine oil is spilled, wipe it away with a clean cloth.
Check and Adjust Cooling Fan V-Belt
The V-belt will slip if it does not have the proper tension. This will prevent the alternator from generating sufficient power. Also, the engine will overheat due to the engine coolant pump pulley slipping.
Check and adjust the V-belt tension (deflection) as follows:
1. Press the V-belt down with your thumb with a force of approximately 22 ft·lb (98 N·m; 10 kgf) to check the deflection.
There are three positions to check for V-belt tension (Figure 5-4, (A), (B) and (C)). You can check the tension at whichever position is the most accessible. The proper deflection of a used
V-belt at each position is:
Used V-Belt Tension
A B C
3/8 - 1/2 in.
(10 - 14 mm)
1/4 - 3/8 in.
(7 - 10 mm)
5/16 - 1/2 in.
(9 - 13 mm)
NOTE: A “Used V-Belt” refers to a V-belt which has been used on a running engine for five minutes or more.
Figure 5-4
4TNV98 & 4TNE98 Diesel Engine 47 Section 2. Periodic Maintenance
2. If necessary, adjust the V-belt tension. Loosen the adjusting bolt (Figure 5-5, (1)) and move the alternator (Figure 5-5, (2)) with a pry bar (Figure
5-5, (3)) to tighten the V-belt to the desired tension. Then tighten the adjusting bolt.
Figure 5-5
3. Tighten the V-belt to the proper tension. There must be clearance (Figure 5-6, (1)) between the
V-belt and the bottom of the pulley groove. If there is no clearance (Figure 5-6, (2)) between the V-belt and the bottom of the pulley groove, replace the V-belt.
Figure 5-6
4. Check the V-belt for cracks, oil or wear. If any of these conditions exist, replace the V-belt.
5. Install the new V-belt. Refer to the table for proper tension.
New V-Belt Tension
A B C
5/16 - 7/16 in.
(8 - 12 mm)
3/16 - 5/16 in.
(5 - 8 mm)
1/4 - 7/16 in.
(7 - 11 mm)
6. After adjusting, run the engine for 5 minutes or more. Check the tension again using the specifications for a used V-belt.
Used V-Belt Tension
A B C
3/8 - 1/2 in.
(10 - 14 mm)
1/4 - 3/8 in.
(7 - 10 mm)
5/16 - 1/2 in.
(9 - 13 mm)
Every 50 Hours of Operation
After you complete the initial 50 hour maintenance procedures, perform the following procedures every
50 hours thereafter.
• Drain Fuel Filter / Water Separator
• Check Battery
Drain Fuel Filter / Water Separator
4TNV98 & 4TNE98 (For China) Engine
DANGER
FIRE AND EXPLOSION HAZARD!
Diesel fuel is flammable and explosive under certain conditions.
When you remove any fuel system component to perform maintenance (such as changing the fuel filter) place an approved container under the opening to catch the fuel.
NEVER use a shop rag to catch the fuel. Vapors from the rag are flammable and explosive.
Wipe up any spills immediately.
Wear eye protection. The fuel system is under pressure and fuel could spray out when you remove any fuel system component.
Failure to comply will result in death or serious injury.
4TNV98 & 4TNE98 Diesel Engine 48 Section 2. Periodic Maintenance
CAUTION
If the fuel filter / water separator is positioned higher than the fuel level in the fuel tank, water may not drip out when the fuel filter / water separator drain cock is opened. If this happens, turn the air vent screw on the top of the fuel filter / water separator 2-3 turns counterclockwise.
Be sure to tighten the air vent screw after the water has drained out.
CAUTION
ALWAYS be environmentally responsible.
Follow the guidelines of the EPA or other governmental agencies for the proper disposal of hazardous materials such as engine oil, diesel fuel and engine coolant. Consult the local authorities or reclamation facility.
NEVER dispose of hazardous materials irresponsibly by dumping them into a sewer, on the ground, or into ground water or waterways.
Failure to follow these procedures may seriously harm the environment.
Drain the fuel filter / water separator as follows:
1. Position an approved container under the fuel filter / water separator (Figure 5-7, (1)) to collect the contaminants.
Figure 5-7
2. Close (Figure 5-7, (2)) the fuel cock (Figure 5-7,
(3)).
3. Loosen the drain cock (Figure 5-7, (4)) at the bottom of the fuel filter / water separator. Drain any water collected inside.
4. Hand-tighten the drain cock.
CAUTION
If the fuel filter/water separator is positioned higher than the fuel level in the fuel tank, water may not drip out when the fuel filter/water separator drain cock is opened. If this happens, turn the air vent screw on the top of the fuel filter/water separator 2-3 turns counterclockwise.
Be sure to tighten the air vent screw after the water has drained out.
Drain the fuel filter / water separator whenever there are contaminants, such as water, collected in the bottom of the cup. NEVER wait until the scheduled periodic maintenance if contaminants are discovered.
The cup of the separator is made from semitransparent material. In the cup is a red colored float ring. The float ring will rise to the surface of the water to show how much needs to be drained. Also, some optional fuel filter / water separators are equipped with a sensor to detect the amount of contaminants. This sensor sends a signal to an indicator to alert the operator.
5. Open the fuel cock (Figure 5-7, (3)).
6. Be sure to prime the diesel fuel system when you are finished. See Priming the Fuel System on page 15.
7. Check for leaks.
4TNV98 & 4TNE98 Diesel Engine 49 Section 2. Periodic Maintenance
Check Battery
DANGER
EXPLOSION HAZARD!
NEVER check the remaining battery charge by shorting out the terminals. This will result in a spark and may cause an explosion or fire. Use a hydrometer to check the remaining battery charge.
If the electrolyte is frozen, slowly warm the battery before you recharge it.
Failure to comply will result in death or serious injury.
WARNING
BURN HAZARD!
Batteries contain sulfuric acid. NEVER allow battery fluid to come in contact with clothing, skin or eyes. Severe burns could result.
ALWAYS wear safety goggles and protective clothing when servicing the battery. If battery fluid contacts the eyes and / or skin, immediately flush the affected area with a large amount of clean water and obtain prompt medical treatment.
Failure to comply could result in death or serious injury.
CAUTION
ALWAYS be environmentally responsible.
Follow the guidelines of the EPA or other governmental agencies for the proper disposal of hazardous materials such as engine oil, diesel fuel and engine coolant. Consult the local authorities or reclamation facility.
NEVER dispose of hazardous materials irresponsibly by dumping them into a sewer, on the ground, or into ground water or waterways.
Failure to follow these procedures may seriously harm the environment.
When the amount of fluid nears the lower limit
(Figure 5-8, (1)), fill with distilled water (Figure 5-8,
(2)) so it is at the upper limit (Figure 5-8, (3)). If operation continues with insufficient battery fluid, the battery life is shortened, and the battery may overheat and explode. During the summer, check the fluid level more often than specified.
Figure 5-8
If the engine cranking speed is so slow that the engine does not start, recharge the battery.
If the engine still will not start after charging, have your authorized Yanmar industrial engine dealer or distributor check the battery and the engine’s starting system.
4TNV98 & 4TNE98 Diesel Engine 50 Section 2. Periodic Maintenance
If operating the machine where the ambient temperature could drop to 5°F (-15°C) or less, remove the battery from the machine at the end of the day. Store the battery in a warm place until the next use. This will help start the engine easily at low ambient temperatures.
Every 250 Hours of Operation
Perform the following maintenance every 250 hours of operation.
• Drain Fuel Tank
• Check and Clean Radiator Fins
• Check and Adjust Cooling Fan V-Belt
• Check and Adjust the Governor Lever and Engine
Speed Control
• Clean Air Cleaner Element
Drain Fuel Tank
DANGER
FIRE AND EXPLOSION HAZARD!
Diesel fuel is flammable and explosive under certain conditions.
When you remove any fuel system component to perform maintenance (such as changing the fuel filter) place an approved container under the opening to catch the fuel.
NEVER use a shop rag to catch the fuel. Vapors from the rag are flammable and explosive.
Wipe up any spills immediately.
Wear eye protection. The fuel system is under pressure and fuel could spray out when you remove any fuel system component.
Failure to comply will result in death or serious injury.
CAUTION
ALWAYS be environmentally responsible.
Follow the guidelines of the EPA or other governmental agencies for the proper disposal of hazardous materials such as engine oil, diesel fuel and engine coolant. Consult the local authorities or reclamation facility.
NEVER dispose of hazardous materials irresponsibly by dumping them into a sewer, on the ground, or into ground water or waterways.
Failure to follow these procedures may seriously harm the environment.
Note that a typical fuel tank is illustrated.
1. Position an approved container under the diesel fuel tank (Figure 5-9, (1)) to collect the contaminates.
2. Remove the fuel cap (Figure 5-9, (3)).
3. Remove the drain plug (Figure 5-9, (2)) of the fuel tank to drain the contaminates (water, dirt, etc.) from the bottom of the tank.
Figure 5-9
4. Drain the tank until clean diesel fuel with no water and dirt flows out. Reinstall and tighten the drain plug firmly.
5. Reinstall the fuel cap.
6. Check for leaks.
4TNV98 & 4TNE98 Diesel Engine 51 Section 2. Periodic Maintenance
Check and Clean Radiator Fins
CAUTION
FLYING OBJECT HAZARD!
ALWAYS wear eye protection when servicing the engine and when using compressed air or high-pressure water. Dust, flying debris, compressed air, pressurized water or steam may injure your eyes.
Failure to comply may result in minor or moderate injury.
Dirt and dust adhering to the radiator fins reduce the cooling performance, causing overheating.
Make it a rule to check the radiator fins daily and clean as needed.
Note that a typical radiator is shown in Figure 5-10 for illustrative purposes only.
• Blow off dirt and dust from fins and radiator with
28 psi (0.19 MPa; 2 kgf/cm²) or less of compressed air (Figure 5-10, (1)). Be careful not to damage the fins with the compressed air.
• If there is a large amount of contamination on the fins, apply detergent, thoroughly clean and rinse with tap water.
CAUTION
NEVER use high-pressure water or compressed air at greater than 28 psi (193 kPa; 19 686 mmAq) or a wire brush to clean the radiator fins.
Radiator fins damage easily.
Figure 5-10
Check and Adjust Cooling Fan V-Belt
Check and adjust the cooling fan V-belt every 250 hours of operation after the initial 50 hour V-belt maintenance. See Check and Adjust Cooling Fan
V-Belt on page 47.
Check and Adjust the Governor Lever and
Engine Speed Control
The governor lever and engine speed control
(throttle lever, pedal, etc.) of the machine are connected together by a throttle cable or rod. If the cable becomes stretched, or the connections loosen, the governor lever may not respond to change of engine speed control position. This may make operation of the machine unsafe. Check the cable periodically and adjust if necessary.
NEVER force the throttle cable or pedal to move.
This may deform the governor lever or stretch the cable and cause irregular operation of the engine speed control.
4TNV98 & 4TNE98 Diesel Engine 52 Section 2. Periodic Maintenance
Checking and adjusting the governor lever:
1. Check that the governor lever (Figure 5-11, (1)) makes uniform contact with the high idle (Figure
5-11, (2)) and low idle (Figure 5-11, (3)) speed limit screws when the engine speed control is in the high idle speed or low idle speed position.
4TNV98 ENGINE
4TNE98 ENGINE
Figure 5-11
2. If the governor lever does not make contact with the high idle or low idle speed limit screw, adjust the throttle cable.
3. In some engine speed control applications, loosen the throttle cable lock nut (Figure 5-11,
(4)) and adjust the cable so the governor lever makes proper contact with the high / low idle speed limit screw.
CAUTION
NEVER attempt to adjust the low or high idle speed limit screw. This may impair the safety and performance of the machine and shorten its life. If the idle speed limit screws require adjustment, see your authorized Yanmar industrial engine dealer or distributor.
Clean Air Cleaner Element
Note that a typical air cleaner is shown in Figure 5-
12 and Figure 5-13 for illustrative purposes only.
The engine performance is adversely affected when the air cleaner element is clogged with dust.
Be sure to clean the air filter element periodically.
1. Unlatch and remove the air cleaner cover
(Figure 5-12, (1)).
Figure 5-12
2. Remove the element (Figure 5-12, (2)) (outer element if equipped with two elements).
CAUTION
FLYING OBJECT HAZARD!
ALWAYS wear eye protection when servicing the engine and when using compressed air or high-pressure water. Dust, flying debris, compressed air, pressurized water or steam may injure your eyes.
Failure to comply may result in minor or moderate injury.
4TNV98 & 4TNE98 Diesel Engine 53 Section 2. Periodic Maintenance
3. Blow air (Figure 5-12, (3)) through the element from the inside out using 42-71 psi (0.29-
0.49MPa; 3.0-5.0 kgf/cm²) compressed air to remove the particulates. Use the lowest possible air pressure to remove the dust without damaging the element.
4. If the air cleaner is equipped with a double element, only remove and replace the inner element (Figure 5-13, (1)) if the engine lacks power or the dust indicator actuates (if equipped).
Figure 5-13
5. The inner element should not be removed when cleaning or replacing the outer element. The inner element is used to prevent dust from entering the engine while servicing the outer element.
6. Replace the element with a new one if the element is damaged, excessively dirty or oily.
7. Clean inside of the air cleaner cover.
8. Install the element into the air cleaner case
(Figure 5-12, (4)).
9. Reinstall the air cleaner cover making sure you match the arrow (Figure 5-12, (5)) on the cover with the arrow on the case (Figure 5-12, (6)).
10. Latch the air cleaner cover to the case.
CAUTION
When the engine is operated in dusty conditions, clean the air cleaner element more frequently.
NEVER operate the engine with the air cleaner element(s) removed. This may allow foreign material to enter the engine and damage it.
Every 500 Hours of Operation
Perform the following maintenance every 500 hours of operation.
• Replace Engine Oil and Engine Oil Filter
• Replace Air Cleaner Element
• Replace Fuel Filter
• Clean Fuel Filter / Water Separator
Replace Engine Oil and Engine Oil Filter
CAUTION
Only use the engine oil specified. Other engine oils may affect warranty coverage, cause internal engine components to seize and / or shorten engine life.
Prevent dirt and debris from contaminating the engine oil. Carefully clean the oil cap/dipstick and the surrounding area before you remove the cap.
NEVER mix different types of engine oil. This may adversely affect the lubricating properties of the engine oil.
NEVER overfill. Overfilling may result in white exhaust smoke, engine overspeed or internal damage.
CAUTION
ALWAYS be environmentally responsible.
Follow the guidelines of the EPA or other governmental agencies for the proper disposal of hazardous materials such as engine oil, diesel fuel and engine coolant. Consult the local authorities or reclamation facility.
NEVER dispose of hazardous materials irresponsibly by dumping them into a sewer, on the ground, or into ground water or waterways.
Failure to follow these procedures may seriously harm the environment.
4TNV98 & 4TNE98 Diesel Engine 54 Section 2. Periodic Maintenance
Change the engine oil every 250 hours of operation after the initial change at 50 hours. Replace the engine oil filter at the same time. See Replace
Engine Oil and Engine Oil Filter on page 45.
Replace Air Cleaner Element
CAUTION
The maximum air intake restriction, in terms of differential pressure measurement, must not exceed 0.90 psi (6.23 kPa; 635 mmAq). Clean or replace the air cleaner element if the air intake restriction exceeds the above mentioned value.
Replace the air cleaner element (Figure 5-12, (2)) every 500 hours even if it is not damaged or dirty.
When replacing the element, clean the inside of the air cleaner case (Figure 5-12, (4)).
If the air cleaner is equipped with a double element, only remove and replace the inner element (Figure
5-13, (1)) if the engine lacks power or the dust indicator actuates (if equipped). This is in addition to replacing the outer element.
Replace Fuel Filter
DANGER
FIRE AND EXPLOSION HAZARD!
Diesel fuel is flammable and explosive under certain conditions.
When you remove any fuel system component to perform maintenance (such as changing the fuel filter) place an approved container under the opening to catch the fuel.
NEVER use a shop rag to catch the fuel. Vapors from the rag are flammable and explosive.
Wipe up any spills immediately.
Wear eye protection. The fuel system is under pressure and fuel could spray out when you remove any fuel system component.
Failure to comply will result in death or serious injury.
CAUTION
For maximum engine life, Yanmar recommends that when shutting the engine down, you allow the engine to idle, without load, for five minutes.
This will allow the engine components that operate at high temperatures, such as the turbocharger (if equipped) and exhaust system, to cool slightly before the engine itself is shut down.
CAUTION
ALWAYS be environmentally responsible.
Follow the guidelines of the EPA or other governmental agencies for the proper disposal of hazardous materials such as engine oil, diesel fuel and engine coolant. Consult the local authorities or reclamation facility.
NEVER dispose of hazardous materials irresponsibly by dumping them into a sewer, on the ground, or into ground water or waterways.
Failure to follow these procedures may seriously harm the environment.
4TNV98 & 4TNE98 (for D25G) Only
Replace the fuel filter at specified intervals to prevent contaminants from adversely affecting the diesel fuel flow.
1. Stop the engine and allow it to cool.
2. Close the fuel cock of the fuel filter / water separator.
3. Remove the fuel filter with a filter wrench, turning it to the left (Figure 5-14, (1)). When removing the fuel filter, carefully hold it to prevent the fuel from spilling. Wipe up all spilled fuel.
4TNV98 & 4TNE98 Diesel Engine 55 Section 2. Periodic Maintenance
Figure 5-14
4. Clean the filter mounting surface and apply a small amount of diesel fuel to the gasket of the new fuel filter.
5. Install the new fuel filter. Turn to the right (Figure
5-14, (2)) and hand-tighten it only until it comes in contact with the mounting surface. Tighten to
14-17 ft·lb (19.6-23.5 N·m; 2.0-2.4kgf·m) or one additional turn using the filter wrench.
Applicable Fuel Filter Part No.
Figure 5-14a
4. Place an approved container under fuel filter.
5. Carefully open the drain plug (Figure 5-15a, (1)) to drain fuel from the fuel filter.
6. Remove the fuel filter (Figure 5-14a, (2)) by turning it to the left (Figure 5-14a, (3)). Wipe up all spilled fuel.
7. Remove the drain plug (Figure 5-15a, (1)) from the fuel filter (Figure 5-15a, (2)) by turning it to the left (Figure 5-15a, (3)).
8. Check the condition of the drain plug O-ring
(Figure 5-15a, (4)). Replace the O-ring if
4TNV98 A408064
6. Open the fuel cock of the fuel filter / water separator.
7. Prime the fuel system. See Priming the Fuel
System on page 15.
8. Check for leaks.
4TNE98 (for D25S-5) Only
Replace the fuel filter at specified intervals to prevent contaminants from adversely affecting the diesel fuel flow.
1. Stop the engine and allow it to cool.
2. Close all fuel cocks in fuel line.
3. Disconnect the fuel filter sensor connector
(Figure 5-14a, (1)).
Figure 5-15
9. Set the drain plug aside for reinstallation.
4TNV98 & 4TNE98 Diesel Engine 56 Section 2. Periodic Maintenance
10. Remove the fuel filter sensor assembly (Figure
5-15, (5)) by turning it to the left (Figure 5-15,
(3)).
11. Carefully remove the in-line fuel filter (Figure 5-
15, (7)) from the output nipple (Figure 5-15, (8)) that goes to the fuel injection pump.
12. Dispose of the fuel, fuel filters and O-ring (if replaced) properly. Follow the guidelines of the
EPA or other government agency.
13. Carefully install the output nipple (Figure 5-15,
(8)).
14. Carefully install the fuel filter sensor assembly
(Figure 5-15, (5)) in the new fuel filter using the new O-ring supplied with the fuel filter (Figure
5-15, (2)) by turning the fuel filter sensor assembly to the right (Figure 5-15, (9)).
15. Install the drain plug (Figure 5-15, (1)) on the new fuel filter (Figure 5-15, (3)) by turning the drain plug to the right (Figure 5-15, (8)). Hand tighten only.
16. Clean the fuel filter mounting surface (Figure 5-
15, (10)) and apply a small amount of diesel fuel to the gasket of the new filter.
17. Install the new fuel filter (Figure 5-14, (2)) by turning it to the right (Figure 5-14, (4)) until it contacts the mounting surface. Tighten one additional turn.
18. Open all fuel cocks in the fuel line.
19. Reconnect the fuel filter sensor connector
(Figure 5-14, (1)).
20. Prime the fuel system. See Priming the Fuel
System on page 15.
21. Check for fuel leaks.
Applicable Fuel Filter Part No.
(Figure 5-14, (2))
Clean Fuel Filter / Water Separator
FIRE AND EXPLOSION HAZARD! certain conditions. injury.
4TNE98 A409559
DANGER
Diesel fuel is flammable and explosive under
NEVER use diesel fuel as a cleaning agent.
Failure to comply will result in death or serious
DANGER
Diesel fuel is flammable and explosive under certain conditions.
When you remove any fuel system component to perform maintenance (such as changing the fuel filter) place an approved container under the opening to catch the fuel.
NEVER use a shop rag to catch the fuel. Vapors from the rag are flammable and explosive.
Wipe up any spills immediately.
Wear eye protection. The fuel system is under pressure and fuel could spray out when you remove any fuel system component.
Failure to comply will result in death or serious injury.
FIRE AND EXPLOSION HAZARD!
4TNV98 & 4TNE98 Diesel Engine 57 Section 2. Periodic Maintenance
CAUTION
ALWAYS be environmentally responsible.
Follow the guidelines of the EPA or other governmental agencies for the proper disposal of hazardous materials such as engine oil, diesel fuel and engine coolant. Consult the local authorities or reclamation facility.
NEVER dispose of hazardous materials irresponsibly by dumping them into a sewer, on the ground, or into ground water or waterways.
Failure to follow these procedures may seriously harm the environment.
Periodically clean the fuel filter / water separator element and inside cup.
1. Position an approved container under the cup
(Figure5-15, (1)) of the fuel filter / water separator to collect the contaminants.
Figure 5-15
2. Close (Figure 5-15, (2)) the fuel cock (Figure 5-
15, (3)).
3. Loosen the drain cock (Figure 5-15, (4)) and drain the contaminants. See Drain Fuel
Filter/Water Separator on page 41.
4. Turn the retaining ring (Figure 5-15, (5)) to the left (Figure 5-15, (10)) and remove the cup
(Figure 5-15, (6)). If equipped, disconnect the sensor wire (Figure 5-15, (7)) from the cup before removing the cup.
5. Carefully hold the cup to prevent fuel from spilling. If you spill any fuel, clean up the spill completely.
6. Remove the float ring (Figure 5-15, (8)) from the cup. Pour the contaminants into the container and dispose of it properly.
7. Clean the element (Figure 5-15, (9)) and inside cup. Replace the element if it is damaged.
Applicable Fuel Filter Part No.
4TNV98 A408054
4TNE98 (for D30G) A408054
8. Install the element and O-ring in the bracket.
9. Position the float ring in the cup.
10. Check the condition of the cup O-ring. Replace if necessary.
11. Install the cup to the bracket by tightening the retaining ring to the right (Figure 5-15, (6)) to a torque of 11-15 ft·lb (15-20 N·m; 1.5-2.0kgf·m).
12. Close the drain cock. Reconnect the sensor wire if equipped.
13. Open the fuel cock (Figure 5-15, (3)).
14. Prime the fuel system. See Priming the Fuel
System on page 15.
15. Check for leaks.
4TNV98 & 4TNE98 Diesel Engine 58 Section 2. Periodic Maintenance
Every 1000 Hours of Operation
Perform the following maintenance every 1000 hours of operation.
• Drain, Flush and Refill Cooling System With New
Coolant
• Adjust Intake/Exhaust Valve Clearance
Drain, Flush and Refill Cooling System With
New Coolant
DANGER
SCALD HAZARD!
NEVER remove the radiator cap if the engine is hot. Steam and hot engine coolant will spurt out and seriously burn you. Allow the engine to cool down before you attempt to remove the radiator cap.
Tighten the radiator cap securely after you check the radiator. Steam can spurt out during engine operation if the cap is loose.
ALWAYS check the level of the engine coolant by observing the reserve tank.
Failure to comply will result in death or serious injury.
WARNING
BURN HAZARD!
Wait until the engine cools before you drain the engine coolant. Hot engine coolant may splash and burn you.
Failure to comply could result in death or serious injury.
CAUTION
COOLANT HAZARD!
Wear eye protection and rubber gloves when you handle long life or extended life engine coolant. If contact with the eyes or skin should occur, flush eyes and wash immediately with clean water.
Failure to comply may result in minor or moderate injury.
CAUTION
ALWAYS be environmentally responsible.
Follow the guidelines of the EPA or other governmental agencies for the proper disposal of hazardous materials such as engine oil, diesel fuel and engine coolant. Consult the local authorities or reclamation facility.
NEVER dispose of hazardous materials irresponsibly by dumping them into a sewer, on the ground, or into ground water or waterways.
Failure to follow these procedures may seriously harm the environment.
Engine coolant contaminated with rust or scale reduces the cooling effect. Even when extended life engine coolant is properly mixed, the engine coolant gets contaminated as its ingredients deteriorate. Drain, flush and refill the cooling system with new coolant every 1000 hours or once a year, whichever comes first.
1. Allow engine and coolant to cool.
2. Remove the radiator cap (Figure 5-16, (1)).
3. Remove the drain plug or open the drain cock
(Figure 5-16, (2)) at the lower portion of the radiator and drain the engine coolant.
4TNV98 & 4TNE98 Diesel Engine 59 Section 2. Periodic Maintenance
Figure 5-16
4. Drain the coolant from the engine block.
• On models not equipped with an oil cooler, remove the coolant drain plug (Figure 5-17,
(1)) from the engine block.
Figure 5-17
5. After draining the engine coolant, flush the radiator and engine block to remove any rust, scale and contaminants. Then reinstall and tighten the drain plug or close the drain cock in the radiator. Reinstall and tighten the cylinder block drain plug or reconnect the coolant hose at the oil cooler.
6. Fill radiator and engine with engine coolant. See
Filling Radiator with Engine Coolant on page 19.
Adjust Intake / Exhaust Valve Clearance
Proper adjustment is necessary to maintain the correct timing for opening and closing the valves.
Improper adjustment will cause the engine to run noisily, resulting in poor engine performance and engine damage. See Intake/Exhaust Valve and
Guide on page 67.
4TNV98 & 4TNE98 Diesel Engine 60 Section 2. Periodic Maintenance
Every 1500 Hours of Operation
Perform the following maintenance every 1500 hours of operation.
• Inspect, Clean and Test Fuel Injectors
• Inspect Crankcase Breather System
Inspect, Clean and Test Fuel Injectors
WARNING
HIGH-PRESSURE HAZARD!
Avoid skin contact with the high-pressure diesel fuel spray caused by a fuel system leak such as a broken fuel injection line. Highpressure fuel can penetrate your skin and result in serious injury. If you are exposed to highpressure fuel spray, obtain prompt medical treatment.
NEVER check for a fuel leak with your hands.
ALWAYS use a piece of wood or cardboard.
Have your authorized Yanmar industrial engine dealer or distributor repair the damage.
Failure to comply could result in death or serious injury.
Proper operation of the fuel injectors is required to obtain the optimum injection pattern for full engine performance. The EPA / ARB requires that the fuel injectors are inspected, cleaned and tested every
1500 hours. See Testing of Fuel Injectors on page
164.
This procedure is considered normal maintenance and is performed at the owner’s expense. This procedure is not covered by the Yanmar Limited
Warranty.
Inspect Crankcase Breather System
Proper operation of the crankcase breather system is required to maintain the emission requirements of the engine. The EPA / ARB requires that the crankcase breather system is inspected every 1500 hours.
There are three different crankcase breather systems used on the TNV engines. Only the nonturbo TNV engines crankcase breather system requires periodic maintenance.
The non-turbo TNV engines use a crankcase breather system that has a spring-backed diaphragm (Figure 5-19, (1)) in the valve cover
(Figure 5-19, (2)). When the crankcase pressure reaches a predetermined value, the diaphragm opens a passage that allows crankcase fumes to be routed to the intake manifold.
To inspect the diaphragm and spring (Figure 5-19,
(3)):
1. Remove the bolts retaining the diaphragm cover
(Figure 5-19, (4)).
Figure 5-19
2. Remove the diaphragm cover, spring, diaphragm plate (Figure 5-19, (5)) and diaphragm.
3. Inspect the diaphragm for tears. Inspect the spring for distortion. Replace components if necessary.
4. Reinstall the diaphragm, diaphragm plate, spring and diaphragm cover. Tighten the diaphragm bolts to specified torque.
4TNV98 & 4TNE98 Diesel Engine 61 Section 2. Periodic Maintenance
Failure of the diaphragm and / or spring will cause the loss of pressure control and allow an excessive amount of crankcase fumes to be routed to the intake manifold. This could result in excessive deposits in the intake system, high engine exhaust smoke levels, excessive engine oil consumption, and / or engine run-on due to the burning of the engine oil.
Every 2000 Hours of Operation
Perform the following maintenance every 2000 hours of operation.
• Check and Replace Fuel Hoses and Engine
Coolant Hoses
• Lap the Intake and Exhaust Valves
Check and Replace Fuel Hoses and Engine
Coolant Hoses
CAUTION
ALWAYS be environmentally responsible.
Follow the guidelines of the EPA or other governmental agencies for the proper disposal of hazardous materials such as engine oil, diesel fuel and engine coolant. Consult the local authorities or reclamation facility.
NEVER dispose of hazardous materials irresponsibly by dumping them into a sewer, on the ground, or into ground water or waterways.
Failure to follow these procedures may seriously harm the environment.
Regularly check the fuel system and engine coolant system hoses. If they are cracked or degraded, replace them. Replace the hoses at least every two years.
Lap the Intake and Exhaust Valves
Adjustment is necessary to maintain proper contact of the valves and seats. See Inspection of Intake and Exhaust Valves on page 98.
4TNV98 & 4TNE98 Diesel Engine 62 Section 2. Periodic Maintenance
Section 3. ENGINE
Before You Begin Servicing
WARNING WARNING
To prevent possible eye injury, always wear
SAFETY GLASSES while servicing the engine.
FUME / BURN HAZARD!
Always read and follow safety related precautions found on containers of hazardous substances like parts cleaners, primers, sealants and sealant removers.
Failure to comply could result in death or serious injury.
WARNING
ENTANGLEMENT HAZARD!
Stop the engine before you begin to service it.
NEVER leave the key in the key switch when you are servicing the engine. Someone may accidentally start the engine and not realize you are servicing it. This could result in a serious injury.
If you must service the engine while it is operating, remove all jewelry, tie back long hair, and keep your hands, other body parts and clothing away from moving/rotating parts.
Failure to comply could result in death or serious injury..
CAUTION
FLYING OBJECT HAZARD!
ALWAYS wear eye protection when servicing the engine and when using compressed air or highpressure water. Dust, flying debris, compressed air, pressurized water or steam may injure your eyes.
Failure to comply may result in minor or moderate injury.
CAUTION
Be sure to secure the engine solidly to prevent injury or damage to parts due to the engine falling during work on the engine.
63 Section 3. Engine
CAUTION CAUTION
Only use the engine oil specified. Other engine oils may affect warranty coverage, cause internal engine components to seize and / or shorten engine life.
Prevent dirt and debris from contaminating the engine oil. Carefully clean the oil cap/dipstick and the surrounding area before you remove the cap.
NEVER mix different types of engine oil. This may adversely affect the lubricating properties of the engine oil.
NEVER overfill. Overfilling may result in white exhaust smoke, engine overspeed or internal damage.
Any part which is found defective as a result of inspection or any part whose measured value does not satisfy the standard or limit must be replaced.
CAUTION
Any part determined to not meet the service standard or limit before the next service, as determined from the state of current rate of wear, should be replaced even though the part currently meets the service standard limit.
CAUTION
CAUTION
Only use the engine coolant specified. Other engine coolants may affect warranty coverage, cause an internal buildup of rust and scale and/or shorten engine life.
Prevent dirt and debris from contaminating the engine coolant. Carefully clean the radiator cap and the surrounding area before you remove the cap.
NEVER mix different types of engine coolants.
This may adversely affect the properties of the engine coolant.
Remove or install the high-pressure fuel injection lines as an assembly whenever possible. Disassembling the high-pressure fuel injection lines from the retainers or bending any of the fuel lines will make it difficult to reinstall the fuel lines.
CAUTION
CAUTION
Do not loosen or remove the four bolts retaining the fuel injection pump drive gear to the fuel injection pump hub. Do not disassemble the fuel injection pump drive gear from the hub. Correct fuel injection timing will be very difficult or impossible to achieve.
Identify all parts and their location using an appropriate method. It is important that all parts are returned to the same position during the reassembly process.
4TNV98 & 4TNE98 Diesel Engine 64 Section 3. Engine
CAUTION
Keep the piston pin parts, piston assemblies, and connecting rod assemblies together to be returned to the same position during the reassembly process. Label the parts using an appropriate method.
CAUTION
Do not allow the honing tool to operate in one position for any length of time. Damage to the cylinder wall will occur. Keep the tool in constant up-and-down motion.
4TNV98 & 4TNE98 Diesel Engine 65 Section 3. Engine
Introduction
This section of the Service Manual describes servicing of the engine.
Cylinder Head Specifications
Adjustment Specifications
4TNV98
4TNE98
Cylinder Head
4TNV98 Engine
Inspection Item
Combustion Surface Distortion (Flatness)
0.006 - 0.010 in.
(0.15 - 0.25 mm)
0.006 - 0.010 in.
(0.15 - 0.25 mm)
Valve Recession
4TNV98
(4-Valve Head)
Valve Seat
(4-Valve)
Seat Angle
Seat Correction Angle
0
-
Intake
Exhaust
Standard
0.0020 in.
(0.05 mm) or less
0.0142 - 0.0220 in.
(0.36 - 0.56 mm)
0.0138 - 0.0217 in.
(0.35 - 0.55 mm)
Limit
0.0059 in.
(0.15 mm)
0.0315 in.
(0.8 mm)
0.0315 in.
(0.8 mm)
Reference
Page
See Valve
Recession on
Page 95 and 98.
See Valve
Face and
Exhaust 90° -
40°, 150° - on
Page 96 and 99.
4TNE98 Engine
Valve Sink
Valve Seat Angle
Inspection Item
Combustion Surface Distortion (Flatness)
Standard Limit
Reference
Page
0.0020 in.
(0.05 mm) or less
0.0059 in.
(0.15 mm)
See
Inspection of Cylinder
Head on page 94.
Intake
Exhaust
0.020 - 0.028 in.
(0.5 - 0.7 mm)
0.024 - 0.032 in.
(0.6 - 0.8 mm)
0.039 in.
(1.0 mm)
0.043 in.
(1.1 mm)
See
Inspection of Intake and
Exhaust
Valves on
Exhaust 90° -
4TNV98 & 4TNE98 Diesel Engine 66 Section 3. Engine
Intake / Exhaust Valve and Guide Cont
4TNV98 Engine
4TNV98
(4-Valve Head)
Inspection Item
Intake
Exhaust
Guide Inside Diameter
Valve Stem Outside
Diameter
Oil Clearance
Guide Inside Diameter
Valve Stem Outside
Diameter
Valve Stem Bend
Valve Guide Projection From Cylinder Head
Valve Guide Installation Method
Valve Stem Seal Projection From Cylinder Head
Standard
0.2756 - 0.2762 in.
(7.000 - 7.015 mm)
0.2734 - 0.2740 in.
(6.945 - 6.960 mm)
0.0016 - 0.0028 in.
(0.040 - 0.070 mm)
0.2756 - 0.2762 in.
(7.000 - 7.015 mm)
0.2732 - 0.2738 in.
(6.940 - 6.955 mm)
0.0018 - 0.0030 in.
(0.045 - 0.075 mm)
0.3819 - 0.3937 in.
(9.70 - 10.00 mm)
Cold-fitted
0.460 - 0.472 in.
(11.7 - 12.0 mm)
Limit
0.2787 in.
(7.08 mm)
0.2717 in.
(6.90 mm)
0.0067 in.
(0.17 mm)
0.2787 in.
(7.08 mm)
0.2717 in.
(6.90 mm)
0.0067 in.
(0.17 mm)
Reference
Page
See
Inspection of
Valve
Guides on page 94.
-
-
-
See
Reassembly of Valve
Guides on page 97 and 103.
See
Reassembly of Intake and
Exhaust
Valves on page 98.
4TNE98 Engine
Intake Valve
Exhaust Valve
Inspection Item
Guide Inside Diameter
Valve Stem Outside Diameter
Oil Clearance
Guide Inside Diameter
Valve Stem Outside Diameter
Oil Clearance
Valve Guide Projection From Cylinder Head
Valve Stem Seal Projection From Cylinder Head
Standard
0.3156 - 0.3161 in.
(8.015 – 8.030 mm)
0.3136 - 0.3142 in.
(7.965 – 7.980 mm)
0.0014 - 0.0026 in.
(0.035 - 0.065 mm)
0.3156 - 0.3161 in.
(8.015 – 8.030 mm)
0.3136 - 0.3138 in.
(7.965 – 7.970 mm)
0.0018 - 0.0030 in.
(0.045 - 0.075 mm)
0.58 - 0.60 in.
(14.7 – 15.0 mm)
0.66 - 0.70 in.
(16.7 – 17.0 mm)
Limit
0.3189 in.
(8.10 mm)
0.3110 in.
(7.90 mm)
0.0071 in.
(0.18 mm)
0.3189 in.
(8.10 mm)
0.3110 in.
(7.90 mm)
0.0071 in.
(0.18 mm)
Reference
Page
See
Inspection of
Intake and
Exhaust
Valves on page 95.
-
-
See
Assembly of
Valve
Guides on page 98.
See
Assembly of
Valve
Guides on page 98.
4TNV98 & 4TNE98 Diesel Engine 67 Section 3. Engine
Push Rod
Inspection Item
Page Push Rod Bend
Standard
Less than
0.0012 in. (0.03 mm)
Limit
0.0012 in.
(0.03 mm)
Reference
Page
See Push
Rod Bend on page 93.
Rocker Arm and Shaft
Inspection Item
Arm Shaft Hole Diameter
Shaft Outside Diameter
Oil Clearance
Valve Spring
Inspection Item Model
Free Length
4TNV98 (4-Valve Head)
4TNE98
4TNV98 (4-Valve Head)
Squareness
Standard
0.7283 - 0.7291 in.
(18.500 - 18.520 mm)
0.7272 - 0.7280 in.
(18.470 - 18.490 mm)
0.0004 - 0.0020 in.
(0.010 - 0.050 mm)
Standard
1.5630 in.
(39.7 mm)
1.87 in.
(47.5 mm)
-
Limit
0.7311 in.
(18.57 mm)
0.7260 in.
(18.44 mm)
0.0051 in.
(0.13 mm)
Limit
1.5433 in.
(39.2 mm)
-
0.0551 in.
(1.4 mm)
Reference
Page
See
Inspection of
Rocker Arm
Assembly on page 93 and
94.
Reference
Page
See
Inspection of
Valve
Springs on page 97 and
101.
Camshaft and Timing Gear Train Specifications
Camshaft
Inspection Item Standard
End Play
0.0020 - 0.0079 in.
(0.05 - 0.20 mm)
Limit
0.0118 in.
(0.030 mm)
Reference
Page
See
Removal of
Camshaft on page 114.
Bend (1/2 the dial gauge reading)
Cam Lobe Height
4TNV98
4TNE98
0 - 0.0008 in.
(0 - 0.02 mm)
1.7087 - 1.7165 in.
(43.400 - 43.600 mm)
1.6707 - 1.6758 in.
(42.435– 42.565 mm)
Shaft Outside Diameter / Bearing Inside Diameter
0.0020 in.
(0.05 mm)
1.6988 in.
(43.150 mm)
1.6608 in.
(42.185 mm)
See
Inspection of
Camshaft on page 125.
4TNV98 & 4TNE98 Diesel Engine 68 Section 3. Engine
(Camshaft Cont.)
Inspection Item
Gear End
Bushing Inside Diameter
Camshaft Outside Diameter
Intermediate
Oil Clearance
Bushing Inside Diameter
Camshaft Outside Diameter
Oil Clearance
Bushing Inside Diameter
Flywheel End Camshaft Outside Diameter
Oil Clearance
Idler Gear Shaft and Bushing
Inspection Item
Shaft Outside Diameter
Bushing Inside Diameter
Oil Clearance
Timing Gear Backlash
Inspection Item
Standard
1.9681 - 1.9707 in.
(49.990 - 50.055 mm)
1.9655 - 1.9665 in.
(49.925 - 49.950 mm)
0.0016 - 0.0051 in.
(0.040 - 0.130 mm)
1.9685 - 1.9695 in.
(50.000 - 50.025 mm)
1.9650 - 1.9659 in.
(49.910 - 49.935 mm)
0.0026 - 0.0045 in.
(0.065 - 0.115 mm)
1.9685 - 1.9695 in.
(50.000 - 50.025 mm)
1.9655 - 1.9665 in.
(49.925 - 49.950 mm)
0.0020 - 0.0039 in.
(0.050 - 0.100 mm)
Limit
Reference
Page
1.9736 in.
(50.130 mm)
1.9642 in.
(49.890 mm)
0.0094 in.
(0.240 mm)
1.9724 in.
(50.100 mm)
1.9636 in.
(49.875 mm)
0.0089 in.
(0.225 mm)
1.9724 in.
(50.100 mm)
1.9642 in.
(49.890 mm)
0.0083 in.
(0.210 mm)
See
Inspection of
Camshaft on page 125.
Standard
1.8091 - 1.8100 in.
(45.950 - 45.975 mm)
1.8110 - 4.8120 in.
(46.000 - 46.025 mm)
0.0010 - 0.0030 in.
(0.025 - 0.075 mm)
Limit
Reference
Page
1.8071 in.
(45.900 mm)
1.8140 in.
(46.075 mm)
0.0069 in.
(0.175 mm)
See
Inspection of
Idler Gear and Shaft on page 126.
Crank Gear, Cam Gear, Idler Gear, Fuel Injection
Pump Gear and PTO Gear
Lubricating Oil Pump Gear
Standard
0.0031 - 0.0055 in.
(0.08 - 0.14 mm)
0.0035 - 0.0059 in.
(0.09 - 0.15 mm)
Limit
0.0063 in.
(0.16 mm)
0.0067 in.
(0.17 mm)
Reference
Page
See
Checking
Timing Gear
Backlash on page 112.
4TNV98 & 4TNE98 Diesel Engine 69 Section 3. Engine
Crankshaft and Piston Specifications
Crankshaft
NOTE : Check appropriate parts catalog for various sizes of replacement main bearing inserts.
Inspection Item
Bend (1/2 the dial gauge reading)
Connecting Rod Journals
Journal Outside
Diameter
Bearing Inside
Diameter
Bearing Insert
Thickness
Main Bearing Journal
Oil Clearance
Journal Outside
Diameter
Bearing Inside
Diameter
Bearing Insert
Thickness
Oil Clearance
Thrust Bearing
Inspection Item
Standard
-
2.2816 - 2.2820 in.
(57.952 - 57.962 mm)
2.2835 - 2.2845 in.
(58.000 - 58.026 mm)
0.0587 - 0.0591 in.
(1.492 - 1.500 mm)
0.0015 - 0.0029 in.
(0.038 - 0.074 mm)
2.5572 - 2.5576 in.
(64.952 - 64.962 mm)
2.5590 - 2.5598 in.
(65.000 - 65.020 mm)
0.0785 - 0.0791 in.
(1.995 - 2.010 mm)
0.0015 - 0.0027 in.
(0.038 - 0.068 mm)
Limit
Reference
Page
0.0008 in.
(0.02 mm)
2.2796 in.
(57.902 mm)
-
-
See
Inspection of
Crankshaft on Page
124.
0.0059 in.
(0.150 mm)
2.5552 in.
(64.902 mm)
-
-
0.0059 in.
(0.150 mm)
See
Inspection of
Crankshaft on page
124.
Crankshaft End Play
4TNV98
4TNE98
Standard
0.0051 - 0.0091 in.
(0.13 - 0.23 mm)
0.0043 - 0.0083 in.
(0.11 - 0.21 mm)
Limit
0.0110 in.
(0.28 mm)
0.0110 in.
(0.28 mm)
Reference
Page
See
Removal of
Crankshaft on Page
118.
4TNV98 & 4TNE98 Diesel Engine 70 Section 3. Engine
Piston
Inspection Item
Piston Outside Diameter
(Measure at 90° to the Piston Pin.)
Standard
3.8555 - 3.8567 in.
(97.930 - 97.960 mm)
Piston Diameter Measure Location(Upward
From the Bottom of the Piston.)
Piston Pin
Hole Inside Diameter
Pin Outside Diameter
Oil Clearance
0.8661 in.
(22 mm)
1.1811 - 1.1815 in.
(30.000 - 30.009 mm)
1.1807 - 1.1811 in.
(29.989 - 30.000 mm)
0.0000 - 0.0008 in.
(0.000 - 0.020 mm)
Piston Ring
Limit
3.8541 in.
(97.895 mm)
-
1.1826 in.
(30.039 mm)
1.1795 in.
(29.959 mm)
0.0031 in.
(0.080 mm)
Reference
Page
See
Inspection of
Pistons,
Piston Rings and Wrist
Pin on page
122.
See
Inspection of
Pistons,
Piston Rings and Wrist
Pin on page
122.
Model Inspection Limit
4TNV98
Top Ring
Second Ring
Oil Ring
Ring Groove Width
Ring Width
Side Clearance
End Gap
Ring Groove Width
Ring Width
Side Clearance
End Gap
Ring Groove Width
Ring Width
Side Clearance
End Gap
0.0803 - 0.0811 in.
(2.040 - 2.060 mm)
0.0764 - 0.0772 in.
(1.940 - 1.960 mm)
0.0031 - 0.0047 in.
(0.080 - 0.120 mm)
0.0098 - 0.0177 in.
(0.250 - 0.450 mm)
0.0819 - 0.0825 in.
(2.080 - 2.095 mm)
0.0776 - 0.0783 in.
(1.970 - 1.990 mm)
0.0035 - 0.0049 in.
(0.090 - 0.125 mm)
0.0177 - 0.0256 in.
(0.450 - 0.650 mm)
0.1187 - 0.1193 in.
(3.015 - 3.030 mm)
0.1169 - 0.1177 in.
(2.970 - 2.990 mm)
0.0010 - 0.0024 in.
(0.025 - 0.060 mm)
0.0098 - 0.0177 in.
(0.250 - 0.450 mm)
-
0.0756 in.
(1.920 mm)
-
0.0213 in.
(0.540 mm)
0.0864 in.
(2.195 mm)
0.0768 in.
(1.950 mm)
0.0096 in.
(0.245 mm)
0.0287 in.
(0.730 mm)
0.1232 in.
(3.130 mm)
0.1161 in.
(2.950 mm)
0.0071 in.
(0.180 mm)
0.0217 in.
(0.550 mm)
See
Inspection of
Pistons,
Piston Rings and Wrist
Pin on page
122.
4TNV98 & 4TNE98 Diesel Engine 71 Section 3. Engine
Connecting Rod
Connecting Rod Small End
Inspection Item
Wrist Pin Bushing Inside Diameter
Wrist Pin Outside Diameter
Standard
1.1821 - 1.1826 in.
(30.025 - 30.038 mm)
1.1806 - 1.1811 in.
(29.987 - 30.000 mm)
0.0010 - 0.0020 in.
(0.025 - 0.51 mm)
Oil Clearance
Connecting Rod Big End
Inspection Item Standard
4TNV98
0.0079 - 0.0157 in.
(0.20 - 0.40 mm)
Side Clearance
(Thrust Clearance)
4TNE98 0.0051 - 0.0091 in.
See Special Torque Chart on page 69 for other specifications.
Tappet
Inspection Item Standard
Tappet Bore (Block) Inside Diameter
Tappet Stem Outside Diameter
Oil Clearance
0.4724 - 0.4731 in.
(12.000 - 12.018 mm)
0.4715 - 0.4720 in.
(11.975 - 11.990 mm)
0.0004 - 0.0017 in.
(0.010 - 0.043 mm)
Limit
1.1838 in.
(30.068 mm)
1.1795 in.
(29.959 mm)
0.0043 in.
(0.109 mm)
Reference Page
See Inspection of
Connecting Rod on page 124.
Limit
-
-
Limit
0.4739 in.
(12.038 mm)
0.4707 in.
(11.955 mm)
0.0033 in.
(0.083 mm)
Reference
Page
See Inspection of
Connecting Rod on page 124.
Reference Page
See Inspection of
Tappets on page
124.
4TNV98 & 4TNE98 Diesel Engine 72 Section 3. Engine
Cylinder Block Specifications
Cylinder Block
Inspection Item
Cylinder Inside Diameter
Standard
3.8583 - 3.8594 in.
(98.000 - 98.030 mm)
Roundness
Cylinder Bore
Taper
Special Torque Chart
Torque for Bolts and Nuts
0.0004 in. (0.01 mm) or less
Component
Thread Diameter and Pitch
Torque
Limit
3.8634 in.
(98.130 mm)
0.0012 in.
(0.03 mm)
Reference
Page
See
Inspection of Cylinder
Block on page 121.
Lubricating Oil
Application
(Thread Portion and Seat Surface)
Cylinder Head Bolt
Connecting Rod Bolt
Flywheel Bolt
M11 x 1.25 mm
M10 x 1.0 mm
M14 x 1.5 mm
76 - 83 ft·lb
(103.1 - 112.9 N·m;
10.5 - 11.5 kgf·m)
40 - 43 ft·lb
(53.9 - 58.8 N·m;
5.5 - 6.0 kgf·m)
137 - 152 ft·lb
(186.2 - 205.8 N·m;
19 - 21 kgf·m)
Applied
Applied
Applied
4TNV98 & 4TNE98 Diesel Engine 73 Section 3. Engine
(Torque for Bolts and Nuts Cont.)
Component
Thread Diameter and
Pitch
Torque
Lubricating Oil
Application
(Thread Portion and Seat Surface)
Main Bearing Cap Bolt
Crankshaft Pulley Bolt
Fuel Injector
Bolt
4TNV98
M11 x 1.25 mm
M14 x 1.5 mm
M8 x 1.25 mm
80 - 87 ft·lb
(108.1 - 117.9 N·m;
11.0 - 12.0 kgf·m)
80 - 94 ft·lb
(107.9 - 127.5 N·m;
11.0 - 13.0 kgf·m)
17 - 21 ft·lb
(22.6 - 28.4 N·m;
2.3 - 2.9 kgf·m)
83 - 90 ft·lb
(113 - 123 N·m;
11.5 - 12.5 kgf·m)
Applied
Applied
Not Applied
Fuel Pump
Drive Gear
Nut
4TNV98 M18 x 1.5 mm Not Applied
High-Pressure
Fuel Lines Bolt
4TNV98 M12 x 1.5 mm
174 - 217 in·lb
(19.6 - 24.5 N·m;
2.0 - 2.5 kgf·m)
Not Applied
Fuel Return
Line Joint Bolt
4TNV98 M6 x 1.0 mm
70 - 86 in·lb
(7.8 - 9.8 N·m;
0.8 - 1.0 kgf·m)
Not Applied
See Tightening Torques for Standard Bolts and Nuts on page 23 for standard hardware torque values.
4TNV98 & 4TNE98 Diesel Engine 74 Section 3. Engine
Special Service Tools
No. Tool Name Applicable Model and Tool Size
Model L1 L2 d1 d2
1
Valve Guide
Tool (For
Removing
Valve Guide)
4TNV98
4TNE98
0.787 in.
(20 mm)
0.787 in.
(20 mm)
2.953 in.
(75 mm)
2.953 in.
(75 mm)
0.256 in.
(6.5 mm)
0.295 in.
(7.5 mm)
0.394 in.
(10 mm)
0.433 in.
(11 mm)
Locally Manufactured
Illustration
2
4
5
Valve Guide
Tool (For
Installing
Valve Guide)
4TNV98
4TNE98
0.276 in.
(7 mm)
0.591 in.
(15 mm)
2.362 in.
(60 mm)
2.559 in.
(65 mm)
0.512 in.
(13 mm)
0.551 in.
(14 mm)
0.630 in.
(16 mm)
0.787 in.
(20 mm)
Locally Manufactured
L1 L2 d1 d2
Connecting
Rod Bushing
Replacer
(For
Removal/
Installation of
Connecting
Rod
Bushing)
Valve Spring
Compressor
(For
Removal/
Installation of
Valve Spring)
0.787 in.
(20 mm)
3.937 in.
(100 mm)
Locally Manufactured
1.181 in.
(30 mm)
1.299 in.
(33 mm)
Yanmar Part No.
129100-92630
Model d1 d2 d3 L1 L2 L3
6
Stem Seal
Installer
(for Installing
Valve Stem
Seal)
4TNV98
4TNE98
0.598 in.
(15.2 mm)
0.827 in.
(21 mm)
0.472 in.
(12 mm)
0.465 in.
(11.8 mm)
2.559 in.
(65 mm)
0.157 in.
(4 mm)
0.638 in.
(16.2 mm)
0.866 in.
(22 mm)
0.531 in.
(13.5 mm)
0.669 in.
(17.0 mm)
2.560 in.
(65 mm)
0.157 in.
(4 mm)
Locally Manufactured
4TNV98 & 4TNE98 Diesel Engine 75 Section 3. Engine
(Special Service Tools Cont.)
No. Tool Name
7
Filter Wrench
(For Removal
/ Installation of Engine Oil
Filter)
8
Camshaft
Bushing Tool
(For
Extracting
Camshaft
Bushing)
Applicable Model and Tool Size
Available Locally
Illustration
L1 L2 d1 d2
0.709 in.
(18 mm)
Allowance
2.756 in.
(70 mm)
: d1 - 0.3
- 0.6
1.968 in.
(50 mm)
, d2 - 0.3
- 0.6
2.087 in.
(553 mm)
Locally Manufactured
Yanmar Part No. Cylinder Bore
9
Flex-Hone
(For
Preparation of Cylinder
Walls)
129400-92440
3.504 - 3.976 in.
(89 - 101 mm)
10
Piston Ring
Compressor
(For Installing
Piston)
11
Piston Ring
Expander
(For Removal
/ Installation of Piston
Ring)
Yanmar Part No. 95550-002476
The Piston Insertion Tool is Applicable for 2.362 - 4.921 in.
(60 - 125 mm) Diameter Pistons
Available Locally
12
Crankshaft
Pulley
Installing Tool
Locally Manufactured
4TNV98 & 4TNE98 Diesel Engine 76 Section 3. Engine
Measuring Instruments
Application
1
5
6 Calipers
7
Dial Indicator
4 Micrometer
Cylinder Bore
Gauge
Depth
Micrometer
8 Square
Locally Available Measure shaft bend and end play
Measurements of narrow or deep
Available portions that cannot be measured by dial gauge
Available
Locally
Locally Available
Available
Locally Available
Available
For holding the dial gauge when measuring
For measuring the outside diameters of crankshaft, pistons, piston pins, etc.
For measuring the inside diameters of cylinder liners, bearing bores, etc.
For measuring outside diameters, depth, thickness and width
For measuring of valve recession
For measuring valve spring inclination and straightness of parts
Illustration
4TNV98 & 4TNE98 Diesel Engine 77 Section 3. Engine
9 V-Block
Application
Locally Available
Available
Available
For measuring shaft bend
For tightening nuts and bolts to the specified torque
For measuring piston ring gaps, piston ring clearance, and valve adjustment clearance
For checking concentration of antifreeze and the battery electrolyte charge status
Illustration
14 Tachometer
Contact Type
Photoelectric
Type
For measuring revolution by contacting the revolving shaft
For measuring revolution by sensing the reflecting mark on the outer periphery of the revolving shaft
Fuel High
Pressure Pipe
Clamp Type
This measures the revolution regardless of the center or periphery of the revolving object
4TNV98 & 4TNE98 Diesel Engine 78 Section 3. Engine
16
Compression Gauge Kit
New Comperssion Test
Adaptor
Application
For measuring resistance, voltage and continuity of electrical circuits
For measuring compression pressureGauge Set Part No. TOL-
97190080
Adapter for direct injection 2-valve cylinder headAdapter Part No. 119802-
92950
Illustration
4TNV98 & 4TNE98 Diesel Engine 79 Section 3. Engine
Cylinder Head
Cylinder Head Components
4TNV98 Engine
4TNV98 & 4TNE98 Diesel Engine
Figure 6-36
80 Section 3. Engine
( 1) Crankcase Breather Cover. ( 2)
( 4) Crankcase Breather Diaphragm. ( 5)
( 3) Diaphragm Cup.
( 6) Valve Cover Nut.
( 7) Valve Cover Nut O-Ring . ( 8) Valve Cover Gasket. ( 9) Support Bolt.
( 10) Rocker Arm Shaft Support. ( 11) ( 12) Fuel Injector Retainer Bolt.
( 13) Valve Adjusting Screw (Primary). ( 14) Valve Adjusting Screw Lock Nut (Primary).
( 15) Rocker Arm Shaft Aligning Stud. ( 16) Fuel Injector Retainer. ( 17) Valve Stem Seal.
( 18) Valve Guide. ( 19)
( 21) ( 22) Cylinder Head Gasket.
(
(
20) Intake Valve.
23) Fuel Injector Nozzle Protector.
( 24) Fuel Injector Nozzle Seat. ( 25)
( 27) ( 28)
( 26) Valve Bridge Guide.
( 29) Valve Bridge.
( 30) Valve Bridge Seat. ( 31) Valve Adjusting Screw Lock Nut (Secondary). ( 32) Valve Adjusting Screw (Secondary).
( 33) ( 34) Rocker Arm Shaft. ( 35) Crankcase Breather Components.
( 36) Valve Cover.
4TNV98 & 4TNE98 Diesel Engine 81 Section 3. Engine
Disassembly of 4-Valve Cylinder Head
Prepare a clean, flat working surface on a workbench large enough to accommodate the cylinder head assembly. Discard all gaskets, O-rings and seals. Use new gaskets, O-rings and seals on reassembly of the cylinder head.
1. Drain the coolant from the engine into a suitable container. See Drain, Flush and Refill Cooling
System with New Coolant on page 163.
CAUTION
Identify all parts and their location using an appropriate method. It is important that all parts are returned to the same position during the reassembly process.
2. Remove the high pressure fuel injection lines
(Figure 6-37, (1)). See Removal of Fuel Injectors on page7-31.
Figure 6-37
CAUTION
Remove or install the high-pressure fuel injection lines as an assembly whenever possible. Disassembling the high-pressure fuel injection lines from the retainers or bending any of the fuel lines will make it difficult to reinstall the fuel lines.
3. Disconnect the fuel return hose (Figure 6-37, (2)) from the cylinder head.
4. Disconnect the hoses (Figure 6-37, (3)) from the cold start device on the fuel injection pump.
5. Remove the turbocharger-to-intake manifold hose
(Figure 6-38, (1)) (if equipped).
6. Disconnect the electrical wire from the intake air heater (Figure 6-38, (12)).
7. Remove the intake manifold bolts (Figure 6-38,
(11)). Remove the intake manifold (Figure 6-38,
(10)). Discard the intake manifold gasket (Figure
6-38, (9)).
8. Remove the exhaust manifold bolts (Figure 6-38,
(7)). Remove the exhaust manifold (Figure 6-38,
(6)) with the turbocharger attached. Discard the exhaust manifold gasket. (Figure 6-38, (5)).
4TNV98 & 4TNE98 Diesel Engine 82 Section 3. Engine
Figure 6-38
10. Remove the engine coolant pump. See
Disassembly of Engine Coolant Pump on page
207.
Removal of Valve Cover
NOTE: The high pressure fuel injection lines and valve cover grommets must be removed prior to removing the valve cover. See Removal of Fuel
Injectors on page 163.
1. Remove the high-pressure fuel lines.
2. Use a flat-blade screwdriver (Figure 6-39) to remove the fuel injection line grommets (Figure 6-
40, (1)) from the valve cover (Figure 6-40, (3)) and fuel injectors (Figure 6-40, (2)). There is a notch at the 3 o’clock position in the valve cover opening to insert the screwdriver.
Figure 6-39
3. Remove the valve cover nuts (Figure 6-40, (4)).
4. Remove the O-ring (Figure 6-40, (5)) on each valve cover nut.
Figure 6-40
5. Remove the valve cover (Figure 6-40, (3)).
Discard the valve cover gasket (Figure 6-40, (6)).
6. Inspect and clean the crankcase breather assembly. See Inspect Crankcase Breather
System on page 61.
4TNV98 & 4TNE98 Diesel Engine 83 Section 3. Engine
Removal of Rocker Arm Assembly
1. Remove the fuel injectors from the cylinder head.
See Removal of Fuel Injectors on page 163.
2. Remove the bolts (Figure 6-41, (1)) that retain the rocker arm shaft supports to the cylinder head.
3. Remove the rocker arm and shaft assembly from the cylinder head.
NOTE : Identify the push rods and valve bridges so they can be installed in their original locations.
4. Remove the push rods (Figure 6-41, (2)).
5. Remove the valve bridge assemblies (Figure 6-
41, (3)). Remove the seat (Figure 6-41, (4)) from each valve bridge.
6. Identify all parts so that they will be reinstalled in their original locations.
Figure 6-41
Disassembly of Rocker Arm Assembly
NOTE : Identify the rocker arms so they can be reinstalled with the original matching valve and pushrod.
1. Remove the rocker arm shaft alignment studs
(Figure 6-42, (5)) from the rocker arm shaft supports (Figure 6-42, (6)).
2. Slide the supports, wave washers (Figure 6-42,
(7)), rocker arms (Figure 6-42, (8)), and fuel injector retainers (Figure 6-42, (4)) off the rocker shaft (Figure 6-42, (1)), leaving these parts in order on the bench surface.
Figure 6-42
NOTE : Figure 6-42 shows components for one cylinder. Components for all remaining cylinders are assembled in the same order.
3. Remove the valve adjusting screw (Figure 6-42,
(2)) and the lock nut (Figure 6-42, (3)) from the rocker arms.
4TNV98 & 4TNE98 Diesel Engine 84 Section 3. Engine
Removal of Cylinder Head
1. Loosen the cylinder head bolts following the sequence shown in (Figure 6-43).
Figure 6-43
1) Cooling Fan End
2) Camshaft Side
2. Remove the cylinder head bolts (Figure 6-44, (1)).
3. Lift the cylinder head away from the cylinder block.
Discard the cylinder head gasket (Figure 6-44,
(2)). Place the cylinder head on the work bench to prevent damage to the combustion surface.
Figure 6-44
Removal of Intake and Exhaust Valves
1. Place the cylinder head on the work bench with the combustion side down.
2. Using the valve spring compressor tool, compress one of the valve springs (Figure 6-45).
Figure 6-45
4TNV98 & 4TNE98 Diesel Engine 85 Section 3. Engine
3. Remove the valve keepers (Figure 6-46, (1)).
4. Slowly release the tension on the valve spring.
5. Remove the spring retainer (Figure 6-46, (2)), valve spring (Figure 6-46, (3)).
Figure 6-46
6. Repeat the procedure with all the remaining valves.
NOTE : If the valves are to be reused, identify them so they can be installed in their original location.
7. Remove the injector nozzle protectors (Figure 6-
46, (6)) and the seats (Figure 6-46, (7)).
8. Turn the cylinder head so the exhaust port side faces down. Remove the intake and exhaust valves (Figure 6-46, (5)) from the cylinder head.
9. Remove the valve stem seals (Figure 6-46, (4)).
Removal of Valve Guides
NOTE : Removal of the valve guides should be postponed until inspection and measurement procedures have been performed. See Inspection of
Valve Guides on page 94.
1. Using a drift pin and hammer, drive the valve guides (Figure 6-47, (1)) out of the cylinder head.
Figure 6-47
4TNV98 & 4TNE98 Diesel Engine 86 Section 3. Engine
4TNE98 Engine
Figure 6-1
4TNV98 & 4TNE98 Diesel Engine 87 Section 3. Engine
(
( 1) Valve Cover Nut ( 2) Valve Cover Nut O-ring ( 3) Valve Cover
4) Valve Cover Gasket ( 5) Shaft ( 6) Rocker Arm Shaft Retaining Screw
( 7) Cylinder Head Bolt ( 8) Glow Plug Harness ( 9) Valve Cap
( 10) Valve Keepers ( 11) Spring Retainer ( 12) Valve Spring
( 13) Valve Stem Seal ( 14) Valve Guide ( 15) Intake Valve
( 16) Exhaust Valve ( 17) Cylinder Head Gasket ( 18) Cylinder Head
( 19) Glow Plug ( 20) Glow Plug Cover ( 21) Push Rod
( 22) Support Bracket Bolt ( 23) Rocker Arm Shaft Spring ( 24) Support Bracket Stud
( 25) Support Bracket ( 26) Rocker Arm ( 27) Rocker Arm Shaft Retaining Ring
( 28) Valve Adjusting Screw Lock Nut ( 29) Valve Adjusting Screw ( 30) Support Bracket Nut
4TNV98 & 4TNE98 Diesel Engine 88 Section 3. Engine
Disassembly of Cylinder Head
Prepare a clean, flat working surface on a workbench large enough to accommodate the cylinder head assembly. Discard all gaskets, O-rings and seals.
CAUTION
Identify all parts and their location using an appropriate method. It is important that all parts are returned to the same position during the assembly process.
0000080en
1. Remove the intake manifold bolts (Figure 6-2,
(1)). Remove the intake manifold (Figure 6-2, (3)).
Discard the intake manifold gasket (Figure 6-2,
(3)).
Figure 6-2
2. Remove the exhaust manifold bolts (Figure 6-2,
(4)) and nuts (Figure 6-2, (5)). Remove the exhaust manifold (Figure 6-2, (6)). Discard the exhaust manifold gasket (Figure 6-2, (7)).
3. Remove the water pump from the engine. See
Disassembly of Engine Coolant Pump on 205.
4. Remove the fuel injectors from the cylinder head.
See Removal of the Fuel Injectors on page 196.
Removal of Glow Plugs
1. Remove the glow plug cover (Figure 6-3, (2)) from each of the glow plugs (Figure 6-3, (1)).
2. Disconnect the glow plug harness (Figure 6-3,
(3)) from the glow plugs.
3. Remove the glow plugs from the cylinder head
(Figure 6-3, (4)).
Figure 6-3
Removal of Valve Cover
1. Remove the valve cover nuts (Figure 6-4, (1)).
2. Check the condition of the O-ring (Figure 6-4, (2)) on each valve cover nut. Replace the O-ring if necessary.
4TNV98 & 4TNE98 Diesel Engine 89 Section 3. Engine
Figure 6-4
3. Remove the valve cover (Figure 6-4, (3)). Discard the valve cover gasket (Figure 6-4, (4)).
Removal of Rocker Arm Assembly
1. Remove the bolt (Figure 6-6, (1)) and locking nuts (Figure 6-6, (2)) that retain the rocker arm support brackets to the cylinder head.
2. Lift the rocker arm assembly from the cylinder head.
3. Lift the push rods from the cylinder head.
4. Number the push rods so that they are reinstalled with the same valve tappet and rocker arm.
Figure 6-6
Disassembly of Rocker Arm Assembly
1. Remove the rocker arm shaft alignment screw
(Figure 6-7, (1)) from the support bracket that secures the rocker arm shaft (Figure 6-7, (2)).
2. Remove the retaining rings (Figure 6-7, (3)) from the ends of the rocker arm shaft (Figure 6-7, (2)).
3. Slide the rocker arm shaft (Figure 6-7, (2)) out of the rocker arm support brackets (Figure 6-7, (4)), springs (Figure 6-7, (5)), and rocker arms (Figure
-7, (6)).
NOTE : The rocker arm shaft fits tightly in the rocker arm support brackets. Clamp the support bracket in a padded vise and twist the rocker arm shaft to remove. Reverse this process when you reinstall the rocker arm shaft into the support brackets.
NOTE : Mark the rocker arms so they can be reinstalled with the original matching valve and pushrod.
4TNV98 & 4TNE98 Diesel Engine 90 Section 3. Engine
Figure 6-7
4. .If necessary, remove the valve adjusting screw
(Figure 6-7, (7)) and lock nut (Figure 6-7, (8)) from the rocker arms.
Removal of Cylinder Head
1. Loosen the cylinder head bolts following the sequence shown in (Figure 6-8).
1. Fan Side
2. Camshaft Side
Figure 6-8
2. Remove the cylinder head bolts (Figure 6-9, (1)).
3. Lift the cylinder head away from the cylinder block.
Discard the cylinder head gasket (Figure 6-9, (2)).
Position the cylinder head on the work bench to prevent damage to the combustion surface.
Figure 6-9
Removal of Intake / Exhaust Valves
1. Place the cylinder head on the work bench with the combustion side down.
2. Using the valve spring compressor tool, compress one of the valve springs (Figure 6-10).
Figure 6-10
3. Remove the valve keepers (Figure 6-11, (2)) and valve cap (Figure 6-10, (1)) from the end of the valve.
4TNV98 & 4TNE98 Diesel Engine 91 Section 3. Engine
4. Slowly release the tension on the valve spring.
5. Remove the spring retainer (Figure 6-11, (3)), valve spring (Figure 6-11, (4)) and valve stem seal (Figure 6-11, (5)).
Figure 6-11
6. Repeat this procedure until all the intake and exhaust valve springs and valve stem seals are removed.
NOTE : If you are going to reinstall the valves in the cylinder head, mark them so they can be installed in their original location.
7. Turn the cylinder head so the exhaust port side faces down. Remove the intake and exhaust valves (Figure 6-11, (6)) from the cylinder head.
Removal of Valve Guides
1. Using a drift pin and hammer, drive the valve guides (Figure 6-12, (1)) out of the cylinder head.
Figure 6-12
Cleaning of Cylinder Head Components
WARNING
FUME / BURN HAZARD!
Always read and follow safety related precautions found on containers of hazardous substances like parts cleaners, primers, sealants and sealant removers.
Failure to comply could result in death or serious injury.
4TNV98 & 4TNE98 Diesel Engine 92 Section 3. Engine
Thoroughly clean all components using a nonmetallic brush and an appropriate solvent. Each part must be free of carbon, metal filings and other debris.
Inspection of Cylinder Head
Components
Visually inspect the parts. Replace any parts that are obviously discolored, heavily pitted or otherwise damaged. Discard any parts that do not meet its specified limit.
CAUTION
Any part which is found defective as a result of inspection or any part whose measured value does not satisfy the standard or limit must be replaced.
CAUTION
Any part determined to not meet the service standard or limit before the next service, as determined from the state of current rate of wear, should be replaced even though the part currently meets the service standard limit.
Inspection of Push Rods
Push Rod Bend
1. Place the push rods on a flat inspection block or layout bed.
2. Roll the push rods until a gap can be observed between a portion of the push rod and the surface of the block or layout bed.
3. Use a feeler gauge to measure the gap (Figure 6-
48). See Push Rod on page 68 for the service limit.
Figure 6-48
Inspection of Rocker Arm Assembly
Rocker Arm Shaft Hole Diameter
1. Use a telescoping gauge and micrometer to determine if the inside diameter of all the rocker arm support brackets and the rocker arms (Figure
6-49) are within the specified limits. See Rocker
Arm and Shaft on page 68 for the service limit.
2. Inspect the contact areas (Figure 6-49, (1)) for excessive wear or damage.
4TNV98 & 4TNE98 Diesel Engine 93 Section 3. Engine
Figure 6-49
Rocker Arm Shaft Outside Diameter
Use a micrometer to measure the rocker arm shaft diameter (Figure 6-50). Measure at each rocker arm location in two directions 90° apart (Figure 6-50).
See Rocker Arm and Shaft on page 68 for the service limit.
Figure 6-50
Inspection of Valve Guides
Valve Guide Inside Diameter
Visually inspect the valve guides for distortions, scoring or other damage.
NOTE : Measure the valve guides while they are installed in cylinder head.
Use a telescoping gauge and micrometer to measure the inside diameter at each end of the valve guide. Measure in three places and 90° apart
(Figure 6-51). See Intake/Exhaust Valve and Guide on page 67 for the service limit. Replace the valve guides if not within specification.
Figure 6-51
Inspection of Cylinder Head
Cylinder Head Distortion
Place the cylinder head flat and inverted
(combustion side up) on the bench. Use a straight edge and feeler gauge to measure cylinder head distortion (Figure 6-52). Measure diagonally and along each side. See Cylinder Head on page 66 for the service limit.
Figure 6-52
4TNV98 & 4TNE98 Diesel Engine 94 Section 3. Engine
If distortion exceeds the service limit, resurface or replace the cylinder head. Remove only enough material to make the cylinder head flat, but do not remove more than 0.008 in (0.20 mm).
Inspection of Intake and Exhaust Valves
Visually inspect the intake and exhaust valves.
Replace any valves that are obviously discolored, heavily pitted or otherwise damaged.
Valve Stem Diameter
Use a micrometer to measure the valve stem diameter. Measure the valve stem near the combustion end and near the opposite end (Figure
6-53, (1)). See Intake/Exhaust Valve and Guide on page 67 for the service limit.
Figure 6-53
Valve Stem Bend
Place the valve stem on a flat inspection block or layout bed. Roll the valve until a gap can be observed between a portion of the valve stem and the surface of the block or bed. Use a feeler gauge to measure the gap (Figure 6-54). See
Intake/Exhaust Valve and Guide on page 67 for the service limit.
Figure 6-54
Valve Recession
NOTE: The valve guides must be installed to perform this check.
Insert the valves into their original locations and press them down until they are fully seated. Use a depth micrometer (Figure 6-55) to measure the difference between the cylinder head gasket surface and the combustion surface of each exhaust and intake valve (Figure 6-56). See Cylinder Head on page 66 for the service limit.
Figure 6-55
NOTE : 2-Valve cylinder head is shown. 4-Valve cylinder head is similar.
4TNV98 & 4TNE98 Diesel Engine 95 Section 3. Engine
Figure 6-56
Valve Face and Valve Seat
Always check the clearance between the valve and valve guide before grinding or lapping the valve seats. See Intake/Exhaust Valve and Guide on page
67 for the service limit. If the clearance exceeds the limit, replace the valve and/or valve guide to bring the clearance within the limit.
Roughness or burrs will cause poor seating of a valve. Visually inspect the seating surfaces of each valve and valve seat to determine if lapping or grinding is needed.
Visually inspect all valves faces and valve seats for pitting, distortion, cracking, or evidence of overheating. Usually the valves and valve seats can be lapped or ground to return them to serviceable condition. Severely worn or damaged components will require replacement.
Coat the valve seat with a thin coat of bluing compound. Install the valve and rotate to distribute bluing onto the valve face. The contact pattern should be approximately centered on the valve face
(Figure 6-57, (1)) and even in width.
Figure 6-57
Also visually inspect the valve seat for even contact.
Light cutting can be performed by the use of a handoperated cutter (Figure 6-58).
Figure 6-58
Valve seat diameter can be adjusted by top-grinding with a 150° stone to make the seat diameter smaller, and bottom-grinding using a 40° stone to make the seat diameter larger. Once the seat location has been corrected, grind and lap the seat angle (Figure
6-58, (1)) to specification. See Cylinder Head on page 66 for specifications.
4TNV98 & 4TNE98 Diesel Engine 96 Section 3. Engine
Grind the valve face and/or valve seat as necessary to return them to serviceable condition. Grinding is needed if the valve and valve seat do not contact correctly. Check the valve margin and valve recession after grinding.
If the valve or seat require grinding, lap the valve after grinding. Lap the valve face to the valve seat using a mixture of valve lapping compound and engine oil.
Be sure to thoroughly wash all parts to remove all grinding powder or compound.
Inspection of Valve Springs
Inspect the valve springs. If damage or corrosion is seen, or if measurements exceed the specified limits, replace the springs.
Fractures
Check for fractures on the inside and outside portions of the springs. If the valve spring is fractured, replace the valve spring.
Corrosion
Check for corrosion of spring material caused by oxidation.
Squareness
Use a flat surface and a square to check each spring for squareness (Figure 6-59). See Valve
Spring on page 68 for the service limit.
Figure 6-59
Free Length
Use a caliper to measure the length of the spring
(Figure 6-60). See Valve Spring on page 68 for the service limit.
Figure 6-60
Inspection of Valve Bridges
4TNV98 Engine Only
Visually inspect the contact surface at both ends of the valve bridge (Figure 6-61, (2)) for excessive wear or mushrooming.
Remove and inspect the seat (Figure 6-61, (1)).
Measure the diameter of the valve bridge guide pin bore in the valve bridge and guide pin (Figure 6-61,
(3)). See Rocker Arm and Shaft on page 68 for the service limit.
Figure 6-61
4TNV98 & 4TNE98 Diesel Engine 97 Section 3. Engine
Reassembly of Cylinder Head
Use new gaskets, O-rings, and seals on reassembly of the cylinder head.
IMPORTANT
Liberally oil all components during reassembly to prevent premature wear or damage.
Reassembly of Valve Guides
1. The valve guides are installed into the cylinder head with an extremely tight press fit. Before installing the valve guides, place the valve guides in a freezer for at least twenty minutes This will cause the valve guides to contract, making it easier to install the valve guides into place.
2. Immediately after removing the valve guides from the freezer, insert the valve guides (Figure 6-62,
(1)) in their proper positions.
4TNV98 Engine
4TNE98 Engine
Figure 6-62
3. Finish installing the valve guides (Figure 6-63,
(1)) into the cylinder head to the proper height
(Figure 6-63, (3)) using the valve guide installation tool (Figure 6-63, (2)). See Intake/Exhaust Valve and Guide on page 67.
Figure 6-63
Reassembly of Intake and Exhaust Valves
IMPORTANT
Always install new valve stem seals. The exhaust valve seals can be identified by having yellow paint.
Ensure they are installed in the correct locations.
1. Oil the lip of the valve stem seal (Figure 6-64, (2)).
Using the valve stem seal installation tool (Figure
6-64, (1)), install a new valve stem seal on each of the valve guides (Figure 6-64, (3)).
Figure 6-64
4TNV98 & 4TNE98 Diesel Engine 98 Section 3. Engine
2. Measure the distance (Figure 6-65, (1)) from the cylinder head to the valve stem seal to ensure proper clearance (Figure 6-65, (2)) between the guide and seal. See Intake/Exhaust Valve and
Guide on page 67.
Figure 6-65
3. Place the cylinder head assembly on its exhaust port side.
4. Place all the valves (Figure 6-66, (5)) in their proper location in the cylinder head.
4TNV98 Engine
4TNE98 Engine
Figure 6-66
5. Place the cylinder head on the workbench with the combustion side down. Install the valve spring
(Figure 6-66, (3)) and spring retainer (Figure 6-66,
(2)).
6. Using the valve spring compressor tool, compress the valve spring.
7. Insert the valve keepers (Figure 6-66, (1)) and slowly release the tension in the valve spring.
Repeat the steps on all the remaining valves.
4TNV98 & 4TNE98 Diesel Engine 99 Section 3. Engine
Reassembly of Cylinder Head
1. Carefully clean both the combustion surface of the cylinder head and the top surface of the cylinder block. Then place a new cylinder head gasket (Figure 6-67, (2)) on the cylinder block.
2. Position the cylinder head on the on the cylinder head gasket.
4TNV98 Engine
4TNE98 Engine
Figure 6-67
3. Lightly oil the threads of the cylinder head bolts
(Figure 6-67, (1)). Tighten the bolts to the specified torque in two steps as shown in the chart below. Tighten in the sequence shown in (Figure
6-68). See Special Torque Chart on page 73 for specification.
First Step 1/2 of final torque
Second Step Final torque
4TNV98 & 4TNE98 Diesel Engine 100 Section 3. Engine
Figure 6-68
1) Fan End
2) Camshaft Side
Reassembly of Rocker Arm Assembly
4TNV98 Engine
1. Reinstall the valve bridges (Figure 6-69, (3)) in their original locations and ensure each seat
(Figure 6-69, (4)) is in place.
2. Insert the push rods (Figure 6-69, (2)) in their original locations.
Figure 6-69
IMPORTANT
The wave washers (Figure 6-70, (2)) must be installed with the bow facing the rocker arms
(Figure 6-70, (1)).
Figure 6-70
IMPORTANT
Ensure the lubrication holes (Figure 6-71, (1)) in the rocker arm shaft are oriented correctly with respect to the rocker arms (Figure 6-71, (2)).
Figure 6-71
3. Lubricate the rocker arm shaft. Slide the rocker arm supports (Figure 6-72, (6)), wave washers
(Figure 6-72, (7)), rocker arms
(Figure 6-72, (8)), and fuel injector retainers
(Figure 6-72, (4)) onto the shaft.
4TNV98 & 4TNE98 Diesel Engine 101 Section 3. Engine
NOTE : To properly align the rocker arm shaft with the rocker arm shaft supports, first reinstall one of the end rocker arm supports (Figure 6-72, (6)) with a hole for the shaft alignment stud (Figure 6-72, (5)).
Align the hole in the rocker arm shaft and the hole in the rocker arm support bracket. Reinstall the alignment stud.
Figure 6-72
NOTE : Figure 6-72 shows components for one cylinder. Components for all remaining cylinders are assembled in the same order.
4. Position the rocker arm assembly on a flat surface.
Reinstall the alignment studs (Figure 6-72, (5)).
5. Place the rocker arm shaft assembly onto the cylinder head.
6. If removed, reinstall the valve adjusting screws
(Figure 6-72, (2)) and lock nuts (Figure 6-72, (3)).
7. Align the push rods with their respective rocker arms.
8. Reinstall and tighten the rocker arm shaft retaining bolts to the specified torque.
9. Tighten the rocker arm shaft alignment studs.
10. Adjust the valve clearance.
11. Reinstall the fuel injectors. See Installation of the
Fuel Injectors on page 167.
4TNE98 Engine
1. Lubricate the rocker arm shaft. Slide the rocker arm support brackets (Figure 6-30, (4)), springs
(Figure 6-30, (5)) and rocker arms (Figure 6-30,
(6)) onto the shaft.
NOTE : The rocker arm shaft fits tightly in the rocker arm support brackets. Clamp the support bracket in a padded vise and twist the rocker arm shaft to remove. Reverse this process when you reinstall the rocker arm shaft into the support brackets.
NOTE : To properly align the rocker arm shaft with the rocker arm shaft supports, first install the rocker arm support bracket (Figure 6-31, (4)) with the hole for the shaft alignment screw (Figure 6-31, (1)).
Align the hole in the rocker arm shaft and the hole in the rocker arm support bracket. Install the alignment screw.
Figure 6-31
2. Position the rocker arm assembly on a flat surface.
Install the retaining rings (Figure 6-31, (3)) onto the end of the rocker arm shaft.
3. Install and hand tighten the rocker arm shaft retaining bolt and nuts.
4. Install the valve adjusting screws (Figure 6-31,
(7)) and lock nuts (Figure 6-31, (8)).
5. Place the rocker arm assembly in place onto the cylinder head. Tighten the rocker arm support bracket nuts and bolt to the specified torque.
Tighten the rocker arm shaft alignment screw.
6. Align the push rods with their respective rocker arms and adjust the valve lash. (See Measuring
and Adjusting Valve Clearanceon page 104.)
4TNV98 & 4TNE98 Diesel Engine 102 Section 3. Engine
Reassembly of the Valve Cover
1. Lightly grease a new valve cover gasket (Figure
6-73, (6)). Place the gasket in the groove of the valve cover (Figure 6-73, (3)).
2. Place the valve cover on the cylinder head.
3. Be sure new O-rings (Figure 6-73, (5)) are installed on the valve cover nuts. Reinstall and tighten the valve cover nuts (Figure 6-73, (4)).
Figure 6-73
4. Reinstall the fuel injector grommets (Figure 6-73,
(1)).
5. Reinstall the exhaust manifold using a new gasket.
Tighten the bolts to specification.
6. Reinstall the intake manifold using a new gasket.
Tighten the bolts to specification.
7. Reconnect the fuel injector return hose and fuel injection pump coolant hoses.
8. Reinstall the high-pressure fuel line grommets into the valve cover.
9. Reinstall the high pressure and fuel return lines.
See Installation of the Fuel Injectors on page 167.
10. Reinstall the coolant pump. See Reassembly of
Engine Coolant Pump on page 208.
11. Reinstall the alternator.
12. Reconnect the turbocharger oil supply and drain lines.
13. Reconnect the air intake hose.
Assembly of Glow Plugs
4TNE98 Engine Only
1. Install the glow plugs (Figure 6-33, (1)) into the cylinder head (Figure 6-33, (4)). Torque the glow plugs to the specified torque.
2. Connect the glow plug harness (Figure 6-33, (3)) to the glow plugs.
3. Install the glow plug cover (Figure 6-33, (2)) on each glow plug.
Figure 6-33
4TNV98 & 4TNE98 Diesel Engine 103 Section 3. Engine
Measuring and Adjusting Valve
Clearance
Measure and adjust while the engine is cold.
• If there is no valve clearance, and the cylinder is at TDC of the compression stroke, extreme wear, or damage to the cylinder head or valves may be possible.
NOTES
• The No. 1 piston position is on the flywheel end of the engine, opposite the radiator. The firing order is 1-3-4-2 for 4-cylinder engines.
• 4-cylinder engines fire every 180° of crankshaft rotation.
• Valve clearance of both the intake and exhaust valves can be checked with the piston for that cylinder at top dead center (TDC) of the compression stroke. When a piston is at TDC of the compression stroke, both rocker arms will be loose and the cylinder TDC mark on the flywheel will be visible in the timing port of the flywheel housing.
4-Cylinder Engines
• If adjusting each cylinder individually, the cylinder to be adjusted first does not have to be the No. 1 cylinder. Select and adjust the cylinder where the piston is nearest to the top dead center after turning. Make adjustment for the remaining cylinders in the order of firing by turning the crankshaft each time.
• To decrease the number of rotations required to check all cylinders, other cylinders can also be checked as indicated in the chart below.
Cylinder 1 2 3 4
Intake Exhaust Intake Exhaust Intake Exhaust Intake Exhaust Valve
No. 1 Cylinder at
TDC Compression
No. 4 Cylinder at
TDC Compression
• • • •
• • • •
4TNV98 & 4TNE98 Diesel Engine 104 Section 3. Engine
4TNE98 Engine
1. Remove the valve cover. See Removal of Valve
Cover on page 103.
NOTE : If adjusting each cylinder individually, the cylinder to be adjusted first does not have to be the
No. 1 cylinder. Select and adjust the cylinder where the piston is nearest to the top dead center after turning, and make adjustment for other cylinders in the order of firing by turning the crankshaft.
4TNV98 & 4TNE98 Diesel Engine 105 Section 3. Engine
4TNV98 Engine
The 4-valve cylinder head operates two valves with a single rocker arm by employing a valve bridge
(Figure 6-77, (1)) between the two valves (Figure 6-
77, (2)). Clearance (Figure 6-77, (4)) between the valve bridge and valves must be set before adjusting the clearance (Figure 6-77, (5)) between the rocker arm (Figure 6-77, (3)) and valve bridge.
Figure 6-77
1. Remove the valve cover. See Removal of Valve
Cover on page 103.
NOTE : If adjusting each cylinder individually, the cylinder to be adjusted first does not have to be the
No. 1 cylinder. Select and adjust the cylinder where the piston is nearest to the top dead center after turning, and make adjustment for other cylinders in the order of firing by turning the crankshaft 180° each time.
2. Rotate the crankshaft clockwise as seen from the coolant pump end, to bring No. 1 piston to TDC on the compression stroke while watching the rocker arm motion and the timing grid on the flywheel.
(Position where both the intake and exhaust valves are closed.)
3. Make sure there is clearance (Figure 6-77, (5)) between the valve bridge (Figure 6-77, (1)) and the rocker arm (Figure 6-77, (3)).
IMPORTANT
Do not loosen or tighten the valve adjusting screw lock nut without holding the valve bridge. Always hold the valve bridge using a wrench to prevent bending of the valve stems.
4. Loosen the valve bridge adjusting screw lock nut
(Figure 6-78, (1)) while holding the bridge (Figure
6-78, (3)) with a wrench (Figure 6-78, (2)).
Figure 6-78
5. To assure the valve bridge contacts the rear valve, apply light, downward (Figure 6-79, (4)) finger pressure on the valve bridge (Figure 6-79, (3), and loosen the valve bridge adjusting screw
(Figure 6-79, (1)), until there is visible clearance
(Figure 6-81, (2)) between the adjusting screw and the front valve.
6. To assure the valve bridge has equal contact with the front and rear valves, apply light downward
(Figure6-79,(4)) pressure on the valve bridge
(Figure6-79,(3)), adjust the valve bridge adjusting screw (Figure 6-79,(1)), (Figure 6-81,(1)) so there is zero “0”clearance (Figure 6-81,(2)) between the adjusting screw and the front valve.
Figure 6-79
4TNV98 & 4TNE98 Diesel Engine 106 Section 3. Engine
7. Tighten the lock nut (Figure 6-80, (1)), while holding the valve bridge (Figure 6-80, (3)) with a wrench (Figure 6-80, (2)). Verify that the valve clearance (Figure 6-81, (2) is zero “0”.
Figure 6-80
Figure 6-81
NOTE : There is a tendency for the clearance to decrease slightly when the lock nut is tightened. It is suggested that you make the initial clearance adjustment is made slightly on the “loose” side before tightening the lock nut.
8. To adjust the actual valve clearance between the rocker arm and the valve bridge, insert a feeler gauge (Figure 6-82, (1)) of the correct thickness
(See Adjustment Specifications on page6-6) between the rocker arm (Figure 6-82, (2)) and valve bridge (Figure 6-82, (3)). Record the results and use this value as an indication of wear.
Figure 6-82
9. If adjustment is required, proceed to the next step.
10. Loosen the valve adjusting screw lock nut
(Figure 6-83, (5)) and valve adjusting screw
(Figure 6-83, (4)) on the rocker arm (Figure 6-83,
(3)) and check the clearance gap (Figure 6-83,
(2)) for evidence of dirt or wear.
NOTE : There is a tendency for the clearance to decrease slightly when the lock nut is tightened. It is suggested that you make the clearance adjustment is made slightly on the “loose” side before tightening the lock nut.
11. Adjust the valve clearance (Figure 6-83, (2)) by turning the adjusting screw (Figure 6-83, (4)) until there is a slight “drag” on the feeler gauge when sliding it between the rocker arm and the valve bridge.
4TNV98 & 4TNE98 Diesel Engine 107 Section 3. Engine
Figure 6-83
12. Hold the adjusting screw (Figure 6-83, (4)) while tightening the valve adjusting screw lock nut
(Figure 6-83, (5)). Recheck the clearance.
13. Apply oil to the contact surface between the adjusting screw and push rod.
14. Rotate the crankshaft to measure and adjust the set of valves. Continue until all valves are measured and adjusted.
4TNV98 & 4TNE98 Diesel Engine 108 Section 3. Engine
Crankshaft and Camshaft Components
Figure 6-84
4TNV98 & 4TNE98 Diesel Engine 109 Section 3. Engine
(8) Front Crankshaft Seal.
(14) Camshaft Gear.
(17) Idler Gear.
(23) Crankshaft Gear.
(29) Flywheel.
(9) Gear Case Cover
(15) Idler Gear Shaft.
(18) Oil Pickup O-Ring.
(24) Crankshaft Pulley.
(30) Connecting Rod Cap.
(10) Tappets.
Camshaft Plate.
(16) Idler Gear Bushing.
(19) Oil Pickup.
(25) Main Bearing Inserts.
(31) Connecting Rod Bearing Inserts.
(38) Second Compression Ring.
(41) Crankshaft Rear Seal Housing.
(39) Top Compression Ring. (40) Crankshaft Rear Seal.
4TNV98 & 4TNE98 Diesel Engine 110 Section 3. Engine
Disassembly of Engine
Prepare a clean, flat working surface on a workbench large enough to accommodate the engine components. Discard all used gaskets, Orings and seals. Use new gaskets, O-rings and seals on reassembly of engine.
CAUTION
Identify all parts and their location using an appropriate method. It is important that all parts are returned to the same position during the reassembly process.
If the engine will be completely disassembled, the following preliminary steps should be performed:
1. Disconnect the battery cables at the battery.
Always disconnect the negative (-) cable first.
2. Remove the throttle cable, electrical connections, intake and exhaust system connections, and fuel supply lines from the engine.
3. Remove the alternator.
4. Drain the engine coolant from the radiator and cylinder block. See Drain, Flush and Refill Cooling
System With New Coolant on page 159. Remove the cooling system components from the engine.
5. Remove the engine from the machine. Mount the engine to a suitable engine repair stand having adequate weight capacity.
CAUTION
Be sure to secure the engine solidly to prevent injury or damage to parts due to the engine falling during work on the engine.
6. Clean the engine by washing with solvent, air or steam cleaning. Carefully operate so as to prevent any foreign matter or fluids from entering the engine or any fuel system or electrical components remaining on the engine.
7. Drain the engine oil into a suitable container.
Remove the oil filter.
8. Remove the cylinder head. See 4-Valve Cylinder
Head on page 80.
9. Remove the fuel injection pump from the gear case / front plate only if it must be sent out for repair, or will interfere with other procedures such as “hot tank” cleaning. If the fuel injection pump does not need to be repaired, leaving it mounted to the timing gear case or plate will eliminate the need to re-time it during reassembly. See Fuel
Injection Pump on page 141.
10. Remove the starter motor. See Removal of
Starter Motor on page 225.
Disassembly of Camshaft and Timing
Components
Discard all gaskets, O-rings and seals. Use new gaskets, O-rings and seals on reassembly of the camshaft and timing components.
Removal of Timing Gear Case Cover
1. Remove the bolt and washer retaining the crankshaft pulley.
IMPORTANT
Use care not to damage the threads in the end of the crankshaft when removing the crankshaft pulley.
2. Remove the crankshaft pulley using a gear puller.
3. Remove the bolts that retain the gear case cover to the cylinder block and oil pan.
4. Remove the gear case cover (Figure 6-85, (1)).
4TNV98 & 4TNE98 Diesel Engine 111 Section 3. Engine
Figure 6-85
Checking Timing Gear Backlash
Prior to removing the timing gears, measure the gear backlash and determine the gear wear.
Check the backlash between each pair of mating gears (Figure 6-86). If not within specification, replace both mating gears. See Timing Gear
Backlash on page 69 for service limits.
NOTE: Do not allow the gear being checked to move axially as excess end play could cause a false reading.
Figure 6-86
(1) Fuel Injection Pump Drive Gear.
(2) Camshaft Drive Gear.
(3) Auxiliary Drive Gear (Optional).
(4) Crankshaft Drive Gear.
(5) Direction of Rotation.
(6) Oil Pump Drive Gear (4TNV94L - 4TNV106).
(7) Idler Gear.
Measuring Idler Gear-to-Crankshaft Gear
Backlash
1. Install a dial indicator as shown in Figure 6-87.
Figure 6-87
2. Rotate the idler gear back and forth to check the idler gear-to-crankshaft gear backlash. The total indicator reading is the backlash. Record the measurement.
4TNV98 & 4TNE98 Diesel Engine 112 Section 3. Engine
Measuring Idler Gear-to-Camshaft Gear Backlash
1. Drive a small wooden wedge between the crankshaft gear and idler gear to prevent the idler gear from rotating.
2. Install the dial indicator to read the camshaft gear backlash. Rotate the camshaft drive gear against the idler gear to measure the backlash. Record the measurement.
3. Check the idler gear-to-fuel injection pump drive gear backlash in the same manner as the camshaft drive gear. Record the measurement.
Removal of Timing Gears
1. Remove the bolts from the idler gear shaft
(Figure 6-88, (1)). Remove the idler gear shaft, idler gear (Figure 6-88, (2)) and bushing (Figure
6-88, (3)).
Figure 6-88
2. Do not remove the crankshaft gear unless it is damaged and requires replacement. If the gear must be removed, remove it using a gear puller.
3. Removal of the camshaft gear requires the camshaft be removed and placed in a press. Do not remove the camshaft gear unless it or the camshaft is damaged and requires replacement.
See Removal of Camshaft on page 114.
CAUTION
Do not loosen or remove the four bolts retaining the fuel injection pump drive gear to the fuel injection pump hub. Do not disassemble the fuel injection pump drive gear from the hub. Correct fuel injection timing will be very difficult or impossible to achieve.
4. Do not remove the fuel injection pump drive gear unless absolutely necessary to avoid damage to the gear or pump. Do not loosen or remove the four bolts (Figure 115, (3)) retaining the pump drive gear to the hub. Only remove the nut (Figure
6-89, (1)) and washer (Figure 115, (2)), leaving the hub attached to the gear. Remove the pump drive gear and hub as an assembly using a gear puller.
4TNV98 Engine
Figure 6-89
Removal of Oil Pan
1. Invert the engine (oil pan up) on the engine stand.
2. Remove the oil pan (Figure 116, (1)).
4TNV98 & 4TNE98 Diesel Engine 113 Section 3. Engine
Figure 6-90
3. Remove the oil pickup tube (Figure 6-91, (1)) and
O-ring (Figure 6-91, (2)).
Figure 6-91
Removal of Camshaft
1. Before removing the camshaft, check the camshaft end play.
• Method A : Install a dial indicator (Figure 6-92,
(1)) on the cylinder block. Move the camshaft
(Figure 6-92, (2)) back and forth to measure the end play. Record the measurement. See
Camshaft on page 68 for the service limit.
Figure 6-92
• Method B : Use a feeler gauge to measure the clearance between the thrust plate (Figure 6-93,
(1)) and front camshaft bearing (Figure 6-93, (2)).
See Thrust Bearing on page 70 for the service limit.
Figure 6-93
4TNV98 & 4TNE98 Diesel Engine 114 Section 3. Engine
2. Remove the two bolts (Figure 6-94, (3)) retaining the camshaft thrust plate (Figure 6-94, (1)).
Figure 6-94
3. Rotate the engine in the engine stand so that gravity causes the tappets (Figure 6-94, (5)) to drop away from the camshaft lobes.
NOTE : Rotate the camshaft at least two turns to
“bump” any sticking tappets away from the camshaft.
4. Slowly pull the camshaft (Figure 6-94, (2)) assembly out of the engine being careful not to damage the front camshaft bushing.
NOTE : If the engine is not installed on an engine repair fixture, stand the engine upright on the flywheel end mounting flange. Rotate the camshaft at least two turns to bump the tappets out of the way to prevent the tappets from interfering with the removal of the camshaft.
NOTE : The tappets are “mushroom” shaped and must be removed from inside the engine crankcase.
5. Remove the tappets. Mark the tappets so they can be reinstalled in the same location.
6. Remove the camshaft drive gear (Figure 6-94,
(4)) only if the gear or camshaft require replacement. Use a knife-edge puller and a press to remove the gear. The gear is a shrink-fit and will need to be heated to 356° - 392°F (180° -
200°C) to remove.
Removal of Gear Case or Front Plate
NOTE : The camshaft must be removed before the gear case / front plate can be removed. See
Inspection of Camshaft on page 125.
1. Remove the oil pump.
NOTE : It is not necessary to remove the fuel injection pump from the gear case / front plate to remove the gear case / front plate. If the fuel injection pump does not need to be repaired, leaving it mounted to the timing gear case / front plate will eliminate the need to re-time it during assembly. See
Fuel Injection Pump on page 141.
2. Remove the bolts (Figure 6-95, (4)).
3. Remove the gear case (Figure 6-95, (1)) or front plate from the cylinder block. Thoroughly clean all old sealant from the mating surfaces.
4. Inspect and measure the camshaft bushing.
See Camshaft on page 68 for the service limit. If damaged or worn beyond service limits, remove the camshaft bushing (Figure 6-95, (3)).
5. Remove two O-rings (Figure 6-95, (2)).
Figure 6-95
4TNV98 & 4TNE98 Diesel Engine 115 Section 3. Engine
Disassembly of Crankshaft and Piston
Components
Removal of Pistons
CAUTION
Keep the piston pin parts, piston assemblies, and connecting rod assemblies together to be returned to the same position during the reassembly process. Label the parts using an appropriate method.
IMPORTANT
Engines with high operating hours may have a ridge near the top of the cylinders that will catch the piston rings and make it impossible to remove the pistons.
Use a suitable ridge reamer to remove ridges and carbon prior to removing the pistons.
NOTE : Pistons can fall from cylinder block if the engine is inverted. Rotate the engine so the connecting rods are horizontal before removing the connecting rod caps.
1. Using a feeler gauge, measure the connecting rod side clearance as shown (Figure 6-97). See
Connecting Rod on page 72 for the standard limit.
If the measurement is out of specification, replace the crankshaft, connecting rod, or both.
Figure 6-97
2. Measure bearing oil clearance prior to removing the pistons and connecting rods to determine extent of wear. Record the measurements.
4TNV98 & 4TNE98 Diesel Engine 116 Section 3. Engine
IMPORTANT
Mark the connecting rod caps and connecting rods so the caps and connecting rods stay together.
(a) Remove the bearing cap. Do not remove the bearing inserts at this time.
(b) Wipe oil from the bearing insert and crankshaft journal surfaces.
(c) Place a piece of PLASTIGAGE®
(Figure 6-98, (1)) along the full width of the bearing insert.
Figure 6-98
IMPORTANT
Do not rotate the crankshaft when using
PLASTIGAGE. A false reading may result.
Figure 6-99
(g) Repeat with remaining connecting rods.
IMPORTANT
Do not allow the connecting rod to contact the crankshaft journal during piston removal. Damage to the bearing journal may result.
3. Use a wooden dowel against the connecting rod and tap the piston / connecting rod assembly out of the cylinder.
4. Mark the cylinder number on the piston and connecting rod.
5. Remove the bearing inserts (Figure 6-100, (2)).
6. Remove the compression rings (Figure 6-100,
(3)) from the piston using a piston ring expander.
7. Remove the oil ring (Figure 6-100, (4)) from the piston using a piston ring expander.
(d) Reinstall bearing cap and tighten to specification.
See Special Torque Chart on page 73.
(e) Remove bearing cap.
(f) Compare the width of the flattened PLASTIGAGE to the graduation marks on the package (Figure
6-99, (1)). The mark that most closely matches the width of the flattened PLASTIGAGE will indicate the bearing oil clearance.
4TNV98 & 4TNE98 Diesel Engine 117 Section 3. Engine
Figure 6-100
8. Remove the circlips (Figure 6-100, (5)) from the wrist pin.
9. Remove the wrist pin (Figure 6-100, (6)) and connecting rod (Figure 6-100, (8)) from the piston
(Figure 6-100, (9)).
10. Repeat the steps until all pistons are removed and dissembled.
Removal of Crankshaft
1. Remove the flywheel (Figure 6-101, (1)) from the crankshaft.
2. Remove the bolts from the rear oil seal assembly
(Figure 6-101, (2-3)). Remove the assembly from the engine.
Figure 6-101
3. Before removing the main bearing caps, measure the crankshaft end play. Use either of the following two methods.
• Method A : Install a dial gauge
(Figure 6-102, (1)) on the cylinder block. Move the crankshaft (Figure 6-102, (2)) in and out to measure the end play. Record the measurement.
Figure 6-102
4TNV98 & 4TNE98 Diesel Engine 118 Section 3. Engine
• Method B : Use a feeler gauge to measure the clearance (Figure 6-103, (3)) between the thrust bearing (Figure 6-103, (1)) and crankshaft
(Figure 6-103, (2)). Record the measurement.
See Thrust Bearing on page 70 for the service limit.
Figure 6-103
4. Remove the main bearing caps
(Figure 6-104, (3)). Be sure to note the markings on the main bearing caps, or mark them yourself, so they can be reinstalled in the same order as they were removed. Do not remove the bearing inserts at this time.
NOTE : The “arrows” on the main bearing caps point to the flywheel end of the engine.
Figure 6-104
5. Measure bearing oil clearance prior to removing the crankshaft to determine extent of wear.
Record the measurements.
(a) Wipe oil from the bearing insert and crankshaft journal surfaces.
(b) Place a piece of PLASTIGAGE
(Figure 6-105, (1)) along the full width of each bearing insert.
4TNV98 & 4TNE98 Diesel Engine 119 Section 3. Engine
Figure 6-105
IMPORTANT
Do not rotate the crankshaft when using
PLASTIGAGE. A false reading may result.
NOTE : Do not remove the crankshaft gear unless the gear or crankshaft are damaged and require replacement.
8. If necessary, remove the crankshaft gear (Figure
6-107, (1)), parallel pin (Figure 6-107, (2)) and key (Figure 6-107, (3)).
If using a gear puller, be careful not to damage the threads in the end of the crankshaft.
Figure 6-107
Inspection of Crankshaft and Camshaft
Components
WARNING
(c) Reinstall bearing caps and tighten to specification. See Special Torque Chart on page
69.
(d) Remove bearing caps.
(e) Compare the width of the flattened
PLASTIGAGE to the graduation marks on the package (Figure 6-106, (1)). The mark that most closely matches the width of the flattened
PLASTIGAGE will indicate the bearing oil clearance.
Figure 6-106
6. Remove the crankshaft from the engine.
7. Remove the bearing inserts (Figure 6-104, (1)) and thrust bearings (Figure 6-104, (2)).
FUME / BURN HAZARD!
Always read and follow safety related precautions found on containers of hazardous substances like parts cleaners, primers, sealants and sealant removers.
Failure to comply could result in death or serious injury.
Thoroughly clean all components using a brush and appropriate solvent. Each part must be free of carbon, gasket material, metal filings and other debris.
Replacement of Crankshaft Oil Seals
1. Remove the seal (Figure 6-108, (2)) from the cover (Figure 6-108, (1)).
4TNV98 & 4TNE98 Diesel Engine 120 Section 3. Engine
2. Apply a continuous bead of ThreeBond Liquid
Gasket No. 1212 to the outside diameter of a new oil seal (Figure 6-108, (2)), and install in the gear case cover. Apply lithium grease to the lip of the seal.
Figure 6-108
3. Remove the rear oil seal (Figure 6-109, (3)) from the seal housing (Figure 6-109, (2)).
4. Apply a continuous bead of ThreeBond Liquid
Gasket No. 1212 to the outside diameter of a new oil seal (Figure 6-109, (2)), and install in the housing. Apply lithium grease to the lip of the seal.
Figure 6-109
Measure Crankshaft Bearing Oil Clearance
Oil clearance should be checked during disassembly to determine the extent of wear, and during assembly to ensure long engine life. The same procedure is done for both connecting rods and main bearings.
Inspection of Cylinder Block
1. Ensure that oil passages are clear and unobstructed.
2. Check for discoloration or evidence of cracks. If a fracture is suspected, use the color check method or the Magnaflux method to determine if the cylinder block is fractured.
3. Inspect cylinders for roundness, taper, or evidence of scoring. Collect and record the measurements. Consider honing, reboring or replacing the cylinder block if the measurements are not within specification.
• Take measurements at three places
(Figure 6-110) (a, b, c), and in two directions (d and e) in each cylinder.
Figure 6-110
4TNV98 & 4TNE98 Diesel Engine 121 Section 3. Engine
Inspection of Pistons, Piston Rings and Wrist
Pin
NOTES
• On an engine with low hours, the pistons, piston rings may be reused if they are found to be within specifications. The pistons and piston rings must be reinstalled in the same cylinders from which they were originally removed.
• On an engine with high hours, the pistons rings should be replaced and the cylinder honed (See
Honing and Boring on page 126) or replaced.
The piston should be replaced as necessary.
1. Clean piston ring grooves using a piston ring groove cleaning tool. Follow manufacturer’s instructions for correct operation.
2. Wash the pistons in an appropriate solvent using a soft brush.
3. Visually inspect each piston for cracks. Pay particular attention to the ring lands between the piston ring grooves.
4. Measure the diameter of the piston skirt at 90° to the wrist pin bore as shown (Figure 6-111).
Measurements must be taken at a specified distance (Figure 6-111, (1)) from the bottom of the piston, based on engine model. Record the measurements. See Piston on page 71 for specifications.
Figure 6-111
5. Subtract the piston measurement from the greatest measurement acquired during cylinder inspection (see Inspection of Cylinder Block on page 109) to obtain piston-to-cylinder clearance.
Record the measurements. See Piston on page
71 for specifications.
6. Measure the diameter of the wrist pin bore on both sides of the piston (Figure 6-112). See
Piston on page 71 for specifications. Record the measurements.
Figure 6-112
7. Measure the outside diameter of the wrist pin in three places and at 90° (Figure 6-113). See
Piston on page 71 for specifications. Record the measurements.
Figure 6-113
8. Using a micrometer, measure the thickness of each piston ring. See Piston on page 71 for specifications. Record the measurements.
4TNV98 & 4TNE98 Diesel Engine 122 Section 3. Engine
NOTES
• On an engine with low hours, the pistons, piston rings and cylinders may be reused if they are found to be within specifications.
• On an engine with high hours, the pistons rings should be replaced and the cylinder honed (see
Honing and Boring on page 126) or replaced.
The piston should be replaced as necessary.
9. Place each compression piston ring in the groove as shown (Figure 6-114). Use a feeler gauge to measure the clearance between the piston ring and the piston ring land. Record the measurements. See Piston Ring on page 71 for specifications. Replace the piston if not within specification.
Figure 6-114
10. To measure piston ring end gap, insert each compression piston ring (Figure 6-115, (1)), one at a time, into the cylinder. Use a piston with the piston rings removed to slide the ring into the cylinder bore until it is approximately 1.18 in. (30 mm) (Figure 6-115, (2)) from the bottom of the bore. Remove the piston. Measure the end gap
(Figure 6-115, (3)) of each piston ring. Record the measurements. See Piston Ring on page 71 for specifications.
Figure 6-115
NOTE : Always check the piston ring end gap when installing new piston rings. See Piston Ring on page
71 for specifications. Use a piston ring end gap filing tool to adjust the piston ring end gap on new piston rings.
11. Repeat the above steps for each cylinder and piston assembly.
4TNV98 & 4TNE98 Diesel Engine 123 Section 3. Engine
Inspection of Connecting Rod
1. Measure the wrist pin bushing bore using a bore gauge (Figure 6-116, (1)). Replace the bushing if not within specifications. If the bushing has been removed, measure the inside diameter of the connecting rod small end (Figure 6-116, (2)). See
Connecting Rod on page 72 for specifications.
Figure 6-116
2. Place the connecting rod bearing inserts into the connecting rod and connecting rod cap. Install the rod cap and tighten the bolts to the specified torque.
3. Measure the inside diameter. See Crankshaft on page 70 for specifications.
Inspection of Tappets
1. Inspect the tappet contact surfaces for abnormal wear (Figure 6-117, (1)). Normal wear will be even as shown in (Figure 6-117, (2)). Slight surface defects can be corrected using an oilstone.
Figure 6-117
2. Measure the outside diameter of the tappet stem
(Figure 6-118, (1)). See Tappet on page 72 for the service limit.
Figure 6-118
3. Measure the tappet bores in the cylinder block.
See Tappet on page 72 for the service limit.
Inspection of Crankshaft
1. Place the crankshaft end journals
(Figure 6-119, (4)) on V-blocks.
2. Place a dial indicator (Figure 6-119, (3)) on a center main bearing surface.
Figure 6-119
3. Rotate the crankshaft and observe runout. See
Crankshaft on page 70 for specifications.
4TNV98 & 4TNE98 Diesel Engine 124 Section 3. Engine
4. Use the color check method or Magnaflux® to inspect the crankshaft for cracks. Replace the crankshaft if evidence of fractures are found.
5. Measure the outside diameter of each crankpin
(Figure 6-120, (2)) and main bearing journal
(Figure 6-120, (1)). See Crankshaft on page 70 for specifications. Take measurements at several places around each bearing surface. If not within specification, grind the journals and install undersize bearings, or replace the crankshaft.
Figure 6-120
Inspection of Camshaft
1. Use V-blocks and a dial indicator to check camshaft bend (Figure 6-121). Place the indicator on the center bearing journal.
Figure 6-121
2. Rotate the camshaft and observe the runout. See
Camshaft on page 68 for specifications.
3. Measure the height of each lobe
(Figure 6-122, (1)). See Camshaft on page 68 for specifications.
Figure 6-122
4. Measure the diameter of the gear end (Figure 6-
123, (1)), intermediate (Figure 6-123, (2)), and flywheel end (Figure 6-123, (3)) bearing journals.
See Camshaft on page 68 for specifications.
4TNV98 & 4TNE98 Diesel Engine 125 Section 3. Engine
Figure 6-123
Inspection of Camshaft Bushing and Bores
1. Measure the I.D. of the front bushing and the remaining bores in the cylinder block. See
Camshaft on page 68 for specifications.
2. If the camshaft bushing is not within specification, replace it using the appropriate service tool. If the remaining bores are not within specification, the cylinder block will require replacement as there are no bearing inserts used.
Inspection of Idler Gear and Shaft
1. Measure the outside diameter (Figure 6-124, (1)) of the idler gear shaft (Figure 6-124, (2)). See
Idler Gear Shaft and Bushing on page 69 for specifications.
2. Measure the inside diameter (Figure 6-124, (3)) of the idler gear bushing (Figure 6-124, (4)). See
Idler Gear Shaft and Bushing on page 69 for specifications.
Figure 6-124
Honing and Boring
Pistons must move freely in the cylinders while maintaining adequate compression and oil sealing.
If the cylinder walls are scuffed, scored, out-of-round, or tapered beyond specifications, rebore and hone to restore cylinders to usable condition. Slight imperfections can be corrected by honing alone.
1. Boring - Significant cylinder damage may be corrected by boring the cylinder to an oversize dimension. Refer to the appropriate parts catalog for available oversize pistons and piston rings.
• Boring a cylinder should always be done in a properly equipped machine shop.
• A bored cylinder should always be finished with a hone to properly prepare the cylinder surface so the new piston rings will seat properly.
• After the cylinder has been bored and honed, install the appropriate oversize pistons and piston rings.
2. Honing - Minor cylinder imperfections may be corrected by using a rigid cylinder hone (Figure 6-
126, (1)). Be sure not to exceed the maximum cylinder bore specification.
Deglazing - A used cylinder that did not require boring or honing, should always be deglazed with a ball hone (Figure 6-126, (2)) before installing new piston rings. This will properly prepare the cylinder surface to allow new piston rings to seat properly.
NOTE : When honing a cylinder, with either a ridged hone or a ball hone (Figure 6-125, (1)), move the rotating hone up and down in the cylinder bore to accomplish a 30° to 40° crosshatch pattern (Figure
6-125). This will provide the ideal surface for the proper seating of new piston rings.
4TNV98 & 4TNE98 Diesel Engine 126 Section 3. Engine
CAUTION
Do not allow the honing tool to operate in one position for any length of time. Damage to the cylinder wall will occur. Keep the tool in constant up-and-down motion.
Figure 6-125
• Use a 50:50 mixture of diesel fuel and engine oil as a honing fluid.
• Use a 300-grit hone at 300 - 1200 rpm
(Figure 6-126).
Figure 6-126
IMPORTANT
Solvents will not adequately remove honing residue, resulting in premature piston and ring wear. Always wash cylinders using hot, soapy water.
• When honing is completed, wash the cylinder block with hot water and soap. The cylinder wall is adequately cleaned when a white rag wiped in cylinder comes out clean. Use brushes to clean all passages and crevices. Rinse with hot water and dry with compressed air. Apply clean engine oil to all steel surfaces to prevent rusting.
Reassembly of Crankshaft and Piston
Components
NOTES
• Proceed slowly. Make no forced assemblies unless a pressing operation is called for. All parts must be perfectly clean and lightly lubricated when assembled.
• Use new gaskets, seals and O-rings during assembly.
• Liberally apply clean engine oil to all internal parts during assembly.
• All fasteners should be tightened to a given torque. If a special torque is not provided in the
Special Torque Chart on page 73, tighten to standard torque specifications. See Tightening
Torques for Standard Bolts and Nuts on page 4-
33.
Reassembly of Pistons
4TNV98 Engine
1. Select the parts needed to reassemble the piston and connecting rod for one cylinder.
2. If removed, install a new wrist pin bushing
(Figure 6-127, (7)) using a press and the appropriate service tool. Be sure to align the oil holes.
4TNV98 & 4TNE98 Diesel Engine 127 Section 3. Engine
Figure 6-127
3. Reinstall one circlip (Figure 6-127, (5)) into the piston. Ensure the circlip is securely seated in the groove.
IMPORTANT
The piston and connecting rod must be assembled together in the correct orientation. The orientation of the piston and connecting rod are different depending on engine model.
Piston to Connecting Rod Orientation - By Model
Orient the piston identification mark stamped on top of the piston on the same side as the rod and cap match marks stamped on the connecting rod.
NOTE : The actual appearance of the match marks on the piston and connecting rod may vary, but they will always be in the same locations.
Figure 6-128
(1) Piston Identification Mark.
(2) Embossed Mark on Connecting Rod.
(3) Rod and Cap Match Marks.
4TNV98 & 4TNE98 Diesel Engine 128 Section 3. Engine
Piston Assembly
When correctly assembled, the piston identification mark (Figure 6-129, (2)) stamped into the top of the piston will be on the same side of the connecting rod as the match marks (Figure 6-129, (4)) stamped into the connecting rod and connecting rod cap.
When installed in the cylinder, the piston identification mark (Figure 6-129, (2)) stamped on the top of the piston must face the fuel injection pump side (Figure 6-129, (1)) of the engine and the embossed mark on the connecting rod (Figure 6-
129, (3)) must face the flywheel end (Figure 6-129,
(5)) of the engine.
Figure 6-129
(1) Fuel Injection Pump Side of Engine.
(2) Piston Identification Mark.
(3) Embossed Mark on Connecting Rod.
(4) Rod and Cap Match Marks.
(5) Flywheel End of Engine.
(6) Camshaft Side of Engine.
1. Lubricate and reinstall the wrist pin (Figure 6-131,
(3)) through the piston and connecting rod.
2. Reinstall the second circlip (Figure 6-131, (4)) and ensure it is securely seated in the groove.
Figure 6-131
NOTE : If installing new piston rings the end gap must be checked and adjusted as necessary. See
Inspection of Pistons, Piston Rings and Wrist Pin on page 122 for specifications. Use a piston ring end gap filing tool to adjust the piston ring end gap on new piston rings.
NOTE : Reinstall the top and second piston rings with the stamped “makers mark” (Figure 6-132, (1)) facing the top of the piston. The “makers mark” may vary in appearance but will always be located on the top surface of the piston ring adjacent to the piston ring gap. The oil ring and oil ring expander can be installed either side up.
Figure 6-132
4TNV98 & 4TNE98 Diesel Engine 129 Section 3. Engine
IMPORTANT
Always use a piston ring installation tool (expander) when installing piston rings. Never attempt to install piston rings by hand.
3. Reinstall the oil ring expander (Figure 6-133, (4)).
Reinstall the oil ring (Figure 6-133, (3)) with the end gap at 180° from the expander end gap.
4. Reinstall the second compression ring (Figure 6-
133, (2)). This ring is identified by its dark color and tapered face profile.
5. Reinstall the top compression ring (Figure 6-133,
(1)). This ring is identified by its silver color and barrel-shaped face profile.
IMPORTANT
The oil ring expander (Figure 6-133, (4)) end gap must be located 180° from the oil ring (Figure 6-133,
(3)) end gap.
Figure 6-133
6. Stagger the piston ring end gaps at 120° intervals
(Figure 6-134, (1, 2, 3)). Do not position the top piston ring end gap in line with the wrist pin.
Figure 6-134
(1) Top Compression Ring End Gap.
(2) Second Compression Ring End Gap.
(3) Oil Ring End Gap.
4TNE98 Engine
1. Select the parts needed to assemble the piston and connecting rod for the No.1 cylinder.
2. Lubricate and insert the wrist pin bushing (Figure
6-70, (1)) into the small end of the piston rod.
4TNV98 & 4TNE98 Diesel Engine 130 Section 3. Engine
Figure 6-70
3. Install one circlip (Figure 6-70, (2)) into the piston.
4. Position the connecting rod into the piston under the skirt. The match marks on the connecting rod must be opposite of the piston identification mark
(ID) on the top of the piston
Figure 6-71
7. Lubricate and install the piston wrist pin (Figure6-
70,(3)) through the piston and wrist pin bushing.
6. Install the second circlip (Figure6-70,(4)).
7. Install the piston rings:
• Use piston ring pliers to install the piston rings.
• Install each piston ring on the piston with the punched manufacturer’s mark (Figure6-72,(1)) facing upward.
Figure 6-72
• Install the top compression ring, second compression ring and oil ring.
Figure 6-73
• Stagger the piston ring joints at 120 intervals. Do not position the top piston ring joint inline with the piston wrist pin. The coil expander joint must be opposite the oil ring joint.
4TNV98 & 4TNE98 Diesel Engine 131 Section 3. Engine
Figure 6-74
• Repeat these steps for the remaining pistons.
Installation of Crankshaft
1. If removed, reinstall the keys and timing gear on the crankshaft.
2. Reinstall new bearing inserts (Figure 6-135, (1)) and thrust bearing (Figure 6-135, (2)) in the cylinder block and main bearing caps. Apply a liberal coat of clean engine oil to the bearings and crankshaft journals.
3. Place the crankshaft into the engine.
IMPORTANT
The main bearing caps are numbered and have arrows for proper positioning. The No. 1 cap is at the flywheel end. The arrows point toward the flywheel end of the engine.
4. Reinstall the main bearing caps (Figure 6-135,
(3)).
4TNV98 & 4TNE98 Diesel Engine 132 Section 3. Engine
5. Apply a light coat of clean engine oil to the bearing cap bolts and tighten the bolts to the specified torque in two stages (1/2 then full torque). See Special Torque Chart on page 6-25 for specifications.
Figure 6-135
6. Rotate the crankshaft to assure it turns freely.
7. Apply ThreeBond Liquid Gasket No. 1212 to the mounting flange of the seal housing (Figure 6-136,
(2)).
8. Align the seal housing with the two dowel pins.
9. Reinstall seal housing and seal assembly.
10. Reinstall the flywheel (Figure 6-136, (1)) and tighten the bolts to the specified torque. See
Special Torque Chart on page 73 for specifications.
Figure 6-136
Installation of Pistons
IMPORTANT
Do not allow the connecting rod to contact the crankshaft journal during piston installation. Damage to the crankshaft bearing journal may result.
4TNV98 Engine
1. Lubricate the piston, piston rings, and cylinder with clean engine oil or assembly lubricant.
2. Rotate the crankshaft so the crankpin for the piston being installed is near bottom dead center.
IMPORTANT
Ensure the piston ring gaps are located correctly
(Figure 6-137).
Figure 6-137
(1) Top Compression Ring End Gap.
(2) Second Compression Ring End Gap.
(3) Oil Ring End Gap.
3. Using a piston ring compressor, compress the piston rings.
IMPORTANT
The piston and connecting rod must be installed in the correct orientation. The orientation of the piston to the cylinder is different depending on engine model.
4TNV98 & 4TNE98 Diesel Engine 133 Section 3. Engine
Piston Orientation to Cylinder - By Model
Orient the piston identification mark stamped on top of the piston on the fuel injection pump side of the engine
When correctly assembled, the piston identification mark (Figure 6-138, (2)) stamped into the top of the piston will be on the same side of the connecting rod as the match marks (Figure 6-138, (4)) stamped into the connecting rod and connecting rod cap.
When installed in the cylinder, the piston identification mark (Figure 6-138, (2)) stamped on the top of the piston must face the fuel injection pump side (Figure 6-138, (1)) of the engine and the embossed mark on the connecting rod (Figure 6-
138, (3)) must face the flywheel end (Figure 6-138,
(5)) of the engine.
Figure 6-138
(1) Fuel Injection Pump Side of Engine.
(2) Piston Identification Mark.
(3) Embossed Mark on Connecting Rod.
(4) Rod and Cap Match Marks.
(5) Flywheel End of Engine.
(6) Camshaft Side of Engine.
4. Reinstall the bearing inserts (Figure 6-140, (1)) in the connecting rod and cap.
5. Apply a liberal coat of clean engine oil to the bearing inserts and crankshaft journal.
6. Apply a light coat of clean engine oil to the rod cap bolts. Reinstall the connecting rod cap
(Figure 6-140, (2)). Tighten the connecting rod bolts to the specified torque in two stages (1/2 then full torque). See Special Torque Chart on page 69 for specifications.
Figure 6-140
7. Reinstall the remaining pistons in their respective cylinders.
4TNV98 & 4TNE98 Diesel Engine 134 Section 3. Engine
4TNE98 Engine
1. Lubricate No. 1 piston and piston rings.
2. Using the piston insertion tool (piston ring compressor), compress the piston rings on the
No.1 piston.
3. Carefully install the piston into No.1 cylinder. Be sure the punched mark on the connecting rod is facing the fuel injector side and the embossed mark on the connecting rod is facing the flywheel.
Figure 6-78
4. Install the connecting rod bearing halves
(Figure6-79,(1)) and connecting rod cap
(Figure6-79,(2)). Tighten the connecting rod bolts to the specified torque.
Figure 6-79
5. Install the remaining pistons in their respective cylinders.
4TNV98 & 4TNE98 Diesel Engine 135 Section 3. Engine
Reassembly of Camshaft and Timing
Components
Installation of Gear Case or Front Plate
1. If removed, install a new camshaft bushing
(Figure 6-141, (3)) using the appropriate service tool.
2. Apply a continuous bead of Three Bond Liquid
Gasket No. 1212 to the mounting area of the gear case or front plate. Be sure to circle each bolt hole.
3. Install two new O-rings (Figure 6-141, (2)) in the cylinder block.
Figure 6-141
4. Reinstall the gear case (Figure 6-141, (1)) Tighten the bolts to the specified torque.
Installation of Camshaft
NOTE : The gear housing or front plate must be reinstalled prior to installing the camshaft. See
Installation of Gear Case or Front Plate on page 136.
1. If removed, reinstall the camshaft end plate
(Figure 6-143, (1)), key, and timing gear (Figure
6-143, (4)) onto the camshaft using a press.
NOTE : Heat the gear to 356 - 392°F (180 - 200°C) and press onto the end of the camshaft.
2. Rotate the cylinder block so that gravity will keep the tappets (Figure 6-143, (5)) in place and out of the way of the camshaft lobes when the camshaft is being reinstalled.
NOTE : If the engine is not installed on an engine repair fixture, stand the engine upright on the flywheel end mounting flange.
NOTE : The tappets are “mushroom” shaped and must be installed from inside the engine crankcase.
3. Lubricate the tappets with clean oil or assembly lube. Reinstall the tappets in their respective locations in the cylinder block. Push the tappets fully into the tappet bores so they will not interfere with the installation of the camshaft.
4. Lubricate the camshaft (Figure 6-143, (2)) with clean engine oil or assembly lube. Slowly insert the camshaft through the front of the engine.
5. Reinstall and tighten the cap screws (Figure 6-
143, (3)).
Figure 6-143
6. If removed, reinstall the fuel injection pump.
Adjust the fuel injection timing the engine after installation. See Adjusting Fuel Injection Timing on page 161.
Installation of Timing Gears
1. Set the No. 1 piston to top dead center.
2. Rotate the camshaft until the mark (Figure 6-144,
(C)) is approximately at the 9 o’clock position.
4TNV98 & 4TNE98 Diesel Engine 136 Section 3. Engine
Figure 6-144
(1) Fuel Injection Pump Gea.r
(2) Camshaft Gear.
(3) Optional Accessory Drive Gear.
(4) Crankshaft Gear.
(5) Direction of Rotation.
(6) Oil Pump Gear.
(7) Idler Gear.
3. Lubricate the idler gear (Figure 6-145, (2)), bushing (Figure 6-145, (3)) and idler gear shaft
(Figure 6-145, (1)) with clean engine oil.
Figure 6-145
4. Align the timing gears as shown in (Figure 6-144).
5. Reinstall the idler gear and idler gear shaft. Be sure the oil hole in the bushing is facing toward the top of the engine.
6. Ensure all three timing marks (Figure 6-144, (A,
B, C)) are aligned.
7. When all gears are properly aligned, tighten the idler gear retaining bolts to specified torque. See
Special Torque Chart on page 73 for specifications.
Installation of Gear Case Cover
1. Apply a continuous bead of Three Bond Liquid
Gasket No. 1212, Yanmar Part No. 977770-
01212 to the mounting area of the gear case cover (Figure 6-146, (1)). Be sure to circle the bolt holes.
2. Reinstall and tighten the gear case cover bolts.
Figure 6-146
3. Reinstall the crankshaft pulley.
Figure 6-147
4. Reinstall the washer and bolt. Tighten the bolt to the specified torque. See Special Torque Chart on page 73 for specifications.
4TNV98 & 4TNE98 Diesel Engine 137 Section 3. Engine
Installation of Oil Pan
1. Reinstall the oil pickup tube (Figure 6-148, (1)) using a new O-ring (Figure 6-148, (2)).
Figure 6-148
2. Apply a continuous bead of ThreeBond Liquid
Gasket No. 1212 to the mounting surface of the oil pan (Figure 6-149, (1)). Be sure to circle each bolt hole.
3. Reinstall the oil pan and tighten the bolts securely.
Figure 6-149
Final Reassembly of Engine
1. Reinstall the starter motor.
2. Reinstall the cylinder head. See Reassembly of
Cylinder Head on page 88 for the 4-valve cylinder head.
3. Reinstall the engine in the machine.
4. Reconnect the fuel and coolant lines.
5. Reinstall the alternator.
6. Reconnect and adjust the throttle cable.
7. Reconnect all electrical connections.
8. Fill the engine with oil and coolant.
9. Reconnect the battery cables, negative (-) cable ast.
4TNV98 & 4TNE98 Diesel Engine 138 Section 3. Engine
Section 4. FUEL SYSTEM
Before You Begin Servicing
WARNING WARNING
ENTANGLEMENT HAZARD!
Stop the engine before you begin to service it.
NEVER leave the key in the key switch when you are servicing the engine. Someone may accidentally start the engine and not realize you are servicing it. This could result in a serious injury.
If you must service the engine while it is operating, remove all jewelry, tie back long hair, and keep your hands, other body parts and clothing away from moving/rotating parts.
Failure to comply could result in death or serious injury.
FUME / BURN HAZARD!
Always read and follow safety related precautions found on containers of hazardous substances like parts cleaners, primers, sealants and sealant removers.
Failure to comply could result in death or serious injury.
CAUTION
WARNING
SUDDEN MOVEMENT HAZARD!
Engaging the transmission or PTO at an elevated engine speed could result in unexpected movement of the equipment.
Failure to comply could result in death or serious injury.
FLYING OBJECT HAZARD!
ALWAYS wear eye protection when servicing the engine and when using compressed air or high-pressure water. Dust, flying debris, compressed air, pressurized water or steam may injure your eyes.
Failure to comply may result in minor or moderate injury.
WARNING
CAUTION
Never inject fuel toward you. Since the fuel is injected at high pressure from the nozzle, it may penetrate the skin, resulting in injury.
Never inject fuel toward a fire source. Atomized fuel is highly flammable and may cause a fire or burn skin.
PINCH HAZARD!
Carefully rotate the alternator toward the cylinder block while loosening the V-belt.
Failure to comply may result in minor or moderate injury.
4TNV98 & 4TNE98 Diesel Engine 139 Section 4. Fuel System
CAUTION
NEVER remove or attempt to remove the tamper-proof devices from the full-load fuel adjusting screw or the high-speed throttle limit screw on the fuel injection pump and governor assembly. These adjustments have been made at the factory to meet all applicable emissions regulations and then sealed.
NEVER attempt to make any adjustments to these sealed adjustment screws. If adjustments are required, they can be made only by a qualified fuel injection shop that will ensure the injection pump continues to meet all applicable emissions regulations and then replace the tamper-proof seals.
Tampering with or removing these devices may void the “Yanmar Limited Warranty.”
CAUTION
Never use a steel wire brush to clean fuel injectors. Damage to the nozzle and other components is likely to result.
CAUTION
Allow the engine to warm-up for at least five minutes and the idle speed of the engine to return to normal before engaging the transmission or any PTOs. Engaging the transmission or PTO at an elevated engine speed could result in an unexpected movement of the equipment.
CAUTION
Remove or install the high-pressure fuel injection lines as an assembly whenever possible. Disassembling the high-pressure fuel injection lines from the retainers or bending any of the fuel lines will make it difficult to reinstall the fuel lines.
CAUTION
After marking the position of the pump drive gear, do not rotate the engine crankshaft.
Rotating the crankshaft will cause the fuel injection pump to become misaligned.
CAUTION
Do not loosen or remove the four bolts retaining the fuel injection pump drive gear to the fuel injection pump hub. Do not disassemble the fuel injection pump drive gear from the hub.
Correct fuel injection timing will be very difficult or impossible to achieve.
CAUTION
Do not rotate the crankshaft with the injection pump removed.
CAUTION
Each pressure adjusting shim removed or added changes the pressure threshold by approximately 275 psi (1.9MPa, 19kgf/cm²).
Adding adjusting shims increases the threshold pressure. Removing adjusting shims reduces the pressure threshold.
4TNV98 & 4TNE98 Diesel Engine 140 Section 4. Fuel System
4TNV98 ENGINE
Introduction
This section of the Service Manual describes the procedures necessary to remove, install, and time the MP fuel injection pump and its associated system components. This fuel injection pump is representative of the fuel injection pumps used on other TNV DI model engines.
Fuel Injection Pump
NOTE: If the MP fuel injection pump itself requires servicing, it must be taken to an authorized Yanmar
FIE (Fuel Injection Equipment) repair facility.
CAUTION
NEVER remove or attempt to remove the tamper-proof devices from the full-load fuel adjusting screw or the high-speed throttle limit screw on the fuel injection pump and governor assembly. These adjustments have been made at the factory to meet all applicable emissions regulations and then sealed.
NEVER attempt to make any adjustments to these sealed adjustment screws. If adjustments are required, they can be made only by a qualified fuel injection shop that will ensure the injection pump continues to meet all applicable emissions regulations and then replace the tamper-proof seals.
Tampering with or removing these devices may void the “Yanmar Limited Warranty.”
Figure 7-1
The following describes the features of the MP fuel injection pump, manufactured by Yanmar.
The fuel injection pump is a very important component of the engine. It is capable of making very precise fuel delivery adjustments according to the varied loads applied to the engine.
All of the fuel injection pump components are very precisely machined. It is extremely important to follow good service practices and maintain cleanliness when servicing the fuel injection pump.
The Yanmar MP “Mono-Plunger” Fuel Injection
Pump is a distributor type pump which consists of a single fuel supply plunger, a distributor shaft, a hydraulic head and a pump housing. The hydraulic head has a delivery valve for each cylinder. The fuel injection pump housing contains a governor and an internal camshaft.
The fuel is pressurized by the up and down motion of the camshaft-driven single plunger. It is then distributed to the proper fuel injector by the rotating distributor shaft.
There are two versions and sizes of the MP Fuel
Injection Pump. The smaller of the two pumps, the
MP2 pump, is used on the 3TNV82A - 4TNV88 model engines. The larger pump, the MP4 pump, which has a larger single plunger and a more aggressive cam profile, is used on the 4TNV94L-
4TNV106T model engines.
4TNV98 & 4TNE98 Diesel Engine 141 Section 4. Fuel System
Stop Solenoid
The MP fuel injection pumps are equipped with a stop solenoid that controls the fuel flow inside the fuel injection pump.
With the starter switch in the OFF position, no current flows to the stop solenoid and the solenoid plunger is extended holding the fuel injection pump fuel rack in the “closed” position and not allowing fuel to flow through the injection pump and to the engine.
When the starter switch is turned to the start position, the “pull coil” (36.5 Amp draw/white wire) inside the solenoid is activated and pulls the solenoid plunger into the solenoid. This releases the fuel injection pump fuel rack, allowing fuel to flow through the injection pump and allowing the engine to start and run.
When the starter switch is returned to the ON or
RUN position, the “pull coil” no longer receives current and the “hold coil” (0.5 Amp draw/red wire) inside the solenoid is activated. The “hold coil” holds the solenoid plunger in the RUN position, allowing fuel to continue flowing and he engine to continue running.
To stop the engine, the key switch is turned to the
OFF position. Current no longer flows to the stop solenoid “hold coil”, and the solenoid plunger extends and moves the injection pump fuel rack to the “closed” position, shutting off the fuel flow and stopping the engine.
Failure of the stop solenoid could result in the engine not starting, the engine stopping suddenly, the engine not continuing to run with the key switch returned to the ON or RUN position, or the engine failing to stop when the key switch is turned to the
OFF position. Use a multimeter or continuity light to check for 12V at the stop solenoid connector in the correct sequence.
Cold Start Device
The Yanmar TNV model engines are equipped with a cold start device (CSD).
The cold start device is located in the upper section of the fuel injection pump and is connected to the engine’s cooling system.
• The cold start device improves engine starting at lower temperatures. At engine cooling system temperatures below 41°F (5°C), the cold start device advances the fuel injection timing and slightly increases the fuel injection volume.
• For approximately the first 5 minutes of operation, the idle speed of the engine will be slightly elevated.
CAUTION
Allow the engine to warm-up for at least five minutes and the idle speed of the engine to return to normal before engaging the transmission or any PTOs. Engaging the transmission or PTO at an elevated engine speed could result in an unexpected movement of the equipment.
• When the cold start device is activated, you may notice a slight increase in the exhaust smoke of the engine during engine warm-up.
Trochoid Fuel Pump
NOTE: The trochoid fuel pump located on the side of the MP fuel injection pump is not a “fuel supply” pump. The function of this pump is to raise the pressure of the fuel supplied by the electric fuel supply pump to the internal fuel pressure required by the MP fuel injection pump.
The use of an electric fuel supply pump is required on all TNV model engines with the MP fuel injection pump.
4TNV98 & 4TNE98 Diesel Engine 142 Section 4. Fuel System
Fuel System Specifications
Special Torque Chart
Fuel Injector Retainer Bolt
Fuel Pump Drive
Gear Nut
4TNV98
High-Pressure Fuel Injection Line Nuts
Fuel Return Line Bolts
Fuel Injection Pump Mounting Nuts
Fuel Injector Nozzle Case Nut
Fuel Injection Pump
Plunger Plug
4TNV98
29 ft·lb
(39.2 N·m; 4 kgf·m)
83-91 ft·lb
(113-123 N·m;
11.5-12.5 kgf·m)
22-25 ft·lb
(29-34 N·m;
3.0-3.5 kgf·m)
69-87 in·lb
(7.8-9.8 N·m;
0.8-1.0 kgf·m)
17-21 ft·lb
(23-28 N·m;
2.3-2.9 kgf·m)
30-33 ft·lb
(39.2-44.1 N·m;
4-4.5 kgf·m)
30-33 ft·lb
(40-45 N·m;
4.1-4.6 kgf·m)
Not Applied
Not Applied
Not Applied
Not Applied
Not Applied
Not Applied
Not Applied
4TNV98 & 4TNE98 Diesel Engine 143 Section 4. Fuel System
Test and Adjustment Specifications
Model
Engine
Class
Injector
ID mark*
Fuel Injector Pressure Fuel Injection Timing
3133-3278 psi
220-230 kgf/cm²
See Checking and Adjusting
Fuel Injection Timing on page
157
NOTE: Fuel injection pressure of a new fuel injector is reduced approximately 72.5 psi (0.5 MPa; 5.0 kgf/cm²) after about 5 hours of operation due to the initial break in of the engine. When adjusting a new fuel injector or after it has been disassembled for service, adjust the fuel injector 72.5 psi (0.5 MPa; 5.0 kgf/cm²) higher than the above standard.
NOTE: All fuel injectors have a three character identification mark (Figure7-2, (1)). The first character starts with “V” or “W”.
Figure7-2
** Fuel injector identification is critical as each engine has a unique fuel injection pressure. The fuel nozzle is specifically matched to the fuel injector by engine model and / or engine speed.
4TNV98 & 4TNE98 Diesel Engine 144 Section 4. Fuel System
Special Service Tools
No. Tool Name Application
For tightening nuts and bolts to the specified torque
Illustration
2
Removal Tool 129470-92305
Used in conjunction with a slide hammer to remove the fuel injectors (2-valve cylinder heads)
Measuring Instruments
No. Instrument Name
1
Tester
Application
For observing injection spray pattern of fuel injection nozzle and measuring injection pressure
Dial Indicator*
Mituotoyo 2050SB-
Locally Available
Check and adjust fuel injection timing
2
Extension Rod*
Mituotoyo 303613-
Locally Available
3
Fuel Injection
Pump Plunger
Adapter*
Yanmar Part No.
158090-51841
Mount dial indicator to fuel injection pump
Illustration
4
Plunger
Adapter Clamp
Yanmar Part No.
23000-013000
Clamps stem of dial indicator in plunger adapter.
* These special service tools may also be available as an “MP Fuel Injection Pump Special Tool Set”, under a different part number, in territories serviced by Yanmar America and Yanmar Europe. Contact your authorized
Yanmar dealer or distributor for details.
4TNV98 & 4TNE98 Diesel Engine 145 Section 4. Fuel System
Fuel System Diagram
Figure7-3
(1) Diesel Fuel Tank. (2) Fuel Filter / Water Separator. (3) Electric Fuel Pump. (4) Fuel Filter. (5) Air Bleed Orifice. (6) Fuel Supply Line.
(7) Low Pressure Gallery. (8) Pressure Control Valve. (9) Trochoid Pump. (10) Oil Seal. (11) Fuel Injection Pump Cam.
(12) Engine Crankcase. (13) Tappet. (14) High Pressure Gallery. (15) Overflow Orifice. (16) Accumulator. (17) Timer Piston.
(18) Mono-Plunger. (19) Distributor Shaft. (20) Fuel Return Line. (21) High-Pressure Fuel Injection Lines. (22) Fuel Injector.
4TNV98 & 4TNE98 Diesel Engine 146 Section 4. Fuel System
Fuel System Components
4-Valve Cylinder Head
Figure 7-5
(1) High-Pressure Fuel Injection Lines. (2) Fuel Return Line. (3) Return Line-to-Cylinder Head Bolt (4) Fuel Injector.
(5) Injection Line Grommet. (6) Front Plate or Timing Gear Case. (7) Gear Case Cover. (8) Fuel Injection Pump Drive Gear Nut.
(9) Lock Washer. (10) Fuel Injection Pump Drive Gear Assembly (DO NOT remove or loosen the four bolts that fasten the injection pump drive gear to the injection pump drive gear hub!). (11) Coolant Lines for Cold Start Device. (12) Fuel Injection Pump Insulator.
(13) Diesel Fuel Injection Pump. (14) Rear Fuel Injection Pump Support. (15) Fuel Filter / Water Separator.
(16) Electric Fuel Supply Pump. (17) Fuel Filter. (18) Fuel Filter Housing. (19) Stop Solenoid. (20) Cold Start Device (CSD).
(21) Trochoid Fuel Pump
4TNV98 & 4TNE98 Diesel Engine 147 Section 4. Fuel System
Fuel Injection Pump
Removal of Fuel Injection Pump
1. Loosen the cooling fan V-belt.
2. Remove the engine coolant fan guard (if equipped), engine coolant fan (Figure7-6, (2)), spacer (Figure7-6, (3)) if equipped, V-pulley
(Figure7-6, (4)) and cooling fan V-belt (Figure7-
6, (1)).
Figure 7-6
3. Close any fuel valves in the fuel supply line.
4. Place a drain pan under the fuel injection pump to catch any spillage.
5. Remove the high-pressure fuel injection lines as an assembly (Figure 7-7, (1)).
NOTICE
To prevent “rounding” the fuel line nuts always use a
“line” or “flare nut” wrench. When loosening the fuel line nuts, always hold the fuel injection pump delivery valves with a “back up” wrench to prevent loosening of the delivery valves.
6. First loosen the fuel line nuts at the fuel injectors and then at the fuel injection pump.
4TNV98 & 4TNE98 Diesel Engine 148
CAUTION
Remove or install the high-pressure fuel injection lines as an assembly whenever possible. Disassembling the high-pressure fuel injection lines from the retainers or bending any of the fuel lines will make it difficult to reinstall the fuel lines.
7. Finish loosening all the fuel line nuts and remove the high-pressure fuel lines as an assembly being careful not to bend any of the fuel lines. Be sure to protect the fuel system from contamination by covering all open connections.
8. Disconnect the coolant lines from the cold start device (Figure 7-7, (3)) on the fuel injection pump. Plug the open ends of the lines to minimize leakage and prevent contamination.
9. Disconnect the fuel return lines from the fuel return fitting (Figure 7-7, (2)). Plug the open ends of the lines to minimize leakage and prevent contamination.
Figure 7-7
10. Remove the fuel supply line (Figure 7-7, (4)).
Plug the open end of the line to minimize leakage and prevent contamination.
11. Remove the throttle cable from the fuel injection pump.
Section 4. Fuel System
12. Separate the stop solenoid wiring connector
(Figure 7-8, (2)).
13. Remove the rear fuel injection pump bracket(s)
(Figure 7-8, (1)) from the fuel injection pump.
NOTE: Configuration of the fuel injection pump rear brackets may vary depending upon engine model.
Figure 7-8
14. Disconnect the lube oil line (Figure 7-9, (1)) and the clamp (Figure 7-9, (2)) from the pump.
IMPORTANT
Take care to not damage or bend the oil line. In some applications, it may be preferable to remove the complete oil line assembly from the engine before proceeding.
NOTE: On models 4TNV98, the cover is larger and retained by 7 bolts.
Figure 7-9
15. Remove the fuel injection pump drive gear cover (Figure7-10, (1)) from the gear case cover (Figure7-10, (2)).
NOTE: The fuel injection pump drive gear cover is secured with an adhesive sealant. Use a gasket scraper to separate the fuel injection pump cover from the gear case cover.
Figure 7-10
NOTE: TNV82-88 shown.
4TNV98 & 4TNE98 Diesel Engine 149 Section 4. Fuel System
16. To position the fuel injection pump for easier removal and installation, install a dial indicator
(see Checking and Adjusting Fuel Injection
Timing on page 157) into the injection pump plunger opening. Using a wrench on the crankshaft pulley bolt, rotate the crankshaft until the dial indicator shows that injection pump plunger is at the bottom of it's stroke.
17. To aid in reassembly, make reference marks on the fuel injection pump drive gear, and on either the gear case cover or idler gear.
CAUTION
After marking the position of the pump drive gear, do not rotate the engine crankshaft.
Rotating the crankshaft will cause the fuel injection pump to become misaligned.
• On 4TNV98 model engines, the idler gear is visible. Make a reference mark (Figure 7-12,
(1)) across both the fuel injection pump drive gear and the idler gear.
Figure7-12
CAUTION
Do not loosen or remove the four bolts retaining the fuel injection pump drive gear to the fuel injection pump hub. Do not disassemble the fuel injection pump drive gear from the hub.
Correct fuel injection timing will be very difficult or impossible to achieve.
18. Do not loosen or remove the four bolts
(Figure7-13, (3)) retaining the pump drive gear to the hub. Only remove the single drive gear nut (Figure7-13, (1)) and washer (Figure7-13,
(2)), leaving the hub attached to the gear.
Figure 7-13
19. Hold the gear train using a large socket wrench on the crankshaft pulley nut. Loosen the fuel injection pump drive gear retaining nut (Figure
7-13, (1)) and turn it out to the end of the fuel injection pump shaft.
4TNV98 & 4TNE98 Diesel Engine 150 Section 4. Fuel System
20. Remove the pump drive gear and hub as an assembly using an appropriate two-bolt gear puller (Figure7-14).
Figure7-14
NOTE: On TNV98 models, the injection pump drive gear can be removed through the gear case cover opening.
21. Once the fuel injection pump drive gear and hub assembly has “popped” loose from the tapered fuel injection pump drive shaft, carefully remove the drive gear nut (Figure 7-15, (1)) and lock washer (Figure 7-15, (2)).
Figure 7-15
22. Locate the mark stamped into the upper outside mounting boss of the fuel injection pump.
Highlight this mark and make a corresponding mark on the gear case or front plate (Figure 7-
16, (1)).
Figure 7-16
NOTE: Some model engines may require the intake manifold and fuel injection pump insulator (Figure
7-17, (2)) be removed to access the inner fuel injection pump (Figure 7-17, (1)) retaining nuts.
Figure 7-17
23. If required, remove the intake manifold and fuel pump insulator to access the fuel injection pump mounting nuts.
4TNV98 & 4TNE98 Diesel Engine 151 Section 4. Fuel System
NOTE: The MP4 fuel injection pumps (4TNV98 model engines) are fastened to the gear case with four (4) studs and nuts.
24. Remove the fuel injection pump (Figure 7-17,
(1)). For purposes of future injection timing purposes, record the fuel injection pump timing index number located on the boss on the engine side (back) of the of the fuel injection pump (Figure 7-18, (1)).
Figure 7-18
CAUTION
Do not rotate the crankshaft with the injection pump removed.
25. If the fuel injection pump requires servicing, it must be sent to an authorized Yanmar FIE repair facility for repair and calibration, or replaced with a new fuel injection pump.
CAUTION
NEVER remove or attempt to remove the tamper-proof devices from the full-load fuel adjusting screw or the high-speed throttle limit screw on the fuel injection pump and governor assembly. These adjustments have been made at the factory to meet all applicable emissions regulations and then sealed.
NEVER attempt to make any adjustments to these sealed adjustment screws. If adjustments are required, they can be made only by a qualified fuel injection shop that will ensure the injection pump continues to meet all applicable emissions regulations and then replace the tamper-proof seals.
Tampering with or removing these devices may void the “Yanmar Limited Warranty.”
Installation of Fuel Injection Pump
IMPORTANT
If installing a new or recalibrated fuel injection pump, locate and record the timing index number located on the pump housing boss on the engine side of the new or recalibrated fuel injection pump (Figure 7-19, (1)). This number will be used to calculate and adjust the final fuel injection timing.
NOTE: If either or both of the fuel injection pumps do not have a timing index number, note the injection pump ID (example: XK42) on the injection pump ID label.
4TNV98 & 4TNE98 Diesel Engine 152 Section 4. Fuel System
To locate the timing index number for the engine being serviced use the Timing Index Chart under
“FIE Specs” on the Yanmar Distributor Website
( http://distributor.yanmar.co.jp
).
If additional assistance is needed in locating the engine timing index number See To Locate an
Authorized Yanmar Industrial Engine Dealer or
Distributor: Follow the instructions to locate an authorized Yanmar industrial engine dealer or distributor for assistance.
NOTE: Treat the timing index number as if it has a decimal point (68 = 6.8).
Figure 7-19
1. Align the pump drive gear with the idler gear using the reference marks made earlier.
4TNV98 model engines (Figure 7-21, (1)).
Figure 7-21
2. If installing the fuel injection pump on an engine with the front gear case cover removed, the fuel injection pump drive gear can be aligned with the idler gear by aligning the stamped marks (A, B,
C) on the fuel injection pump drive gear, idler gear, and crankshaft drive gear. Ensure all three timing marks (Figure 7-22, (A, B, C)) are
aligned.
Figure 7-22
(1) Fuel Injection Pump Drive Gear. (2) Camshaft Drive Gear.
(3) Auxiliary Drive Gear (Optional). (4) Crankshaft Drive Gear.
(5) Direction of Rotation. (6) Oil Pump Drive Gear (4TNV94L -
4TNV106). (7) Idler Gear
3. Install a new O-ring on the pump mounting flange.
Apply grease to the O-ring to hold it in place during installation of the injection pump.
NOTE: Ensure the tapered surface of the fuel injection pump shaft is clean and dry.
4TNV98 & 4TNE98 Diesel Engine 153 Section 4. Fuel System
4. Align the key on the fuel injection pump shaft with the keyway in the fuel injection pump drive gear hub. Reinstall the fuel injection pump into the fuel injection pump drive gear and gear housing.
Reinstall the pump retaining nuts finger tight.
5. Reinstall the fuel injection pump drive gear lock washer (Figure 7-23, (2)) and nut (Figure 7-23,
(1)). Do not lubricate the threads of the nut or shaft. Hold the crankshaft pulley bolt with a socket wrench and tighten the drive gear nut to the specified torque. See Special Torque Chart on page 143.
Figure 7-23
If reinstalling the original fuel injection pump:
• Align the reference marks (Figure 7-24, (1)) previously made on both the fuel injection pump mounting flange and gear case or front plate.
Figure 7-24
• Tighten the fuel injection pump retaining nuts to specification. See Special Torque Chart on page
143.
If installing a new fuel injection pump:
• Reinstall the timing grid sticker, provided with the new fuel injection pump, onto the back of the gear case / front plate (Figure 7-25). Align the
“standard mark” (Figure 7-25, (1)) with the reference mark (Figure 7-25, (2)) made on the gear case during disassembly.
Figure 7-25
4TNV98 & 4TNE98 Diesel Engine 154 Section 4. Fuel System
• Calculate the difference between the timing index numbers (Figure 7-26, (1)) of the fuel injection pump that you removed and the replacement fuel injection pump. See Calculation Example below.
Figure 7-26
Adjusting the fuel injection timing to compensate for the difference in pump timing index numbers:
Calculation Example
Timing Index Number
Original injection pump= 6.8
Replacement injection pump= 7.3
Difference= +0.5
• If the difference between the timing index numbers is a positive number, the fuel injection pump mounting position must be advanced
(Figure 7-27, (2)) (rotated away from the engine) as compared to the “standard mark” (Figure 7-27,
(1)) by the calculated positive amount, adjust the fuel injection pump to the calculated value.
• If the difference between the timing index numbers is a negative number, the replacement injection pump must be retarded (Figure 7-27,
(3)) (rotated toward the engine) by the calculated negative amount.
• Each mark on the timing sticker represents 0.5° timing change.
The above calculated difference indicates that the replacement fuel injection pump is to be installed at +0.5° (advanced) from the “Standard Mark”
(Figure 7-27, (1)) on the timing sticker.
Figure 7-27
In this case, rotate the top of the fuel injection pump away from the cylinder block until the mark on the outside upper mounting boss (Figure 7-28,
(1)) of the fuel injection pump aligns with the +0.5° mark on the timing sticker.
Figure 7-28
Tighten the fuel injection pump mounting nuts to specification. See Special Torque Chart on page
143.
4TNV98 & 4TNE98 Diesel Engine 155 Section 4. Fuel System
6. Reinstall the rear bracket(s) (Figure 7-29, (1)) to the fuel injection pump. Tighten the rear support bolts.
NOTE: Configuration of the fuel injection pump rear brackets may vary depending on the model.
Figure 7-29
7. Reconnect the throttle linkage and the stop solenoid connector (Figure 7-30, (2)).
8. Reconnect the lube oil line (Figure 7-30, (1)) and clamp (Figure 7-30, (2)).
Figure 7-30
9. Apply Three Bond Liquid Gasket No. 1212 or equivalent sealant to the sealing surface of the pump cover. Install the pump cover and tighten the cover bolts.
10. Reconnect the fuel return lines, fuel supply line and coolant lines to the fuel injection pump.
11. Reinstall the fuel injection high-pressure lines.
Tighten the nuts to specification. See Special
Torque Chart on page 143.
IMPORTANT
When reinstalling a new or repaired fuel injection pump, it is important to add engine oil to the fuel injection pump to provide lubrication for initial start-up. Add 5-7 oz (150-200 cc) of clean engine oil to the fuel injection pump at the fill plug located in the upper outside section of the governor housing.
12. If equipped, verify the fuel injection pump insulator (Figure 7-31, (2)) is not damaged.
Reinstall the insulator and intake manifold if previously removed.
4TNV98 & 4TNE98 Diesel Engine 156 Section 4. Fuel System
Figure 7-31
13. Reinstall the coolant pump V-pulley (Figure 7-
32, (4)), spacer (Figure 7-32, (3)) (if equipped) and engine coolant fan (Figure 7-32, (2)).
Figure 7-32
14. Reinstall the cooling fan V-belt (Figure7-32, (1)).
Adjust it as described in Check and Adjust
Cooling Fan V-Belt on page 47.
15. Reinstall the cooling fan guard (if equipped).
16. Prime the fuel system. See Priming the Fuel
System on page 15.
17. Operate the engine and check for fuel and coolant leaks.
Checking and Adjusting Fuel
Injection Timing
Determining the Fuel Injection Timing
Specification
1. Locate and record the fuel injection pump timing index number (Figure 7-34, (1)) stamped into the boss on the engine side of the fuel injection pump housing (Figure 7-33, (1)). Treat this number as though there is a decimal point between the two digits. i.e. 68 = 6.8
Figure7-33
Figure7-34
4TNV98 & 4TNE98 Diesel Engine 157 Section 4. Fuel System
2. Using the FIR number for the engine being serviced use the Fuel Injection Reference (FIR)
Chart under “FIE Specs” on the Yanmar
Distributor Website
( http://distributor.yanmar.co.jp
).
The FIR number is determined by the complete engine model number. The engine model number is located on the engine nameplate
(Figure 7-35).
Figure7-35
EXAMPLE: The following example is for an engine model 4TNV98 - SDF.
• Find the engine model number in the FIR chart.
Locate and record the FIR number (The FIR number for this engine is 4).
• Insert the numbers you have recorded into the following equation:
(Fuel Injection Pump Timing Index Number X 2) +
FIR Number = FIT° (Fuel injection Timing in
Degrees)
(6.8 X 2) = 13.6 + 4 = 17.6° Fuel injection Timing
• Record the calculated fuel injection timing specification.
Checking Fuel Injection Timing
NOTE: Some fuel may drain from the fuel injection pump during this process. Make provisions to contain any such spillage.
1. Turn off the fuel valve in the fuel supply hose and the fuel return hose.
2. Clamp shut the fuel injection pump fuel return hose leading to fuel filter (Figure 7-36, (1)).
Figure 7-36
IMPORTANT
IMPORTANTClean the top of the fuel injection pump to prevent any contamination when the fuel injection pump plunger plug is removed.
3. Remove the forward fuel injection pump plunger plug (Figure 7-36, (2)) on the top of the fuel injection pump.
4. Install a dial indicator adapter and clamp into the pump plunger opening.
NOTE: Use the Yanmar part no. 158090-51841 for the M16 adapter used on the MP4 fuel injection pumps (TNV94-106 model engines) and Yanmar part no. 23000-013000 plunger adapter clamp
(Figure 7-37, (1)).
4TNV98 & 4TNE98 Diesel Engine 158 Section 4. Fuel System
Figure 7-37
5. Install a dial indicator (Figure 7-38, (1)), Mitutoyo
No. 2050SB or equivalent, with a 30mm extension, Yanmar part no. 158090-51870 or
Mitutoyo No. 303613, into the adapter. Secure with the Yanmar part no. 23000-013000 plunger adapter clamp (Figure 7-37, (1)) at approximately the mid-point of its travel.
Figure 7-38
NOTE: The following references to the direction-ofrotation are facing the coolant pump end of the engine and are adjusted by turning the crankshaft pulley.
6. Using a wrench on the crankshaft pulley bolt, rotate the crankshaft in a clockwise direction while looking through the flywheel inspection port
(Figure7-39, (1)). Rotate the crankshaft until the injection timing marks on the flywheel are visible.
Figure 7-39
7. Typical flywheel markings are as shown in
(Figure 7-40, (1)).
NOTE: A typical flywheel will have multiple timing grids depending on the number of cylinders. Any grid can be used to check the fuel injection timing.
The flywheel shown in Figure 7-40 is for a
Yanmar “Standard Specification” DI engine.
Flywheels used on some “OEM Specific” DI engines may be marked differently. You should contact that specific OEM for information on the identification of the timing marks.
Figure 7-40
(1) 10° BTDC (Before Top Dead Center) (2) 15° BTDC.
(3) 20° BTDC (4) Direction of Rotation.
(5) TDC (Top Dead Center)
4TNV98 & 4TNE98 Diesel Engine 159 Section 4. Fuel System
NOTE: The TDC (Top Dead Center) mark can be identified by the cylinder numbers stamped near the
TDC mark on the flywheel.
If you are uncertain as to the timing degree designation of the timing marks on the flywheel timing grid, you can determine the timing degree designation by measuring the timing grid.
• First measure the distance between two of the
“longer” marks on the timing grid. (They are 5° apart.) Then measure the distance from the
TDC mark to the first “longer” mark on the timing grid. Divide that measurement by the distance between the two “longer” marks. The resulting answer will tell you how many degrees there are between the TDC mark and the first “longer” mark.
• EXAMPLE: If the distance between the two
“longer” marks is approximately 2.0 cm and the distance from the TDC mark is approximately 4.0cm, the answer is approximately 2. This indicates there is 10°
(2x5°) between the TDC mark and the first
“longer” mark on the timing grid. That means the first “longer” mark on the timing grid indicates 10° BTDC, the second “longer” mark indicates 15° BTDC and the third timing mark indicates 20° BTDC. If the answer is 3, that indicates there is 15° (3x15°) between the
TDC mark and the first “longer” mark and that the first “longer” mark indicates 15° BTDC with the second and third “longer” marks indicating 20° BTDC and 25° BTDC respectively.
8. Highlight the timing reference mark (Figure 7-41,
(2)) on the flywheel housing or engine back plate
(Figure 7-42, (2)). Highlight the TDC (Top Dead
Center) mark (Figure 7-41, (1)) on the flywheel.
9. Highlight the target timing mark (Figure 7-42,
(1)) on the flywheel as calculated in Determining the Fuel Injection Timing Specification on page
141.
Figure 7-41
Figure 7-42
4TNV98 & 4TNE98 Diesel Engine 160 Section 4. Fuel System
10. Rotate the crankshaft counter-clockwise until the dial indicator shows that the injection pump plunger is at the bottom of its stroke. Rock the crankshaft back and forth slightly to confirm a point where the dial indicator shows no movement. Zero the dial indicator.
11. Slowly rotate the crankshaft clockwise until the dial indicator shows a pump plunger lift of
2.5mm (0.098 in.).
12. Check the position of the flywheel target timing mark (previously determined) (Figure7-42, (1)) in relation to the timing reference mark
(Figure7-42, (2)) on the flywheel housing or engine back plate. If the two marks are aligned, the fuel injection timing is correct. If the marks do not align, the fuel injection timing must be adjusted. See Adjusting Fuel Injection Timing on page 161.
13. If the injection timing is correct, remove the dial indicator and adapter. Replace the pump plunger plug and its copper gasket and tighten to specifications. Replace the flywheel inspection port cover. Open the fuel supply valve and remove the clamp from the fuel supply hose and the fuel return hose.
14. Prime the fuel system. Operate the engine and check for leaks.
Adjusting Fuel Injection Timing
If the timing marks did not align when performing the Checking Fuel Injection Timing on page 158, the following steps must be performed to properly time the engine.
1. Leave the dial indicator installed in the fuel injection pump. Do not disturb the reading on the dial indicator.
2. Rotate the flywheel until the target timing mark
(Figure7-43, (1)) and the timing reference mark
(Figure7-43, (2)) on the flywheel housing or back plate are aligned.
IMPORTANT
Do not rotate the crankshaft during the remainder of this procedure.
Figure 7-43
4TNV98 & 4TNE98 Diesel Engine 161 Section 4. Fuel System
3. Note the reading on the dial indicator (Figure 7-
44, (1)). If the reading is less than 2.5mm (0.098 in.), the fuel injection timing is “retarded.” If the dial indicator reading is greater than 2.5mm
(0.098 in.), the fuel injection timing is
“advanced.”
Figure 7-44
NOTE: Some model engines require the intake manifold and fuel injection pump insulator be removed to access the inner fuel injection pump retaining nuts.
4. Loosen the nuts fastening the fuel injection pump to the gear case or front plate. Loosen the rear bracket(s) on the fuel injection pump.
NOTE: Loosening the high-pressure injection line nuts on the fuel injection pump may make rotating the pump easier.
5. Rotate the fuel injection pump until the dial indicator reads 2.5 mm (0.098 in.).
6. To “advance” the injection timing, rotate the top of the fuel injection pump away from the engine.
7. To “retard” the injection timing, rotate the top of the fuel injection pump toward the engine.
8. When the dial indicator reads 2.5 mm (0.098in.) of pump plunger lift and the target timing mark on the flywheel aligns with the reference mark on the flywheel housing or engine back plate, the injection timing is correct.
9. Tighten the fuel injection pump mounting nuts and rear bracket(s).
10. Remove the dial indicator and adapter. Replace the plug in the pump plunger opening and tighten it to specification. If removed, install the intake manifold and pump insulator. Tighten the high-pressure injection line nuts to specification.
Open the fuel supply valve, remove the clamp from the fuel return line and prime the fuel system. Operate the engine and check it for leaks.
4TNV98 & 4TNE98 Diesel Engine 162 Section 4. Fuel System
Fuel Injectors
Removal of Fuel Injectors
4-Valve Cylinder Head
1. Close any fuel valves in the fuel supply line.
2. Remove the valve cover.
3. Remove the injector return line (Figure7-48, (1)).
Be careful not to bend the line.
4. Remove the fuel injector mounting clamp bolts
(Figure7-48, (2)). Lift the injector mounting clamps (Figure7-48, (3)) away from injector.
5. Remove the fuel injector (Figure7-48, (4)) from the cylinder head.
Figure 7-48
NOTE: The fuel injectors can be removed by manually pulling them out of the fuel injector wells.
6. Remove the injector nozzle protector (Figure 7-
48, (5)) and seat (Figure 7-48, (6)) from the cylinder head. Discard both items.
7. Repeat steps to remove the remaining fuel injectors.
4TNV98 & 4TNE98 Diesel Engine 163 Section 4. Fuel System
Testing of Fuel Injectors
CAUTION
Never use a steel wire brush to clean fuel injectors. Damage to the nozzle and other components is likely to result.
1. Thoroughly clean the fuel injector nozzle using clean diesel fuel and a brass wire brush.
2. Visually inspect the fuel injectors and nozzle protectors for deposits or damage. Clean, repair or replace as necessary.
NOTE: Test the fuel injector using an injection nozzle tester. Operate the tester following the information provided by the tester manufacturer.
Use clean, filtered fuel or FIE calibration fluid for the test.
3. Using the correct adapter, connect a fuel injector to a nozzle tester. Aim the fuel injector into a suitable container to catch the fuel spray.
WARNING
Never inject fuel toward you. Since the fuel is injected at high pressure from the nozzle, it may penetrate the skin, resulting in injury.
Never inject fuel toward a fire source. Atomized fuel is highly flammable and may cause a fire or burn skin.
CAUTION
FLYING OBJECT HAZARD!
ALWAYS wear eye protection when servicing the engine and when using compressed air or high-pressure water. Dust, flying debris, compressed air, pressurized water or steam may injure your eyes.
Failure to comply may result in minor or moderate injury.
Figure 7-49
4. Pump the operating lever of the tester slowly, observing the pressure reading at the point where the fuel injector begins spraying fuel
(Figure 7-49).
See Figure 7-52 for injector ID location.
See Test and Adjustment Specifications on page
7-9 for correct pressure readings.
NOTE: The opening pressure of a new fuel injector will be approximately 725 psi (5MPa; 51kgf/cm²) higher than one that has been operated for five hours or longer.
5. Pump the operating lever slowly to hold the pressure steady at a point just below the opening pressure and hold it for 5 seconds. Observe the injector to see that it is sealing properly and is not “dripping”. If fuel leaks from the return line fitting, check that the nozzle case nut is tight.
Service or replace the injector if fuel continues to leak from either the return line fitting or nozzle.
4TNV98 & 4TNE98 Diesel Engine 164 Section 4. Fuel System
6. Pump the operating lever more rapidly to repeatedly “pop” the injector and observe the spray pattern. The pattern should be a very fine uniform spray (Figure 7-50). If a dripping or an uneven pattern is seen (Figure 7-51), service or replace the injector.
Figure 7-50
Figure7-51
If the fuel injector fails any of these tests, it should be serviced or replaced as necessary. If the pressure is outside specified limits, adjust the pressure. See Adjusting Fuel Injector Pressure on page 166.
Disassembly and Inspection of Fuel
Injectors
CAUTION
Never use a steel wire brush to clean fuel injectors. Damage to the nozzle and other components is likely to result.
1. Clean carbon from used injectors using clean diesel fuel. Hardened deposits or varnish can be cleaned using a brass wire brush.
Figure 7-52
(1) Fuel Return Passage. (2) Injector ID Location.
(3) Injector Body. (4) Pressure Adjusting Shims. (5) Spring.
(6) Spring Seat. (7) Valve Stop Spacer. (8) Nozzle Valve.
(9) Nozzle Body. (10) Nozzle Case Nut
2. Place the fuel injector in a soft-jawed vise with the nozzle pointing up.
3. Remove the nozzle case nut.
4. Carefully remove the injector from the vise.
4TNV98 & 4TNE98 Diesel Engine 165 Section 4. Fuel System
5. Turn the injector over and remove the nozzle body, nozzle valve, valve stop spacer, nozzle spring seat, nozzle spring, and shims.
6. Inspect the sealing surfaces (Figure 7-53, (2)) between the valve stop spacer and nozzle body for nicks or scratches. Check the contact area between the valve stop spacer and the nozzle valve (Figure 7-53, (1)) for scoring, or pitting.
Use a magnifier glass to inspect the area.
Figure 7-53
7. Perform a nozzle valve slide test:
(a) Wash nozzle body and valve in clean diesel fuel.
(b) While holding the nozzle body vertical, pull the nozzle valve about 2/3 of the way out
(Figure 7-54).
(c) Release the valve. It should fall smoothly to its seat by it’s own weight.
Figure 7-54
8. Replace the fuel injector assembly if it fails any inspection.
Adjusting Fuel Injector Pressure
The fuel injectors open when pressure reaches a predetermined pressure threshold. They close when the pressure is reduced below that threshold.
The pressure threshold can be adjusted by adding or removing shims (Figure 7-55, (3)).
Figure 7-55
(1) Fuel Return Passage. (2) Injector ID Location.
(3) Injector Body. (4) Pressure Adjusting Shims. (5) Spring.
(6) Spring Seat. (7) Valve Stop Spacer. (8) Nozzle Valve.
(9) Nozzle Body. (10) Nozzle Case Nut.
The injection pressure will change by approximately
275 psi (1.9 MPa; 19 kgf/cm²) for every 0.1 mm
(0.004 in.) in shim thickness.
4TNV98 & 4TNE98 Diesel Engine 166 Section 4. Fuel System
See the parts catalog for available shims.
CAUTION
Each pressure adjusting shim removed or added changes the pressure threshold by approximately 275 psi (1.9 MPa, 19 kgf / cm²).
Adding adjusting shims increases the threshold pressure. Removing adjusting shims reduces the pressure threshold.
1. Disassemble the fuel injector assembly. See
Disassembly and Inspection of Fuel Injectors on page 165.
2. Remove or add adjusting shims as needed.
3. Reassemble the fuel injector assembly. See
Reassembly of Fuel Injectors on page 166.
4. Retest the fuel injector. See Testing of Fuel
Injectors on page 164. If the injector cannot be adjusted to the appropriate pressure, discard the fuel injector.
Reassembly of Fuel Injectors
1. Secure the injector in a soft-jawed vise with the nozzle end up.
2. Reinstall the shims, nozzle spring, nozzle spring seat, valve stop spacer, nozzle valve, and nozzle body.
3. Reinstall the nozzle case nut. Tighten it to specification. See Special Torque Chart on page
143.
Installation of the Fuel Injectors
4-Valve Cylinder Head
1. Reinsert a new nozzle seat (Figure 7-57, (6)) and nozzle protector (Figure 7-57, (5)) in the cylinder head for each injector.
2. Reinstall a O-ring on to each injector body.
3. Reinsert each fuel injector (Figure 7-57, (4)) into the cylinder head.
4. Reinstall the fuel injector retainers (Figure 7-57,
(3)) and torque the retaining bolts (Figure 7-57,
(2)) to specification.
5. Reinstall the fuel injector return line assembly using new gaskets on each side of the injector line screws.
6. Reinstall the fuel high-pressure fuel lines to each injector and tighten the nuts using a “line” or
“flare nut” wrench.
Figure 7-57
7. Prime the fuel system. See Priming the Fuel
System on page 15.
8. Operate the engine and check for fuel and coolant leaks.
4TNV98 & 4TNE98 Diesel Engine 167 Section 4. Fuel System
4TNE98 ENGINE
Fuel System Special Torque Chart
Lubricating Oil Application
(Thread Portion and
Seat Surface)
Not Applied
Reference Page
See Installation of Fuel
Injectorson page 200
Fuel Injector
29.4 ft·lbs
(39.2 N·m, 4 kgf·m)
Fuel Pump Drive
Gear Nut
43.5 - 51.0 ft·lbs
(59 - 69 N·m,
6.0 - 7.0 kgf·m)
Measuring Instruments
No. Tool Name
Not Applied
Application
See Installation of the Fuel
Injection Pumpon page 192
Illustration
1 Fuel Injector Tester
For measuring injection spray pattern of fuel injection nozzle and injection pressure
4TNV98 & 4TNE98 Diesel Engine 168 Section 4. Fuel System
Fuel System Components
Figure 7-1
4TNV98 & 4TNE98 Diesel Engine 169 Section 4. Fuel System
Fuel System Components
Figure 7-2
Fuel is fed from the fuel tank into the fuel inlet of the injection pump by the feed pump built into the
Although the fuel pressure in the pump chamber is proportional to the pump revolution, excessive fuel injection pump via the oil separator and fuel filter.
A filter is installed for fuel filtration. A filter with an oil separator for water separation is also provided at the bottom.
Pressure is applied to feed fuel into the fuel inlet by the feed pump in order to feed fuel into the injection pump chamber. is returned to the suction system by the regulating valve when the pressure exceeds the specified value. The fuel is then sent to the plunger via the fuel path in the distributor head. The plunger applies high pressure to the fuel to feed it to the nozzle and nozzle holder through the injection pipe.
The overflow valve above the injection pump functions to maintain constant fuel temperature in the pump chamber and return excessive fuel to the fuel tank.
4TNV98 & 4TNE98 Diesel Engine 170 Section 4. Fuel System
Structure And Operation Of Fuel Injection Pump
Figure 7-3
4TNV98 & 4TNE98 Diesel Engine 171 Section 4. Fuel System
Overview
Pump
Figure 7-4
The drive shaft directly receives the engine revolution via the timing belt (or gear) and transfers it to the cam disc via the cross coupling. Since the dowel pin of the cam disc is integrated with the plunger and fixed in the groove in the plunger collar, the plunger operates at the same speed as the cam disc.
The cam disc has a face cam and conducts reciprocating operations by the specified cam lift on the roller in the roller holder assembly.
On the outside of the plunger are two plunger springs having the settling force to return the plunger lifted by the cam disc during the lowering process. Thus, the plunger revolves by means of the drive shaft and the reciprocates by means of the cam disc. When the fuel fed under high pressure by the plunger reaches the outlet port, the delivery valve opens to inject it into the engine combustion chamber via the nozzle and nozzle holder.
Governor
Figure 7-5
The governor is located above the inspection pump chamber and mainly consists of a flyweight holder and governor lever assembly. The flyweight holder holds four flyweights and governor sleeves, and is supported by the governor shaft.
The drive gear engages with the flyweight holder gear to increase the revolutions of the drive shaft and to turn the flyweight holder assembly. The governor lever assembly is secured by the pivot bolt of the pump housing and the ball pin at the bottom of the assembly is inserted into the control sleeve which slides on the outer periphery of the plunger. The governor spring at the top of the assembly is connected to the tension lever by the retaining pin. The end of the governor spring is connected to the control lever via the control lever shaft. The control lever is linked to the acceleration pedal via the link to change the set force of the governor spring according to the inclined angle.
The difference between the governor spring set force and the flyweight centrifugal force determines the moving distance of the control sleeve, thereby increasing or decreasing the fuel injection volume.
4TNV98 & 4TNE98 Diesel Engine 172 Section 4. Fuel System
Timer
Figure 7-6
At the bottom of the injection pump is the built-in timer. A timer spring having a set force is installed on the low pressure side of the timer piston. The fuel pressure in the pump chamber is directly applied to the other end (high pressure side) of the timer piston. The position of the timer piston changes according to the balance between the fuel pressure and the timer spring force to turn the roller holder via the roller holder pin. When the piston moves in the direction to compress the timer spring, the roller holder moves in the advance direction
(counter-revolution direction) to early the injection timing. Thus, the timer controls the fuel injection timing according to the fuel pressure in the pump chamber.
Feed Pump (Vane Type)
Figure 7-7
The feed pump functions to feed fuel from the fuel tank to the pump chamber.
The feed pump consists of the rotor, blade (vane) and liner. The rotor is driven by the drive shaft. The liner is located eccentrically to the center of the rotor and four blades (vanes) are located between the rotor and liner. When the rotor turns, the blades are pressed onto the liner inner wall by centrifugal force to change the capacity of the chambers according to the revolutions. When the capacity of a chamber increases, it draws fuel from the fuel tank.
When the capacity decreases, it feeds fuel into the pump chamber.
4TNV98 & 4TNE98 Diesel Engine 173 Section 4. Fuel System
Regulating Valve
Figure 7-8
The regulating valve regulates the fuel feeding pressure of the feed pump so that the fuel pressure in the pump chamber is maintained within the specified pressure range.
When the injection pump revolutions increase to increase the fuel feeding pressure of the feed pump, the fuel compresses the regulating valve spring to lift the piston. The fuel is then returned to the suction side as shown by the arrow in the figure.
It is therefore possible to regulate the pump chamber pressure by changing the set force of the regulating valve spring.
Figure 7-9
Figure 7-9 shows typical relationships between pump revolutions and pump chamber pressure. The hydraulic timer directly uses the pump chamber pressure for controlling the injection timing.
4TNV98 & 4TNE98 Diesel Engine 174 Section 4. Fuel System
Plunger Operation
Figure 7-3
The drive shaft simultaneously drives the feed pump, cam disc and plunger. The plunger spring presses the plunger and cam disc onto the roller.
When the cam disc turns by means of the drive shaft, the face cam moves on the roller to activate the plunger’s reciprocating operation. When the inlet port of the plunger barrel being pressed into the distributor head and the inlet slit of the plunger overlap, the plunger draws fuel and applies pressure to it.
When the outlet port of the plunger barrel and the outlet slit of the plunger align, the high-pressure fuel opens the delivery valve to be injected into the engine combustion chamber via the nozzle. When the cutoff port reaches the control sleeve, pressure feeding from the plunger is terminated.
4TNV98 & 4TNE98 Diesel Engine 175 Section 4. Fuel System
Process
Suction Process
Figure 7-10
Figure 7-11
When the inlet port of the plunger barrel overlaps the inlet slit of the plunger during the lowering process of the plunger, the fuel in the pump chamber is drawn into the plunger.
Injection Process
Figure 7-12
Figure 7-13
The plunger begins rotating at the same time the lifting process of the cam disc begins. When the inlet port of the plunger barrel is covered by the plunger, pressure feeding of fuel is initiated. At the same time, the highly pressurized fuel presses up the delivery valve when the outlet slit of the plunger meets the outlet port of the plunger barrel. The fuel is then injected into the engine combustion chamber via the nozzle and nozzle holder.
4TNV98 & 4TNE98 Diesel Engine 176 Section 4. Fuel System
End of Injection
Figure 7-14
Figure 7-15
When the plunger is further lifted up by the cam disc until the cutoff port of the plunger just overruns the control sleeve, the high-pressure fuel in the plunger high-pressure chamber returns to the pump chamber through the cutoff port. As a result, the fuel pressure in the plunger becomes lower than the set force of the delivery valve spring, so, the delivery valve closes to terminate pressure feeding of fuel.
Uniform Pressure Process
Figure 7-16
Figure 7-17
When the plunger turns a further 180° after the end of fuel injection, the uniform pressure slit of the plunger meets the outlet port of the plunger barrel.
As a result, the pump chamber is connected to the outlet port, thereby making the pressure in the chamber and outlet port equal. After the uniform pressure process, the pressure in the outlet port becomes uniform, ensuring stable fuel injection.
The suction process through the uniform pressure process are carried out for each cylinder during every injection cycle.
4TNV98 & 4TNE98 Diesel Engine 177 Section 4. Fuel System
Reverse Rotation Prevention
Mechanism
Figure 7-18
While the plunger is rotating in the correct direction, the fuel is sufficiently drawn into the plunger since the inlet port of the plunger barrel opens during the plunger lowering process. The inlet port closes during the lifting process to inject the fuel.
On the contrary, the inlet port of the plunger barrel does not close during the plunger lifting process if the engine rotates in the reverse direction. So, the fuel is not pressurized, resulting in non-injection state.
Fuel Injection Volume Adjustment
Mechanism
Figure 7-19
The fuel injection volume is increased or decreased by changing the control sleeve position, resulting in change of the effective stroke. The effective stroke represents the plunger’s stroke from the time the inlet port and inlet slit close until the cutoff port overruns the control sleeve, which is proportional to the fuel injection volume. When the control sleeve moves to the left, the effective stroke (I
2
) decreases.
When the control sleeve moves in the opposite direction, or to the right, the effective stroke (I
1
) increases to increase the fuel injection volume. The control sleeve position is determined according to the governor control.
4TNV98 & 4TNE98 Diesel Engine 178 Section 4. Fuel System
Delivery Valve Assembly
Figure 7-20
The delivery valve assembly consists of the delivery valve and valve seat.
When the pressure of the high-pressure fuel being fed from the plunger exceeds the force of the delivery valve spring, the delivery valve opens to feed the high-pressure fuel to the nozzle and nozzle holder via the injection pipe. After injection, a certain degree of remaining pressure exists in the injection pipe ready for the next injection. The delivery valve prevents the fuel remaining in the injection pile from returning to the plunger.
If the remaining pressure is excessively high, cutoff of the fuel may be adversely affected.
The delivery valve also functions to improve fuel cutoff of the nozzle by drawing back the fuel in the pipe by the amount equal to the suck-back stroke of the piston.
Delivery Valve Holder with Damping
Valve
Figure 7-21
The delivery valve holder with damping valve functions to prevent cavitation erosion in the pipe at high speed, unstable fuel injection and secondary injection.
When high-pressure fuel is fed from the plunger, it is mainly sent to the nozzle through the outer periphery of the damping valve since the damping valve also opens at the same time as the delivery valve upon completion of each injection cycle.
So, the only fuel path left is the small orifice of the damping valve. This permits the slow closing of the delivery valve. Thus, rapid pressure decrease in the pipe is prevented and transfer of the reflection wave in the pipe suppressed to ensure stable injection.
NOTE: Cavitation represents the phenomenon where bubbles are generated in the pipe when the pressure in the pipe drops. Cavitation erosion means erosion of the pipe inner wall as a result of cavitation.
4TNV98 & 4TNE98 Diesel Engine 179 Section 4. Fuel System
All - Speed Governor
Figure 7-22
Figure7-22 shows the composition of the all-speed governor.
Revolution of the shaft is transferred to the flyweight holder acceleration gear via the drive gear to turn the flyweight holder.
The flyweight holder is supported by the governor shaft. There are four flyweights in the holder which are installed in such a way that they open outwardly by means of centrifugal force.
The flyweight movement presses the governor sleeve and presses the governor lever assembly to the right. The governor lever assembly mainly consists of the corrector leer, tension lever and start lever. Corrector lever fulcrum M, is fixed by the pivot bolt of the pump housing. Furthermore, the corrector lever cannot move since it is pressed both by the spring at the bottom and the full load adjusting screw at the top. The tension and start levers move around shaft M
2 on the corrector lever.
as the fulcrum fixed
Figure 7-23
The start spring presses the start lever into the governor sleeve at engine start. The start lever turns counterclockwise around fulcrum M
2
to move the control sleeve to the start offset position.
4TNV98 & 4TNE98 Diesel Engine 180 Section 4. Fuel System
The start and tension levers contact each other and move together during engine operation. Above the tension lever is the governor spring which is connected to the control lever. Movement of the control lever is capable of changing the set force of the governor spring. On the upper back of the tension lever is the idle spring.
The governor is controlled at all speeds by means of the start, governor and idle springs.
Figure 7-24
Figure7-24 shows the typical injection volume control characteristics of the all-speed governor.
4TNV98 & 4TNE98 Diesel Engine 181 Section 4. Fuel System
At Start of Engine
Figure 7-25
It is necessary to increase the injection volume in order to improve the starting characteristics at engine start.
When the accelerator pedal is pressed while the engine is stopped, the tension lever is pulled until it comes into contact with press-in pin M
3 spring force.
by governor
At the same time, the start lever is released from the tension lever by the start spring force to press the governor sleeve to the left. THe flyweight then closes completely and the start lever moves the control sleeve to the start increasing position (to the right) with M
2
being the fulcrum.
Thus, the engine can be started easily by lightly pressing down on the accelerator pedal.
4TNV98 & 4TNE98 Diesel Engine 182 Section 4. Fuel System
During Idling
Figure 7-26
When the engine starts and the accelerator pedal is released, the control lever returns to the idle position and the tension of the governor spring becomes zero. Therefore, the flyweight opens outwardly even at low revolutions to move the governor sleeve to the right.
This makes the start lever turn clockwise with M
2 being the fulcrum to move the control sleeve in the direction to reduce the fuel volume. The governor sleeve stops at a point where the flyweight centrifugal and idle spring force are balanced to ensure stable idling.
4TNV98 & 4TNE98 Diesel Engine 183 Section 4. Fuel System
At Full-Load Maximum Speed Control
Figure 7-27
When the accelerator pedal is pressed down all the way and the control lever comes into contact with the maximum speed stopper bolt, the tension of the governor spring becomes maximum.
At this time, the tension lever is fixed at the position where is contacts pin M
3
being pressed into the pump housing. The idle spring is completely compressed to connect the start lever and the tension lever at point A, thereby holding the control sleeve at the full-load position. At this time, the flyweight is pressed by the governor sleeve and is in the completely closed state.
4TNV98 & 4TNE98 Diesel Engine 184 Section 4. Fuel System
At No-Load Maximum Speed Control
Figure 7-28
When the engine revolutions increase and the flyweight centrifugal force exceeds the governor spring set force, the governor sleeve moves to make the governor lever assembly turn clockwise with fulcrum M
2
. As a result, the control sleeve moves in the direction of no-injection (to the left) for controlling speed so as not to exceed the full-load maximum speed.
When the accelerator pedal is not pressed down fully, the set force of the governor spring changes accordingly in order to achieve governor control based on the governor spring set force during partial load operation.
4TNV98 & 4TNE98 Diesel Engine 185 Section 4. Fuel System
Full-Load Position Adjustment
Mechanism
Figure 7-29
The full-load position is determined by the amount the full-load adjusting screw is driven. When the screw is driven, the corrector lever turns counterclockwise with M
1
being the fulcrum to move the control sleeve to the fuel increase direction.
When the screw is loosened, the control sleeve moves to the fuel decrease direction.
4TNV98 & 4TNE98 Diesel Engine 186 Section 4. Fuel System
Structure And Operation Of Timer
The ignition period which occurs in the combustion process of a diesel engine tends to increase as the speed becomes higher.
Consequently, the timer is installed under the injection pump in order to correct the ignition delay period by shortening the injection timing of the injection pump.
Standard Type Automatic Timer
As shown in Figure7-30, the inside of the timer housing is separated into low and high pressure sides, the latter directly receiving the pump chamber pressure. A timer spring having a set force is installed in the low pressure side. The timer piston slides horizontally based on the balance between the spring force and changes in the pump
Figure 7-30
When pump revolutions increase and the pump chamber pressure exceeds the set force of the chamber pressure. The movement of the timer piston turns the roller holder assembly via the pin. timer spring, the timer piston moves in the direction to compress the spring ([B] in Figure7-30). This turns the roller holder assembly in the reverse direction of pump revolution via the pin. This causes the crest of the cam disc to quickly approach the roller position of the roller holder, to advance the injection timing. On the contrary, when pump revolutions decrease and the timer spring force exceeds the pump chamber pressure, the timer piston moves in the direction to delay the timing.
4TNV98 & 4TNE98 Diesel Engine 187 Section 4. Fuel System
Magnetic Valve (Stop Solenoid)
Figure 7-31
The magnetic valve (stop solenoid) turns on or off as the ignition switch of the vehicle is operated to open or close the fuel path connected to the inlet port of the plunger barrel.
When the ignition switch is turned on, power is supplied to the magnetic valve to lift the armature, thus opening the fuel path.
On the contrary, when the ignition switch is turned off, the armature is powered by the force of the spring installed in the armature to close the fuel path. As a result, no fuel is fed to the plunger, stopping the engine immediately.
4TNV98 & 4TNE98 Diesel Engine 188 Section 4. Fuel System
Removal Of Fuel Injection Pump
1. Remove fuel supply line from the fuel injection pump.
2. Remove fuel injector return line.
3. Remove fuel tank return line.
4. Disconnect the electrical connection to the magnetic valve (stop solenoid) (Figure7-32, (1)).
Figure 7-32
5. Disconnect the throttle linkage.
6. Remove the high pressure fuel lines.
• First loosen the high pressure fuel line nuts
(Figure7-32, (2)) at the fuel injectors.
CAUTION
When loosening or tightening the lines at the fuel injectors, you must hold the fuel injector with a second wrench to prevent the injector from turning and damaging the fuel return line fitting.
• Then loosen the high pressure fuel line nuts
(Figure7-32, (3)) on the fuel injection pump.
• Finish loosening all the high pressure fuel line nuts and remove the fuel lines as an assembly.
Be careful not to bend any of the fuel lines.
CAUTION
Remove the high-pressure fuel injection lines as an assembly whenever possible.
Disassembling the high-pressure fuel injection lines from the retainers or bending any of the fuel lines will make it difficult to reinstall the fuel lines.
NOTE: It is necessary to remove the bolt (Figure7-
33, (1)) holding the dipstick tube clamp. Rotate the dipstick tube to one side to allow you to remove the high pressure fuel line assembly.
Figure 7-33
7. Remove the two bolts (Figure7-34, (1)) from the
L-shaped brackets that holds the injection pump at the bottom / rear.
4TNV98 & 4TNE98 Diesel Engine 189 Section 4. Fuel System
Figure 7-34
• Loosen the bolt (Figure7-34, (2)) that fastens the remaining bracket to the cylinder block and pivot down and away from the injection pump.
8. Loosen the alternator adjusting bolt and pivot the alternator toward the engine.
CAUTION
PINCH HAZARD!
Carefully rotate the alternator toward the cylinder block while loosening the V-belt.
Failure to comply may result in minor or moderate injury.
9. Remove the cooling fan (Figure7-35, (1)), spacer
(if equipped) (Figure7-35, (2)) and V-belt
(Figure7-35, (3)).
Figure 7-35
10. Remove the seven bolts from the fuel injection pump cover (Figure7-36, (1)) on the front gear case. Remove the cover.
NOTE: The cover is secured with an adhesive sealant. Use a gasket scraper to separate the cover from the gear case.
Figure 7-36
11. To aid in reassembly, mark one tooth on the idle gear and two teeth on the pump drive gear with a dot of white paint. See (Figure 7-37).
4TNV98 & 4TNE98 Diesel Engine 190 Section 4. Fuel System
CAUTION
Do not rotate the engine with the injection pump removed.
Figure 7-37
Also make matching marks (Figure7-38, (1)) on the rear of the gear case housing and on the fuel injection pump mounting flange before loosening the injection pump mounting nuts.
Figure 7-38
12. While holding the engine from turning with a wrench on the crankshaft pulley bolt, remove the pump drive gear retaining nut (Figure7-39,
(1)) and lock washer (Figure7-39, (2)).
Figure 7-39
13. Using a two-bolt gear puller, remove the injection pump drive gear (Figure7-39, (3)) from the injection pump shaft.
NOTE: The injection pump shaft is tapered with a woodruff key. Once you have applied some pressure with the puller. A slight hammer “tap” on the center puller bolt will help “pop” the gear from the shaft.
14. Remove the three nuts securing the fuel injection pump to the rear of the gear case.
15. Remove the fuel injection pump.
16. If the fuel injection pump requires servicing, it must be taken to an authorized ZEXEL fuel injection shop.
4TNV98 & 4TNE98 Diesel Engine 191 Section 4. Fuel System
Installation Of The Fuel Injection
Pump
1. Secure the fuel injection pump mounting flange to the rear of the gear case housing with three nuts. Be sure to match the marks (Figure7-40,
(1)) on the rear of the gear case housing and on the fuel injection pump mounting flange.
Figure 7-40
2. Install the injection pump drive gear (Figure7-42,
(3)) on the injection pump shaft lining up the two marks you made on the pump drive gear with the mark you made on the idle gear. See (Figure7-
37).
Figure 7-41
3. Install the drive gear retaining nut (Figure7-42,
(1)) and washer (Figure7-42, (2)). While holding the engine with a wrench on the crankshaft pulley bolt, torque the retaining nut to 43.5 - 51 ft lbs (59-69 N·m, 5 - 5.4 kgf·m).
Figure 7-42
4. Thoroughly clean all old sealant from the fuel injection pump cover (Figure7-43, (1)) and gear case housing. Apply ThreeBond, Yanmar Part No.
977770-01212, or equivalent sealant to the fuel injection pump cover. Install the fuel injection pump cover on the front gear case with seven bolts. Tighten the bolts to the specified torque.
4TNV98 & 4TNE98 Diesel Engine 192 Section 4. Fuel System
Figure 7-43
5. Reinstall the cooling fan (Figure7-44, (1)), spacer (if equipped) (Figure7-44, (2)) and V-belt
(Figure7-44, (3)).
Figure 7-44
6. Pivot the alternator away from the engine and adjust the V-belt tension. See Check and Adjust
Cooling Fan V-belt on page 47.
7. Tighten the alternator adjusting bolt. See Check and Adjust Cooling Fan V-belt on page 47.
8. Pivot the bracket that fastens the fuel injection pump to the cylinder back up and toward the fuel injection pump. Retighten the bolt (Figure 7-45,
(2)) that fastens it to the cylinder block.
Figure 7-45
9. Reinstall the two bolts (Figure7-45, (1)) to the Lshaped bracket that holds the injection pump at the bottom / rear. Tighten the two bolts and the bolt that secures the bracket to the cylinder block to specified torque.
10. Reinstall the high pressure fuel lines.
• Replace the high pressure fuel lines as an assembly. Be careful not to bend any of the high pressure fuel lines.
• Start all the high pressure fuel line nuts by hand, leaving those nuts on the fuel injection pump and fuel injectors untightened.
• Tighten the high pressure fuel line nuts
(Figure7-46, (2)) on the fuel injection pump.
• Tighten the high pressure fuel line nuts
(Figure7-46, (1)) on the fuel injectors.
4TNV98 & 4TNE98 Diesel Engine 193 Section 4. Fuel System
Figure 7-46
11. Reconnect the throttle linkage.
12. Reconnect the electrical connection to the magnetic valve (stop solenoid) (Figure7-46, (1)).
13. Reinstall fuel tank return line.
14. Reinstall fuel injector return line.
15. Reinstall fuel supply line to the fuel injection pump.
16. Prime the fuel system and check for leaks.
Checking / Adjustment Of Fuel
Injection Timing
1. Using a wrench on the front crankshaft pulley bolt, rotate the engine clockwise until the timing mark on the crankshaft pulley is aligned with the
“O” or TDC (Top Dead Center) mark on the timing grid of the gear case cover.
2. Remove the center bolt (Figure7-47, (1)) and sealing washer from the rear of the fuel injection pump.
Figure 7-47
3. Locate Yanmar timing tool (P/N 119770-02020)
(Figure7-48, (1)). Install a dial indicator into the timing tool.
Figure 7-48
4TNV98 & 4TNE98 Diesel Engine 194 Section 4. Fuel System
4. Install Yanmar timing tool (Figure7-49, (1)), into the port where the bolt was removed. This will provide a reading of the injection pump plunger lift.
Figure 7-49
5. Rotate the engine about 25° in the counterclockwise direction. The dial indicator should move for approximately the first 10° of engine rotation and then stop. When you reach approximately the 25° position, rotate the engine slightly back and forth to make sure the needle of the dial indicator does not move.
6. Set the dial indicator to “0”.
7. Rotate the engine in the clockwise rotation until the timing mark on the crankshaft pulley is aligned with the mark at 4, 6 and 8.5° ATDC
(After Top Dead Center) on the timing grid on the gear case cover.
8. 5deg ATDC.8.If the injection timing is correct, the dial indicator should read 0.038 - 0.041 in (0.97 -
1.03 mm).
9. If the injection timing is not correct, loosen the three fuel Injection pump mounting nuts and the bolts retaining the bottom / rear L-shaped injection pump mounting brackets. Rotate the injection pump to bring the dial indicator reading into the correct range.
4TNV98 & 4TNE98 Diesel Engine 195
10. Then retighten the pump mounting nuts and the mounting bracket bolts.
NOTE: Rotating the injection pump away from the engine advances the injection timing. Rotating the injection pump toward the engine retards the injection timing.
11. Remove the timing tool and dial indicator.
Replace and tighten the center bolt and sealing washer into the injection pump port.
Section 4. Fuel System
Servicing The Fuel Injectors
Removal of the Fuel Injectors
1. Remove the high pressure fuel lines.
Figure 7-50
• First just loosen the high pressure fuel line nuts
(Figure7-50, (2)) at the fuel injectors.
CAUTION
When loosening or tightening the lines at the fuel injectors, you must hold the fuel injector with a second wrench to prevent the injector from turning and damaging the fuel return line fitting.
• Then loosen the high pressure fuel line nuts
(Figure7-50, (3)) on the fuel injection pump.
• Finish loosening all the high pressure fuel line nuts and remove the fuel lines as an assembly.
Be careful not to bend any of the fuel lines.
CAUTION
Remove the high-pressure fuel injection lines as an assembly whenever possible.
Disassembling the high-pressure fuel injection lines from the retainers or bending any of the fuel lines will make it difficult to reinstall the fuel lines.
NOTE: It is necessary to remove the bolt (Figure7-
51, (1)) holding the dipstick tube clamp. Rotate the dipstick tube to one side to allow you to remove the high pressure fuel line assembly.
Figure 7-51
2. Unscrew the fuel injectors from the cylinder head.
Also remove the two copper washers and the nozzle protectors that will remain in the cylinder head.
4TNV98 & 4TNE98 Diesel Engine 196 Section 4. Fuel System
Inspection and Testing of the Fuel
Injectors
Visually inspect the fuel injectors and nozzle protectors for deposits or damage. Clean and repair as necessary.
Test Procedure Using a Nozzle Tester
1. Visually inspect the fuel injectors and nozzle protectors for deposits or damage. Clean, repair or replace as necessary.
2. Test the fuel injector using an injection nozzle tester. Use clean, filtered fuel or F.I.E. calibration fluid for the test.
3. Using the correct adaptor, connect the fuel injector to the high-pressure pipe of the nozzle tester. Aim the fuel injector into a suitable container to catch the fuel spray.
WARNING
• Never inject fuel towards you. Since the fuel in injected at high presure from the nozzle, it may penetrate the skin, resulting in injury.
• Never inject fuel towards a fire source.
Atomized fuel is highly flammable and may cause fire or skin burning.
4. Pump the operating lever of the tester slowly, observing the pressure reading at the point where the fuel injector begins spraying fuel. The fuel injectors for these engines should begin spraying fuel at 1711 - 1914 PSI (11.8 - 13.2
MPa). The opening pressure may be adjusted by adding or subtracting internal fuel injector shims.
Figure 7-52
5. Adding or removing a 0.1 mm shim (shims are available in 0.4 mm increments) changes the pressure by 174 - 319 PSI (1.2 - 2.2 MPa).
Figure 7-53
6. Pump the operating lever more rapidly to repeatedly “pop” the injector and observe the spray pattern. See Judgement Criteria on
Atomization Conditionon page7-37 for examples of “good” and “bad” spray patterns.
7. Finally. Pump the operating lever slowly to hold the pressure steady at a point just below the
“pop off” pressure point. Observe the injector to see that it is sealing properly and is not
“dripping”.
4TNV98 & 4TNE98 Diesel Engine 197 Section 4. Fuel System
Figure 7-54
8. If the fuel injector fails any of these tests, it should be repaired or replaced as necessary.
4TNV98 & 4TNE98 Diesel Engine 198 Section 4. Fuel System
Judgement Criteria on Atomization Condition
A B C D E
Injection
Pattern
Pressure
Gauge
Reading
Pointer fluctuate around the valve opening pressure.
Same as A. Pointer stays at a position near the valve opening pressure.
Although the pointer reaches the valve opening pressure, the pressure drop is large.
Pressure does not increase even when the tester lever is
Atomization
Pattern
Roughly uniform. Atomization is excessively one sided.
Although atomized, the needle does not pulsate (burner like shape).
Bar shape with excessive after drops.
Drops (bar shape).
Possible
Cause
(Normal) 1. Normally caused by carbon contamination of the nozzle tip.
2. Sometimes caused by flaws in or damage to the needle tip.
1. Caused by excessive carbon contamination of the nozzle tip.
2. Sometimes caused by contamination
.
1. Damage to the seat.
2. Contamination of seat by fine foreign particles.
3. Excessively worn seat.
1. Sticking of needle.
2. Excessively damaged or worn seat.
3. Contamination of seat by foreign matter.
4. Damaged or broken internal parts od nozzle holder.
4TNV98 & 4TNE98 Diesel Engine 199 Section 4. Fuel System
Cleaning of Nozzle
1. Clean the exterior of the nozzle, taking care not to damage the needle.
2. Pull out the needle and clean carefully so as not to damage it. Avoid use of hard, metallic tools.
3. Check for dents, damage, rusting and wear. Pay special attention to the stem and seat of the needle.
4. When setting the needle on the nozzle body after thorough cleaning, check that it falls by its own weight.
Installation of Fuel Injectors
1. Install a new copper gasket at the bottom of the injector well.
2. Install the nozzle protector in the injector well.
3. Install the second copper gasket on top of the nozzle protector.
4. Install the fuel injectors. Torque to 29.4ft·lb
(39.2N·m).
5. Install the fuel return line fitting using new copper gaskets.
6. Tighten the fuel return line retaining nuts to
32.5ft·lb (44.1N·m).
CAUTION
When loosening or tightening the lines at the fuel injectors, you must hold the fuel injector with a second wrench to prevent the injector from turning and damaging the fuel return line fitting.
7. Reinstall the high pressure fuel lines and fuel return line.
• Replace the high pressure fuel lines as an assembly. Be careful not to bend any of the high pressure fuel lines.
• Start all the high pressure fuel line nuts by hand, leaving those nuts on the fuel injection pump and fuel injectors untightened.
• Tighten the high pressure fuel line nuts
(Figure7-55, (2)) on the fuel injection pump.
• Tighten the high pressure fuel line nuts
(Figure7-55, (1)) on the fuel injectors.
Figure 7-55
8. Prime the fuel system and check for leaks.
4TNV98 & 4TNE98 Diesel Engine 200 Section 4. Fuel System
Section 5. COOLING SYSTEM
Before You Begin Servicing
DANGER WARNING
SCALD HAZARD!
NEVER remove the radiator cap if the engine is hot. Steam and hot engine coolant will spurt out and seriously burn you. Allow the engine to cool down before you attempt to remove the radiator cap.
Tighten the radiator cap securely after you check the radiator. Steam can spurt out during engine operation if the cap is loose.
ALWAYS check the level of the engine coolant by observing the reserve tank.
Failure to comply will result in death or serious injury.
ENTANGLEMENT HAZARD!
Stop the engine before you begin to service it.
NEVER leave the key in the key switch when you are servicing the engine. Someone may accidentally start the engine and not realize you are servicing it. This could result in a serious injury.
If you must service the engine while it is operating, remove all jewelry, tie back long hair, and keep your hands, other body parts and clothing away from moving/rotating parts.
Failure to comply could result in death or serious injury.
WARNING
WARNING
BURN HAZARD!
Wait until the engine cools before you drain the engine coolant. Hot engine coolant may splash and burn you.
Failure to comply could result in death or serious injury.
FUME / BURN HAZARD!
Always read and follow safety related precautions found on containers of hazardous substances like parts cleaners, primers, sealants and sealant removers.
Failure to comply could result in death or serious injury.
4TNV98 & 4TNE98 Diesel Engine 201 Section 5. Cooling System
WARNING
BURN HAZARD!
If you must drain the engine oil while it is still hot, stay clear of the hot engine oil to avoid being burned.
ALWAYS wear eye protection.
Failure to comply could result in death or serious injury.
CAUTION
FLYING OBJECT HAZARD!
ALWAYS wear eye protection when servicing the engine and when using compressed air or high-pressure water. Dust, flying debris, compressed air, pressurized water or steam may injure your eyes.
Failure to comply may result in minor or moderate injury.
CAUTION
PINCH HAZARD!
Carefully rotate the alternator toward the cylinder block while loosening the V-belt.
Failure to comply may result in minor or moderate injury.
CAUTION
Only use the engine coolant specified. Other engine coolants may affect warranty coverage, cause an internal buildup of rust and scale and/or shorten engine life.
Prevent dirt and debris from contaminating the engine coolant. Carefully clean the radiator cap and the surrounding area before you remove the cap.
NEVER mix different types of engine coolants.
This may adversely affect the properties of the engine coolant.
CAUTION
If the engine coolant pump must be replaced, replace the engine coolant pump as an assembly only. Do not attempt to repair the engine coolant pump or replace individual components.
CAUTION
Use a new special O-ring between the engine coolant pump and the joint. Be sure to use the special O-ring for each engine model. Although the O-ring dimensions are the same as a commercially available O-ring, the material is different.
4TNV98 & 4TNE98 Diesel Engine 202 Section 5. Cooling System
Introduction
This section of the Service Manual describes the procedures necessary to service the 4TNV84 engine coolant pump. This engine coolant pump is representative of the coolant pumps used on other TNV model engines.
For specific part detail, see the parts catalog for the engine you are working on.
Cooling System Diagram
Figure 8-1
(1) Cylinder Head. (2) Thermostat. (3) Engine Coolant Pump. (4) Radiator. (5) Coolant Recovery Tank. (6) Engine Oil Cooler*
(7) Cylinder Block
* Not standard on all models.
4TNV98 & 4TNE98 Diesel Engine 203 Section 5. Cooling System
Engine Coolant Pump Components
Figure 8-2
(1) Thermostat Cover. (2) Thermostat Cover Gasket. (3) Thermostat. (4)Thermostat O-Ring. (5) Special O-Ring.
(6) Engine Coolant Pump. (7) Temperature Switch. (8) Gasket. (9) Engine Coolant Pump Gasket. (10) V-Belt.
(11) Engine Coolant Pump V-Pulley. (12) Spacer. (13) Engine Coolant Fan
4TNV98 & 4TNE98 Diesel Engine 204 Section 5. Cooling System
Engine Coolant System Check
Check the engine coolant system for leakage.
1. With the radiator properly filled, install a cooling system tester (Figure 8-3, (1)).
Figure 8-3
2. Apply 10.8-14.8 psi (75-105 kPa; 0.75-1.05 kgf/cm²) to the cooling system. If the pressure reading drops, the engine coolant system is leaking. Identify the source of the leak and repair it.
Engine Coolant Pump
Removal of Engine Coolant Pump
Verify the condition of the engine coolant pump before disassembling it from the engine. Check the engine coolant pump shaft bearing for abnormal noise, sticking, excessive play and water leakage.
Replace the coolant pump if any of these conditions are present.
CAUTION
If the engine coolant pump must be replaced, replace the engine coolant pump as an assembly only. Do not attempt to repair the engine coolant pump or replace individual components.
IMPORTANT
Make sure the engine and engine coolant are not hot.
1. Before removing the engine coolant pump or thermostat, it will be necessary to drain the engine coolant. Drain the coolant into a clean container if the coolant is to be reused.
Otherwise, properly dispose of the coolant.
2. Remove the radiator cap (Figure 8-4, (1)).
3. Remove the drain plug or open the drain cock
(Figure 8-4, (1)) at the lower portion of the radiator and drain the coolant.
Figure 8-4
4. Drain the coolant from the engine block.
• On models equipped with an oil cooler, remove the coolant hose (Figure 8-5, (1)) at the oil cooler.
Figure 8-5
4TNV98 & 4TNE98 Diesel Engine 205 Section 5. Cooling System
• On models not equipped with an oil cooler, remove the coolant drain plug (Figure 8-6, (1)) from the engine block.
Figure 8-6
5. Loosen the alternator mounting bolts. Loosen and remove the V-belt and rotate the alternator away from the engine and out of the way.
CAUTION
PINCH HAZARD!
Carefully rotate the alternator toward the cylinder block while loosening the V-belt.
Failure to comply may result in minor or moderate injury.
6. Remove the engine coolant fan guard (if equipped), engine coolant fan (Figure 8-7, (1)), spacer (Figure 8-7, (2)) and engine coolant pump V-pulley (Figure 8-7, (3)).
Figure 8-7
7. Disconnect the coolant hoses and the temperature switch lead wire from the engine coolant pump.
8. Remove the engine coolant pump (Figure 8-7,
(4)). Discard the gasket.
4TNV98 & 4TNE98 Diesel Engine 206 Section 5. Cooling System
Disassembly of Engine Coolant Pump
1. Remove the thermostat cover (Figure 8-8, (1)).
Discard the gasket.
Figure 8-8
2. Remove the thermostat (Figure 8-8, (2)). Discard the O-ring. Remove the temperature switch
(Figure 8-8, (3)) and gasket (Figure 8-8, (4)).
Discard the gasket.
Cleaning and Inspection
Thermostat
1. Check for proper operation of the thermostat.
Place the thermostat (Figure 8-10, (1)) and an accurate thermometer (Figure 8 -10, (2)) in warm water.
Figure 8-10
2. Slowly increase the temperature of the water using an external heat source.
3. The thermostat is operating properly if it starts to open at the temperature value stamped on the flange of the thermostat, and fully opens as the temperature of the water is increased.
Radiator Cap
1. Check for proper operation of the radiator cap.
Install the radiator cap (Figure 8-11, (1)) on a cooling system tester.
Figure 8-11
2. Apply 10.8 - 14.8 psi (75 - 105 kPa; 0.75 - 1.05 kgf/cm²) to the radiator cap. The radiator cap relief valve must open within the specified range.
4TNV98 & 4TNE98 Diesel Engine 207 Section 5. Cooling System
Reassembly of Engine Coolant Pump
1. Reinstall the thermostat (Figure 8-12, (1)) and a new O-ring.
Figure8-12
2. Reinstall the thermostat cover (Figure 8-12, (2)) and a new gasket. Tighten the thermostat cover bolts.
3. Reinstall the temperature switch (Figure 8-12,
(3)) and a new gasket (Figure 8-12, (4)).
Installation of Engine Coolant Pump
1. Position the engine coolant pump on the engine and install a new gasket. Install a new special Oring (Figure 8-12, (5)) on assembly between the engine coolant pump and the joint.
CAUTION
Use a new special O-ring between the engine coolant pump and the joint. Be sure to use the special O-ring for each engine model. Although the O-ring dimensions are the same as a commercially available O-ring, the material is different.
2. Reinstall the engine coolant pump bolts. Tighten the bolts.
3. Inspect and reinstall the coolant hoses and the temperature switch lead wire.
4. Reinstall the engine coolant pump V-pulley
(Figure 8-13, (1)), spacer (Figure 8-13, (2)) engine coolant fan (Figure 8-13, (3)) and engine coolant fan guard (if equipped).
Figure 8-13
4TNV98 & 4TNE98 Diesel Engine 208 Section 5. Cooling System
5. Inspect the condition of the V-belt. There must be clearance (Figure 8-14, (1)) between the V-belt and the bottom of the pulley groove. If there is no clearance (Figure 8-14, (2)) between the V-belt and the bottom of the pulley groove, replace the
V-belt.
Figure 8-14
6. Reinstall the V-belt. Tighten the V-belt to the proper tension. See Check and Adjust Cooling
Fan V-Belt on page 47.
7. Reinstall and tighten the drain plug or close the drain cock in the radiator. Reinstall and tighten the engine block drain plug or reconnect the coolant hose at the oil cooler.
8. Fill the radiator and engine with engine coolant.
See Drain, Flush and Refill Cooling System With
New Coolant on page 59.
CAUTION
Only use the engine coolant specified. Other engine coolants may affect warranty coverage, cause an internal buildup of rust and scale and/or shorten engine life.
Prevent dirt and debris from contaminating the engine coolant. Carefully clean the radiator cap and the surrounding area before you remove the cap.
NEVER mix different types of engine coolants.
This may adversely affect the properties of the engine coolant.
4TNV98 & 4TNE98 Diesel Engine 209 Section 5. Cooling System
Section 6. LUBRICATION SYSTEM
Before You Begin Servicing
WARNING WARNING
ENTANGLEMENT HAZARD!
Stop the engine before you begin to service it.
NEVER leave the key in the key switch when you are servicing the engine. Someone may accidentally start the engine and not realize you are servicing it. This could result in a serious injury.
If you must service the engine while it is operating, remove all jewelry, tie back long hair, and keep your hands, other body parts and clothing away from moving/rotating parts.
Failure to comply could result in death or serious injury..
BURN HAZARD!
Keep your hands and other body parts away from hot engine surfaces such as the muffler, exhaust pipe, turbocharger (if equipped) and engine block during operation and shortly after you shut the engine down. These surfaces are extremely hot while the engine is operating and could seriously burn you.
Failure to comply could result in death or serious injury.
WARNING
FUME / BURN HAZARD!
Always read and follow safety related precautions found on containers of hazardous substances like parts cleaners, primers, sealants and sealant removers.
Failure to comply could result in death or serious injury.
4TNV98 & 4TNE98 Diesel Engine 210 Section 6. Lubrication System
CAUTION
FLYING OBJECT HAZARD!
ALWAYS wear eye protection when servicing the engine and when using compressed air or highpressure water. Dust, flying debris, compressed air, pressurized water or steam may injure your eyes.
Failure to comply may result in minor or moderate injury.
CAUTION
Only use the engine oil specified. Other engine oils may affect warranty coverage, cause internal engine components to seize and / or shorten engine life.
Prevent dirt and debris from contaminating the engine oil. Carefully clean the oil cap/dipstick and the surrounding area before you remove the cap.
NEVER mix different types of engine oil. This may adversely affect the lubricating properties of the engine oil.
NEVER overfill. Overfilling may result in white exhaust smoke, engine overspeed or internal damage.
CAUTION
If any oil pump component clearance exceeds its limit, the oil pump must be replaced as an assembly.
CAUTION
If the oil pump must be replaced, replace it as an assembly only. Do not replace individual components.
4TNV98 & 4TNE98 Diesel Engine 211 Section 6. Lubrication System
Introduction
This section of the Service Manual describes the procedures necessary to service the 4TNV98
Trochoid oil pump.
See Replace Engine Oil and Engine Oil Filter on page 51 for engine oil and engine oil filter replacement procedures.
Oil Pump Service Information
Engine Oil Pressure - All Models
At Rated Engine RPM
2000 - 2600 RPM
42 - 57 psi
(0.29 - 0.39 MPa;
3.0 - 4.0 kgf/cm²)
Outer Rotor Outside Clearance - All Models
Standard Limit
At Low Idle Speed
All Models 8.8 psi (0.06 MPa 0.6 kfg/cm²) or greater
Reference
Page
0.0039 - 0.0061 in.
(0.100 - 0.155 mm)
0.0098 in.
(0.25 mm)
Outer Rotor Side Clearance - All Models
Standard Limit
Check Outer Rotor Outside Clearance on page 216
Reference
Page
0.0020 - 0.0039 in.
(0.05 - 0.10 mm)
0.0059 in.
(0.15 mm)
Check Outer Rotor Side Clearance on page 217
Outer Rotor to Inner Rotor Tip Clearance - All Models
Standard Limit
Reference
Page
–
0.0063 in.
(0.16 mm)
Outer Rotor to Inner Rotor Tip Clearance on page 217
4TNV98 & 4TNE98 Diesel Engine 212 Section 6. Lubrication System
Rotor Shaft Clearance
4TNV98
4TNE98
Item Standard Limit
Page
Gear Case Bearing I.D.
0.5110 - 0.5126 in.
(12.980 - 13.020 mm)
0.5138 in.
(13.05 mm)
Rotor Shaft O.D.
Rotor Clearance
0.5100 - 0.5108 in.
(12.955 - 12.975 mm)
0.0014 - 0.0026 in.
(0.035 - 0.065 mm)
0.5096 in.
(12.945 mm)
0.0041 in.
(0.105 mm)
Check Rotor
Shaft
Clearance on page 216
Gear Case Bearing I.D.
Rotor Shaft O.D.
Rotor Clearance
0.5110 to 0.5126 in.
(12.980 - 13.020 mm)
0.5089 to 0.5106 in.
(12.925 - 12.970 mm)
0.0004 to 0.0026 in.
(0.010 to 0.065 mm)
0.5138 in.
(13.05 mm)
0.5085 in.
(12.915 mm)
0.0041 in.
(0.105 mm)
Check Rotor
Shaft
Clearance on page 216
4TNV98 & 4TNE98 Diesel Engine 213 Section 6. Lubrication System
Lubrication System Diagram
Figure 9-1
4TNV98 & 4TNE98 Diesel Engine 214 Section 6. Lubrication System
Checking Engine Oil Pressure
Perform an engine oil pressure check if there is any indication of low oil pressure such as the oil pressure indicator is on or the oil pressure gauge indicates low oil pressure. See Engine Oil Pressure -
All Models on page 212.
1. Disconnect the wire lead from the oil pressure switch or sending unit (Figure 9-2, (1)).
Figure 9-2
2. Remove the oil pressure switch.
3. Install a mechanical oil pressure gauge in the oil pressure switch port.
4. Start the engine:
• If the mechanical oil pressure test gauge indicates good oil pressure, replace the faulty oil pressure switch or sending unit, or faulty machine oil pressure gauge in instrument panel.
• If the mechanical oil pressure test gauge indicates low oil pressure, troubleshoot the lubrication system to locate the cause of the low oil pressure. See Troubleshooting Charts on page 190. Repair as necessary.
Trochoid Oil Pump
Oil Pump Components
The oil pump on these model engines is located in the front gear case and is driven by the same gear train that drives the camshaft and fuel injection pump. You must remove the front gear case cover to gain access to the oil pump.
Figure 9-14
(1) Gear Case Housing.
(2) Outer Rotor.
(3) Inner Rotor.
(4) Cover Plate.
(5) Drive Gear.
4TNV98 & 4TNE98 Diesel Engine 215 Section 6. Lubrication System
Disassembly of Oil Pump
CAUTION
If the oil pump must be replaced, replace it as an assembly only. Do not replace individual components.
Remove the engine cooling fan guard (if equipped), engine cooling fan (Figure 9-15, (3)), spacer
(Figure 9-15, (2)), engine coolant pump V-pulley
(Figure 9-15, (1)) and V-belt.
Figure 9-15
1. Remove the crankshaft pulley and the gear case cover. See Removal of Timing Gear Case Cover on page 111.
2. Remove the oil pump assembly bolts. Remove the oil pump assembly (Figure 9-16, (1)) from the gear case housing (Figure 9-16, (2)).
Figure 9-16
Cleaning and Inspection
Wash the oil pump, oil pressure regulator and oil pump cavity. Inspect for wear or damage. Replace as necessary.
CAUTION
If any oil pump component clearance exceeds its limit, the oil pump must be replaced as an assembly.
Check Outer Rotor Outside Clearance
Determine the outside clearance of the outer rotor.
Insert a feeler gauge between the outer rotor
(Figure 9-17, (1)) and gear case oil pump cavity
(Figure 9-17, (2)).
Figure 9-17
Record the measurement(s) and see Check Outer
Rotor Outside Clearance on page 236 for the service limits.
4TNV98 & 4TNE98 Diesel Engine 216 Section 6. Lubrication System
Outer Rotor to Inner Rotor Tip Clearance
Determine the outer rotor to inner rotor tip clearance.
Insert a feeler gauge between the top of an inner rotor tooth (Figure 9-18, (1)) and the top of an outer rotor tooth (Figure 9-18, (2)) and measure the clearance.
Figure 9-18
Record the measurement(s) and see Outer Rotor to
Inner Rotor Tip Clearance on page 216 for the service limits.
Check Outer Rotor Side Clearance
Determine the side clearance of the outer rotor across the pump cavity. Measure the depression using a depth micrometer (Figure 9-19, (1)).
Figure 9-19
Record the measurement(s) and see Check Outer
Rotor Side Clearance on page 217 for the service limits.
Check Rotor Shaft Clearance
Determine the rotor shaft clearance. Measure the outside diameter of the rotor shaft (Figure 9-20, (1)) and the bore diameter in the gear case housing
(Figure 9-20, (2)).
Calculate the difference between the two measurements to determine the clearance.
Figure 9-20
Record the measurement(s) and see Rotor Shaft
Clearance on page 215 for the service limits.
Reassembly of Oil Pump
1. Lubricate the outer rotor and pump bore in the gear case with clean engine oil.
2. Reinstall the outer rotor in the gear case housing.
The punch mark (Figure 9-21, (1)) on the end of the outer rotor must face away from the gear case housing (Figure 9-21, (2)).
Figure 9-21
4TNV98 & 4TNE98 Diesel Engine 217 Section 6. Lubrication System
3. Reinstall the oil pump assembly (Figure 9-22, (1)) into the gear case housing (Figure 9-22, 2).
Tighten the bolts to specified torque.
Figure 9-22
4. Reinstall the gear case cover and crankshaft pulley. See Installation of Gear Case Cover on page 137.
5. Reinstall the engine coolant pump V-pulley
(Figure 9-23, (1)), spacer (Figure 9-23, (2)), engine cooling fan (Figure 9-23, (3)) and engine cooling fan guard (if equipped).
Figure 9-23
6. Reinstall the V-belt. Tighten the V-belt to the proper tension as described in Check and Adjust
Cooling Fan V-Belt on page 47.
4TNV98 & 4TNE98 Diesel Engine 218 Section 6. Lubrication System
Section 7. STARTER MOTOR
Before You Begin Servicing
WARNING WARNING
ENTANGLEMENT HAZARD!
Stop the engine before you begin to service it.
NEVER leave the key in the key switch when you are servicing the engine. Someone may accidentally start the engine and not realize you are servicing it. This could result in a serious injury.
If you must service the engine while it is operating, remove all jewelry, tie back long hair, and keep your hands, other body parts and clothing away from moving/rotating parts.
Failure to comply could result in death or serious injury.
SHOCK HAZARD!
Always read and follow safety related precautions found on containers of hazardous substances like parts cleaners, primers, sealants and sealant removers.
Failure to comply could result in death or serious injury.
WARNING
FUME / BURN HAZARD!
Always read and follow safety related precautions found on containers of hazardous substances like parts cleaners, primers, sealants and sealant removers.
Failure to comply could result in death or serious injury.
4TNV98 & 4TNE98 Diesel Engine 219 Section 7. Starter Motor
CAUTION
FLYING OBJECT HAZARD!
ALWAYS wear eye protection when servicing the engine and when using compressed air or high-pressure water. Dust, flying debris, compressed air, pressurized water or steam may injure your eyes.
Failure to comply may result in minor or moderate injury.
CAUTION
The starter motor can be damaged if operated continuously longer than 10 seconds while performing the no-load test.
CAUTION
Make sure that the combined total resistance of the battery cable in both directions between the starter motor and the battery is within the value indicated on the wiring diagram. The starter motor will malfunction or break down if the resistance is higher than the specified value.
CAUTION
The starter motor is water-proofed according to
JIS D 0203, R2 which protects the motor from rain or general cleaning. Do not use highpressure wash or submerse the starter motor in water.
CAUTION
Use a specialized battery charger to recharge a battery with a voltage of 8volts or less. Booster starting a battery with a voltage of 8 volts or less will generate an abnormally high voltage and destroy electrical equipment.
4TNV98 & 4TNE98 Diesel Engine 220 Section 7. Starter Motor
Introduction
This section of the Service Manual covers the servicing of the starter motor. This starter motor is used in this section to show the service procedures for a representative starter motor. For specific part detail, see the
Yanmar Parts Catalog for the engine you are working on.
Starter Motor Information
No Load Loaded
DOOSAN
Part
Number
Mfg.
Mfg.
Part
Number
Specification
Terminal
Voltage
Amp erage
Draw rpm
Terminal
Voltage
Amp erage
Draw
Torque rpm
A408417 Hitachi S13-204
DC12V-3.1 hp
(2.3 kW)
11
140A
MAX
4100 7.7
400
Max
97 in.-lb
(11.0 N·m;
1.1 kgf·m)
1400
4TNV98 & 4TNE98 Diesel Engine 221 Section 7. Starter Motor
Starter Motor Specifications
DOOSAN Part Number
Nominal Output
Weight
Revolution Direction (As Viewed From Pinion)
Engagement System
No-load
Terminal Voltage / Current
Revolution
Terminal Voltage / Current
Loaded
Torque
Clutch System
Pinion Projection Voltage at 212°F (100 °C)
Pinion DP or Module / Number of Teeth
Difference (O-ring, Oil Seal)
Application
Spring Force
Brush
Height
Standard
Limit
Magnetic
Switch
Series Coil Resistance
Shunt Coil Resistance
Commutator
Outside Diameter
Run-Out
Insulation Depth
Armature Run-Out
Standard
Limit
Standard
Limit
Standard
Limit
Standard
Limit
Armature Front
Armature Rear
Bearing Type
Pinion Front
Pinion Rear
Pinion Projection Length (Length L)
Nominal Number
A408417
3.0 hp (2.3 kW)
12.1 lb(5.5 kg)
Clockwise
Magnetic Shift
11 V / 140 A max
4100 rpm (min-1)
2.5 V / 1050 A max
18 ft-lb
(24.5 N·m; 2.5 kgf·m) minimum
Overrunning
8.6 V max
M3/9
Dry (none)
Standard
7.868 lbf (35 N; 3.6 kgf)
0.591 in. (15 mm)
0.354 in. (9 mm)
0.27 Ω at 68°F (20°C)
0.60 Ω at 68°F (20°C)
1.437 in. (36.5 mm)
1.398 in. (35 mm)
0.001 in. (0.03 mm)
0.008 in. (0.2 mm)
0.020 - 0.031 in. (0.5 - 0.8 mm)
0.008 in. (0.2 mm)
0.001 in. (0.03 mm)
0.008 in. (0.02 mm)
6903DDU
608DDU
60004DDU
6904DDU
0.012 - 0.059 in. (0.3 - 1.5 mm)
4TNV98 & 4TNE98 Diesel Engine 222 Section 7. Starter Motor
Starter Motor Troubleshooting
4TNV98 & 4TNE98 Diesel Engine 223 Section 7. Starter Motor
Starter Motor Components
Figure 11-1
(1) Pinion Shaft. (2) M4 Bolts (3 used). (3) Bearing Retainer. (4) Pinion Clutch Assembly. (5) Return Spring. (6) Pinion Stop.
(7) Retaining Ring. (8) Gear Housing. (9) Shift Lever. (10) Torsion Spring. (11) Plunger. (12) Dust Covers (Shims).
(13) Magnetic Switch Assembly (Solenoid). (14) Cover. (15) M6 Bolts (2 used). (16) Armature Assembly. (17) Field Coil Assembly.
(18) Positive (+) Brushes. (19) Negative (-) Brushes. (20) Brush Holder Assembly. (21) Rear Cover. (22) M5 Through Bolts. (2 used).
(23) M4 Bolts (2 used)
4TNV98 & 4TNE98 Diesel Engine 224 Section 7. Starter Motor
Starter Motor
WARNING
SHOCK HAZARD!
Turn off the battery switch (if equipped) or disconnect the negative battery cable before servicing the electrical system.
Check the electrical harnesses for cracks, abrasions, and damaged or corroded connectors. ALWAYS keep the connectors and terminals clean.
Failure to comply could result in death or serious injury.
Note: While starter motor design varies between models, the basic repair procedures are the same.
The following procedures are typical and may differ from the stater being serviced.
Removal of Starter Motor
1. Disconnect the battery cables at the battery, negative
(-) cable first.
2. Remove the electrical wires from the magnetic switch assembly.
3. Remove the starter mounting bolts (Figure 11-2, (1)).
Remove the starter motor from the flywheel housing.
Figure 11-2
Disassembly of Starter Motor
1. Loosen the M8 nut from the magnetic switch
(solenoid) assembly (Figure 11-3). Disconnect the wire from the magnetic switch.
Figure 11-3
2. Remove the two M4 bolts (Figure 11-4, (1)) securing the rear cover (Figure 11-4, (2)) to the brush holder assembly (Figure 11-4, (3)).
4TNV98 & 4TNE98 Diesel Engine 225 Section 7. Starter Motor
Figure 11-4
3. Remove the two M5 through bolts (Figure 11-4,
(4)). Separate the rear cover (Figure 11-4, (2)), field coil assembly (Figure 11-4, (5)) with the armature assembly (Figure 11-4, (6)) from the gear housing (Figure 11-4, (7)).
4. Pull the brush springs up using a brush spring puller. On the negative (-) side, bring the brush spring into contact with the side of the brush for lifting from the commutator surface. On the positive (+) side, remove the brush from the brush holder assembly (Figure 11-5, (1)).
Figure 11-5
5. Remove the brush holder assembly (Figure 11-6,
(1)) from the armature assembly (Figure 11-6,
(3)).
Figure 11-6
6. Pull the armature assembly (Figure 11-6, (3)) out from the field coil assembly (Figure 11-6, (2)).
7. Remove the two M6 bolts (Figure 11-7, (1)) retaining the magnetic switch assembly (Figure
11-7, (2)) to the gear housing. Remove the magnetic switch assembly, dust cover(s) (Figure
11-7, (3)) and torsion spring (Figure 11-7, (4)) from the gear housing.
Figure 11-7
8. Disassemble the dust cover (Figure11-8, (3)) and shift the lever (Figure11-8, (4)) from the gear housing.
Figure 11-8
4TNV98 & 4TNE98 Diesel Engine 226 Section 7. Starter Motor
9. Remove the three M4 bolts (Figure 11-9, (1)) securing the bearing retainer assembly (Figure
11-9, (2)) to the gear housing. Remove the bearing retainer assembly from the gear housing.
Figure 11-9
10. Remove the pinion clutch assembly (Figure 11-
9, (3)) from the bearing retainer assembly.
11. Using a flat-blade screwdriver, remove the retaining ring (Figure 11-10, (1)) from the shaft of the pinion.
Figure 11-10
12. Disassemble the pinion stop (Figure 11-11, (3)), return spring (Figure 11-11, (4)), pinion clutch assembly (Figure 11-11, (1)), and pinion shaft
(Figure 11-11, (5)).
Figure 11-11
Cleaning and Inspection
Armature
Commutator Surface Inspection
If the commutator surface is rough, polish the surface with a #500 to #600 emery cloth (Figure
11-12).
Figure 11-12
Measure Commutator Outside Diameter
Measure the commutator outside diameter
(Figure11-13). Replace the armature if the measurement is less than the limit.
4TNV98 & 4TNE98 Diesel Engine 227 Section 7. Starter Motor
Figure 11-13
See Starter Motor Specifications on page 222 for the service limit.
Measure Commutator Insulation Depth
Measure the depth of the insulating material
(Figure11-14, (1)) between commutator segments
(Figure11-14, (2)). If the depth measures less than the limit, use a hacksaw blade (Figure11-14, (3)) to remove the insulating material until the depth is within the limit.
A normal commutator condition is indicated in
(Figure11-14, (4)). An abnormal commutator condition is indicated in (Figure11-14, (5)).
Figure 11-14
See Starter Motor Specifications on page 222 for the service limit.
Armature Coil Continuity Test
Check for continuity between the commutator segments using a multimeter (Figure 11-15). The multimeter should indicate continuity.
Figure 11-15
If the multimeter does not indicate continuity, replace the armature.
Armature Coil Insulation Test
Check for continuity between a commutator segment and the shaft or armature using a multimeter (Figure11-16). The multimeter should not indicate continuity.
Figure 11-16
If the multimeter indicates continuity, replace the armature.
4TNV98 & 4TNE98 Diesel Engine 228 Section 7. Starter Motor
Measure Armature and Commutator Run-Outs
Measure the armature core run-out and the commutator run-out using a dial indicator (Figure
11-17). Replace the armature if either of the measurements is less than the limit.
Figure 11-17
See Starter Motor Specifications on page 222 for the service limit.
Field Coil
Field Coil Continuity Test
Check for continuity between the field coil terminals using a multimeter (Figure11-18). The multimeter should indicate continuity.
If the multimeter does not indicate continuity, replace the field coil assembly.
Figure 11-18
Field Coil Insulation Test
Check for continuity between the field coil terminal and the yoke using a multimeter (Figure11-19).
The multimeter should not indicate continuity.
If the multimeter indicates continuity, replace the field coil assembly.
Figure 11-19
Measure Brush Length
Measure the length of the brush (Figure11-20).
Replace the brush if the length is less than the limit.
Figure 11-20
See Starter Motor Specifications on page 222 for the service limit.
4TNV98 & 4TNE98 Diesel Engine 229 Section 7. Starter Motor
Magnetic Switch
If the starter motor becomes wet, replace the magnetic switch even if the magnetic switch assembly function is normal.
Shunt Coil Continuity Test
Check for continuity between the “S” terminal and the switch body using a multimeter (Figure11-21).
The multimeter should indicate continuity.
If the multimeter does not indicate continuity, replace the magnetic switch.
Figure 11-21
Series Coil Continuity Test
Check for continuity between the “S” and “M” terminals using a multimeter (Figure11-22). The multimeter should indicate continuity.
If the multimeter does not indicate continuity, replace the magnetic switch.
Figure 11-22
Coil Resistance Test
See Starter Motor Specifications on page 222 for the service limit.
4TNV98 & 4TNE98 Diesel Engine 230 Section 7. Starter Motor
Contact Continuity Test
Depress the plunger at the bottom of the magnetic switch. Check for continuity between the “B” and
“M” terminals using a multimeter (Figure11-23).
The multimeter should indicate continuity.
If the multimeter does not indicate continuity, replace the magnetic switch.
Figure 11-23
Pinion Clutch Assembly
Pinion Clutch Assembly Inspection
Manually rotate the pinion clutch assembly in the drive direction (Figure11-24). It should rotate freely in the drive direction and is locked by turning it in the opposite direction. Replace the pinion clutch assembly if the results are different.
Figure 11-24
Slide the pinion clutch assembly on the shaft. It should slide smoothly on the shaft (Figure11-25).
Rust, too much grease or damage could prevent the pinion clutch from sliding smoothly. If the pinion clutch assembly does not slide smoothly, clean the shaft and pinion clutch assembly or replace the damaged component.
Figure 11-25
Ball Bearing Inspection
Rotate each ball bearing while holding the pinion clutch assembly (Figure11-26). Replace the ball bearing if it does not rotate smoothly or has excessive play.
Figure 11-26
4TNV98 & 4TNE98 Diesel Engine 231 Section 7. Starter Motor
Reassembly of Starter Motor
1. Apply the appropriate starter bendix grease
(obtain locally) to the pinion shaft. Reassemble the pinion shaft (Figure 11-27, (5)), pinion clutch assembly (Figure 11-27, (1)), return spring
(Figure 11-27, (4)) and pinion stop (Figure 11-
27, (3)). Reinstall the retaining ring (Figure 11-27,
(2)) in the groove in the pinion shaft. Slide the piston stop over the retaining ring.
Figure 11-27
2. Reinstall the pinion clutch assembly into the bearing retainer assembly.
3. Reinstall the bearing retainer assembly and pinion assembly to the gear housing. Reinstall and tighten the three M
4
bolts.
4. Apply a small amount of high temperature lithium grease (obtain locally) to the sliding portions of the shift lever (Figure 11-28, (1)). Reassemble the torsion spring (Figure 11-28, (2)), shift lever and dust cover(s) (Figure 11-28, (3)), plunger
(Figure 11-28, 4) and magnetic switch assembly
(Figure 11-28, (5)).
Figure 11-28
5. Reassemble the magnetic switch assembly to the gear housing. Pry the pinion away from the gear housing to allow installation of the magnetic switch assembly (Figure 11-29).
Figure 11-29
6. Secure the magnetic switch assembly to the gear housing using the two M
6
bolts.
7. Carefully install the armature assembly
(Figure11-30, (1)) into the field coil assembly
(Figure11-30, (2)).
Figure 11-30
4TNV98 & 4TNE98 Diesel Engine 232 Section 7. Starter Motor
8. Position the brush springs in brush holders
(Figure 11-31). Reinstall the brushes in the brush holders. Reversing the brushes will cause the starter motor to turn backwards.
Figure 11-31
9. Carefully install the brush holder assembly to the armature assembly.
10. Reinstall the field coil assembly with the armature assembly to the gear housing.
11. Reinstall the rear cover to the brush holder assembly. Securely tighten the two bolts.
12. Reinstall the two M
4
through bolts (Figure 11-
32). Securely tighten the through bolts.
Reconnect the wire to the magnetic switch assembly. Tighten the M
8
nut. Reinstall the cover over the connection.
Figure 11-32
Check Pinion Projection Length
1. Connect the positive (+) lead from a battery to the “S” terminal.
2. Connect the negative (-) lead to the “M” terminal.
3. Lightly pull the pinion away from the gear housing.
4. Turn the switch ON and measure the pinion moving distance L in the thrust direction (Figure
11-33). Perform this test within 10 seconds. See
Starter Motor Specifications on page 222 for the service limit.
Figure 11-33
5. If the measured L dimension is outside the standard range, adjust the dust covers to obtain the standard range. Dust covers (Figure 11-34,
(1)) are available in 0.020 in (0.5 mm) and 0.031 in (0.8 mm) thicknesses.
Figure 11-34
4TNV98 & 4TNE98 Diesel Engine 233 Section 7. Starter Motor
No-Load Test
Test the characteristics of the starter motor by performing a no-load test.
CAUTION
The starter motor can be damaged if operated continuously longer than 10 seconds while performing the no-load test.
1. Secure the starting motor in a vise or other suitable fixture.
2. Connect an ammeter (Figure 11-35, (1)) in series between the battery positive (+) terminal
(Figure 11-35, (2)) and the main positive (+) terminal (Figure 11-35, (3)) on the starter motor.
Note: The ammeter and all wire leads used in this test must have a capacity equal to or greater than the amperage draw specification for the starter motor being tested.
Figure 11-35
3. Connect a wire lead between the mounting base of the starter motor (Figure 11-35, (4)) and the battery negative terminal (Figure 11-35, (5)).
4. Connect a voltmeter (Figure 11-35, (7)) to the battery negative (-) terminal (Figure 11-35, (5)) and the main positive (+) battery terminal
(Figure 11-35, (3)) on the starter motor.
5. Install a switch (Figure 11-35, (6)) in a circuit between the battery positive (+) terminal (Figure
11-35, (2)) and the starter magnetic switch
(solenoid) terminal (Figure 11-35, (8)) on the starter motor.
6. Use a suitable tachometer to monitor the rpm of the starter.
7. Turn the switch to the ON position. Monitor the rpm, amperage draw and voltage. For test specifications, see page 221 for the appropriate starter motor.
Installation of Starter Motor
1. Reinstall the starter motor to the flywheel housing.
2. Reinstall the starter mounting bolts (Figure 11-36,
(1)). Tighten the bolts to specification. See
Tightening Torques for Standard Bolts and Nuts on page 25.
Figure 11-36
3. Reconnect the electrical wires to the magnetic switch assembly (solenoid). Be sure to place the cover over the battery positive (+) cable connection.
4. Reconnect the battery cables at the battery.
4TNV98 & 4TNE98 Diesel Engine 234 Section 7. Starter Motor
Section 8. TROUBLESHOOTING
Special Service Tools
For measuring compression pressure Yanmar Gauge Set Part
No. TOL-97190080
Adapter for direct injection 2-valve cylinder head Yanmar Adapter Part
No. 119802-92950
Compression Gauge Kit
4TNV98 & 4TNE98 Diesel Engine
Adapter for direct injection 4-valve cylinder head for 4TNV94L/98/98T
Yanmar Adapter Part No. 129906-
92950
Adapter for direct injection 4-valve cylinder head for 4TNV106(T)
Yanmar Adapter Part No. 123907-
92950
235 Section 8. Troubleshooting
Troubleshooting By Measuring
Compression Pressure
Compression pressure drop is one of the major causes of increasing blow-by gas (engine oil contamination or increased engine oil consumption as a resultant phenomenon) or starting failure. The compression pressure is affected by the following factors:
1. Degree of clearance between the piston and cylinder
2. Degree of clearance at the intake / exhaust valve seat
3. Gas leak from the nozzle gasket or cylinder head gasket
The pressure will drop due to increased parts wear.
Pressure drop reduces the durability of the engine.
A pressure drop may also be caused by a scratched cylinder or piston, dust entrance from the dirty air cleaner element or a worn or broken piston ring.
Measure the compression pressure to determine the condition of the engine.
Compression Pressure Measurement
Method
1. Warm up the engine.
2. Stop the engine. Remove the high-pressure fuel injection lines as an assembly from the engine.
Remove the fuel injector from the cylinder to be measured. See Removal of Fuel Injectors on page 147.
CAUTION
Remove or install the high-pressure fuel injection lines as an assembly whenever possible.
Disassembling the high-pressure fuel injection lines from the retainers or bending any of the fuel lines will make it difficult to reinstall the fuel lines.
4. Before installing the compression gauge (Figure
14-1, (1)) adapter, crank the engine with the stop solenoid disconnected for a few seconds to clear the cylinder of any residual fuel.
5. Install a nozzle seat at the tip end of the compression gauge adapter. Install the compression gauge and the compression gauge adapter at the cylinder to be measured.
6. Crank the engine until the compression gauge reading is stabilized.
Figure 14-1
7. After performing the compression check remove the compression gauge and compression gauge adapter from the cylinder. Reinstall the fuel injector, high-pressure fuel injection lines, and reconnect the stop solenoid. See Reassembly of
Fuel Injectors on page 165.
8. Turn on the fuel supply valve and reconnect the injection pump stop solenoid.
9. Prime the fuel system. Check for leaks. Test the engine. compression testing.
3. Turn off the fuel supply valve in the fuel supply line. Disconnect the fuel injection pump stop solenoid at the connector. This prevents the fuel injection pump from injecting fuel during
4TNV98 & 4TNE98 Diesel Engine 236 Section 8. Troubleshooting
Engine Model
4TNV98
Standard Compression Pressure (Reference Value)
Compression Pressure at 250 rpm (250 min-1)
483 - 513 psi
(3.33 - 3.53 MPa;
34 - 36 kgf/cm²)
384 - 414 psi
(2.65 - 2.85 MPa;
27 - 29 kgf/cm²)
Engine Speed and Compression Pressure (Use for Reference)
Figure 14-2
Deviation Between
29 - 43 psi
(0.2 - 0.3 MPa;
2 – 3 kgf/cm²)
4TNV98 & 4TNE98 Diesel Engine 237 Section 8. Troubleshooting
Engine Model
4TNE98
Compression Pressure at 250 rpm (250 min-1)
426 ± 15 psi
(2.94 ± 0.1 MPa,
30 ± 1 kgf/cm²)
341 ± 15 psi
(2.35 ± 0.1 MPa,
24 ± 1 kgf/cm²)
Engine Speed and Compression Pressure (Use for Reference)
Figure 13-2
Deviation Between
29 to 43 psi
(0.2 to 0.3 MPa;
2 to 3 kgf/cm²)
4TNV98 & 4TNE98 Diesel Engine 238 Section 8. Troubleshooting
Measured Value and Troubleshooting
When the measured compression pressure is below the limit value, inspect each part by referring to the table below.
No Item Cause
1 Air Cleaner Element
2 Valve Clearance
3 Valve Timing
4
Cylinder Head
Gasket
Clogged element
Broken element
Defect at element seal portion
Excessive or no clearance
Incorrect valve clearance
Gas leak from gasket
Intake/ Exhaust Valve Sticking valve
Clean the element.
Replace the element.
Adjust the valve clearance.
Adjust the valve clearance.
Replace the gasket.
Retighten the cylinder head bolts to the specified torque.
Replace the intake / exhaust valve.
5
Valve Seat
Gas leak due to worn valve seat or foreign matter trapped in valve
6
Piston
Piston Ring
Cylinder
Gas leak due to scratching or wear
Quick Reference Table For Troubleshooting
Lap the valve seat.
Perform honing and use an oversized Piston Ring part.
The following table summarizes the general trouble symptoms and their causes. If any trouble symptom occurs, take corrective action before it becomes a serious problem so as not to shorten the engine service life.
4TNV98 & 4TNE98 Diesel Engine 239 Section 8. Troubleshooting
Troubleshooting Charts
4TNV98 & 4TNE98 Diesel Engine 240 Section 8. Troubleshooting
4TNV98 & 4TNE98 Diesel Engine 241 Section 8. Troubleshooting
4TNV98 & 4TNE98 Diesel Engine 242 Section 8. Troubleshooting
Wiring Diagram
Note: The following wiring diagram is “representative” of a common installation using a Yanmar engine. The actual installation may be equipped with a variety of electrical components and wiring harnesses. Contact the machine manufacturer for specific information.
4TNV98 Engine
4TNV98 & 4TNE98 Diesel Engine 243 Section 8. Troubleshooting
4TNE98 Engine
4TNV98 & 4TNE98 Diesel Engine 244 Section 8. Troubleshooting
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Key features
- Service instructions
- Troubleshooting guides
- Maintenance schedules
- Emission control regulations
- Technical specifications
- Lubrication system
- Cooling system
- Fuel system
- Engine components