Beta Motorcycles X Trainer 300 2T 2015 Workshop Manual
Beta Motorcycles X Trainer 300 2T 2015 is a high-performance off-road motorcycle designed for a thrilling and agile riding experience. With its, it offers a combination of power, handling, and reliability, making it an excellent choice for experienced riders looking for an adrenaline-packed adventure.
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TABLE OF CONTENTS
1
2
TABLE OF CONTENTS
PREAMBLE ................................................................................................................................................................................................................... 2
ENGINE ......................................................................................................................................................................................................................... 4
3
REMovAL of MotoR fRoM vEhIcLE ........................................................................................................................................................ 6
MotoR dIsAssEMBLy .................................................................................................................................................................................14
2.1
2.2
2.3
2.4 cLutch/GEAR oIL dRAIN ..........................................................................................................................................................14
REMovAL of cLutch coNtRoL Rod ANd PINIoN sPAcER ...............................................................................................14
REMovAL of PIstoN, cyLINdER ANd hEAd ..........................................................................................................................15
REMovAL of IGNItIoN uNIt ....................................................................................................................................................19
2.4.1
2.4.2
Flywheel cover plate removal ..................................................................................................................................................19
Stator removal .............................................................................................................................................................................20
2.5
2.6
2.4.3
2.4.4
Flywheel removal ........................................................................................................................................................................20
Pick-up removal ...........................................................................................................................................................................21
REMovAL of ELEctRIc IGNItIoN ........................................................................................................................................... 22
2.5.1
2.5.2
Start motor removal ....................................................................................................................................................................23
Bendix clutch removal ................................................................................................................................................................23
REMovAL of cooLANt LIquId PuMP, cLutch uNIt, MAIN GEAR, cENtRIfuGAL uNIt, GEARshIft oRGANs, kIckstARt 24
2.6.1 Cooling liquid pump removal ....................................................................................................................................................27
2.7
2.8
2.9
2.6.2
2.6.3
Removal of centrifugal unit and leverage ................................................................................................................................28
Removal of main gear and clutch unit .....................................................................................................................................31
2.6.4
2.6.5
Kickstarter (OPTIONAL) ..............................................................................................................................................................34
External gearshift unit .................................................................................................................................................................36
INtAkE systEM .......................................................................................................................................................................... 37 cRANkshAft, GEARBox uNIt ANd INtERNAL GEARshIft ................................................................................................ 38
2.8.1 Opening the crankcase ...............................................................................................................................................................38
2.8.2 Crankshaft ....................................................................................................................................................................................39
2.8.3 Internal gearshift unit and complete gearbox .........................................................................................................................40
dIsAssEMBLy of PARts fRoM cRANkcAsEs ........................................................................................................................41
2.9.1
2.9.2
Right crankcase half ....................................................................................................................................................................41
Left crankcase half ......................................................................................................................................................................44
MotoR chEcks ANd AssEMBLy .............................................................................................................................................................. 45
3.1 cRANkcAsE hALf ....................................................................................................................................................................... 45
3.1.1
3.1.2
Special applications for right crankcase half ...........................................................................................................................46
Special applications for left crankcase half..............................................................................................................................48
TABLE OF CONTENTS
3.2
3.3
3.4
3.5
3.6
3.7
3.8
3.9
3.10
3.11
3.12 chEck of coNNEctING Rod ANd cRANkshAft ................................................................................................................ 49
AssEMBLING of coMPLEtE cRANkshAft ............................................................................................................................ 50
GEARBox uNIt: coNtRoLs ANd REAssEMBLy ......................................................................................................................51
3.4.1
3.4.2
3.4.3
Gearbox unit check ....................................................................................................................................................................51
Primary unit assembly ................................................................................................................................................................52
Secondary unit assembly ...........................................................................................................................................................53
3.4.4
3.4.5
Check of forks, fork pins and desmodromic device ...............................................................................................................54
Assembly of gearbox and inner control ...................................................................................................................................56
cLosING of ENGINE cRANkcAsE ........................................................................................................................................... 59
ExtERNAL GEARshIft ............................................................................................................................................................... 60
3.6.1 Complete gearbox shaft check ..................................................................................................................................................60
3.6.2 External gearshift unit .................................................................................................................................................................62
kIck stARtER dEvIcE (kIck stARtER)(oPtIoNAL) .............................................................................................................. 62
3.7.1
3.7.2
Kickstart shaft unit check and assembly ..................................................................................................................................62
Assembly of kickstart device (kick starter) ..............................................................................................................................64
MAIN GEAR ANd cLutch uNIt ................................................................................................................................................ 66
3.8.1 Primary gear check .....................................................................................................................................................................66
3.8.2
3.8.3
3.8.4
3.8.5
3.8.6
Primary gear application ............................................................................................................................................................66
Check of clutch case, roller bearing and internal centre bearing ........................................................................................67
Clutch disc check .........................................................................................................................................................................68
Spring check ................................................................................................................................................................................69
Clutch drum check ......................................................................................................................................................................69
3.8.7
3.8.8
Thrust bearing device check ......................................................................................................................................................70
Clutch unit assembly ...................................................................................................................................................................70
cooLANt LIquId PuMP ANd cENtRIfuGAL uNIt ............................................................................................................... 72
3.9.1
3.9.2
3.9.3
Check of pump unit and disassembly, centrifugal unit and idler unit ................................................................................73
CENTRIFuGE uNIT GROuP ASSEmBLy ..................................................................................................................................74
PumP uNIT ASSEmBLy .............................................................................................................................................................77
3.9.4 ASSEmBLy OF COmPLETE CLuTCh COvER ANd PumP uNIT.............................................................................................77
ELEctRIc IGNItIoN uNIt ......................................................................................................................................................... 80
3.10.1 Bendix coupling checks .............................................................................................................................................................80
3.10.2 Ignition unit coupling to motor ................................................................................................................................................80
thERMAL uNIt ........................................................................................................................................................................... 82
3.11.1
3.11.2
Checking piston and elastic bands ...........................................................................................................................................82
Cylinder check .............................................................................................................................................................................83
3.11.3
3.11.4
3.11.5
3.11.6
3.11.7
Piston cylinder coupling play ....................................................................................................................................................84
Checks and exhaust valve unit disassembly ............................................................................................................................84
Exhaust valve unit assembly ......................................................................................................................................................86
Piston, pin bolt, elastic bands and cylinder assembly ..........................................................................................................88
Check of crankcase/cylinder gasket thickness ........................................................................................................................90
3.11.8
3.11.9
Cylinder head application ..........................................................................................................................................................91
Exhaust valve adjustment ...........................................................................................................................................................92
3.11.10 Cover plate application ..............................................................................................................................................................95
chEck of IGNItIoN systEM .................................................................................................................................................. 96
3.12.1 Check of ignition system ...........................................................................................................................................................96
3.12.2 Coupling of ignition system to crankcase ......................................................................................................................................96
chEck of INtAkE uNIt ANd AssEMBLy ................................................................................................................................ 99
INsERtIoN of cLutch Rod ANd PINIoN sPAcER ..............................................................................................................101
3.13
3.14
4 REAssEMBLy of ENGINE IN thE vEhIcLE ............................................................................................................................................ 102 tABLE of MotoR coMPoNENts fAstENING toRquEs ...................................................................................................................................110
tABLE of MotoR coMPoNENts fAstENING toRquEs ...................................................................................................................................111
tABLE of fRAME/MotoR fAstENING toRquEs ...............................................................................................................................................112
REcoMMENdEd LuBRIcANts ANd LIquIds ......................................................................................................................................................113
REcoMMENdEd MotoR MAINtENANcE .............................................................................................................................................................113
2 www.betamotor.com
PREAMBLE
This publication has been written in order to make operations for inspection, maintenance and repairs of the motorcycle engine known and understandable to the user of the motorcycle and to the technical assistance operator.
Read this entire manual with care before operating on the engine. Sufficient knowledge of the components that make up the engine and of all the procedures to be followed for inspection and maintenance contribute to lengthen the life of the engine.
The paragraphs have been enhanced with schematic illustrations highlighting each subject in order to make reading immediately understandable.
Informative note
Betamotor S.p.A. is engaged in a policy of ongoing improvement of its products. This is why it could be possible to note slight differences between the contents of this document and the vehicle upon which you are carrying out repairs and/ or maintenance. Betamotor S.p.A. models are exported to numerous countries in which there are different standards concerning Highway Codes and procedures for approval of the vehicle. Relying on your understanding,
Betamotor S.p.A. therefore deems it necessary to reserve the right to modify its products and technical documentation at any time without prior warning.
We respect and defend the environment
All that we do has an impact on the whole Planet and its resources. Wishing to safeguard the interests of the entire Community, Betamotor S.p.A. would like to make customers and technical operators aware of ways of using the vehicle and of disposing of its parts in full compliance with standards in force in terms of environmental pollution, waste disposal and recycling.
SAFETY
Carbon monoxide
• Exhaust gases contain carbon which is poisonous.
Carbon monoxide can cause loss of conscience and lead to death. When starting the engine, make sure the place you are in is well-ventilated. Never start the engine in a closed place.
• Starting the engine in closed places can be done only if provided with relevant gas discharge evacuation devices.
Petrol
• Petrol is extremely flammable and can be explosive in some conditions.
• Keep heat sources, sparks and flames away from the work area.
• Always work in a well-ventilated area.
• Never use petrol as a solvent for cleaning. Do not handle it unless absolutely necessary.
• Never use petrol to clean components by means of compressed air.
• Keep out of the reach of children.
Motor oil
• Motor oil can cause skin illnesses if carried often and for prolonged periods in contact with skin.
• If you touch motor oil, clean parts with soap and water as soon as possible.
• In case of contact with the eyes, rinse them abundantly with water and seek medical advice.
• If swallowed, do not induce vomiting in order to avoid breathing the product into the lungs; seek immediate medical advice. If you believe the product has been breathed into the lungs, bring the concerned person urgently to the hospital.
• Used oil contains dangerous substances which are harmful for the environment. When changing it, you must be equipped to dispose of it in compliance with existing law.
• Avoid dispersing used oils in the environment.
• Keep out of the reach of children.
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Coolant liquid
• In some situations, the ethylene glycol contained in the coolant is flammable and its flame is invisible.
Should ethylene glycol catch fire, though its flame is invisible, it can cause burns.
• Do not bring the coolant in contact with hot parts.
These parts could be hot enough to cause the liquid to ignite.
• The coolant (ethylene glycol) can irritate skin and is poisonous if swallowed.
• Should the coolant come into contact with the skin, immediately remove contaminated clothing or footwear and wash with soap and water. In case of contact with the eyes, rinse them abundantly with clean water and seek medical advice immediately. Should it be swallowed, do not induce vomiting in order to avoid breathing the product into the lungs. Administer clean water and bring the concerned person immediately to the hospital, showing this product to the hospital staff.
• In the event of exposure to a high concentration of vapours, bring the concerned person to an uncontaminated atmosphere and seek medical advice if necessary.
• Do not remove the radiator cap when the engine is still hot. When coolant is pressurised, it can spurt out violently and cause burns.
• Coolant contains dangerous substances which are harmful for the environment. When changing it, you must be equipped to dispose of it in compliance with existing law.
• Do not disperse coolant into the environment.
• Keep out of the reach of children.
Hot parts
• The engine and the exhaust system get very hot and stay at that temperature for a long time, even after the engine has been turned off. Wait for them to cool down before handling these parts or intervening on areas around them. Use insulated gloves.
WARNINGS
The information contained in this paragraph is important so that the operations carried out on the engine can be performed without causing damage.
• Before disassembling, clean the motorcycle thoroughly.
• While you are disassembling it, clean all the parts and place them in containers exactly respecting the order of disassembly.
• Always use special tools wherever necessary and when thus prescribed.
• Always use glues, sealant and lubricants wherever prescribed. Respect the indications concerning their technical features.
• Always replace parts such as gaskets, O-rings and safety washers with newly supplied parts.
• When loosening or tightening nuts or screws, always start with the larger ones or from the centre.
Always respect the indicated tightening torques.
• Use only Betamotor original spare parts.
3
4
TECHNICAL FEATURES OF ENGINE
CHARACTERISTIC dATA ENGINE
300
Bore[mm]/Stroke [mm]
Displacement [cm³]
Compression ratio
72/72
293
11.3
TRANSMISSION
300
Main
1st gear ratio
2nd gear ratio
3rd gear ratio
4th gear ratio
5th gear ratio
6th gear ratio
Version
Carburetor type
Main jet
Slow jet
Ignition jet
Needle
Needle position
(from above)
Air screw turns
(from all closed)
Flush
28/70
12/31
15/28
19/28
20/24
27/27
28/24
CARBURETOR
300
Approv.
Race*
PWK 36S AG
118
38
50
155
35
85
N84K
4°
N1EJ
2°
2
YES
1+1/4
NO
* this modification makes the vehicle non-compliant with the highway code in force. Use must be limited to private circuits closed to circulation www.betamotor.com
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SPECIAL EQUIPMENT
1. Crankcase uncoupler code 0100042 000
2. Clutch drum nut/Main tool code 026140010 000
3. Crankcase/Cylinder gasket check plate code 026140020 000
4. Front bracket code 026140030 000 to fix engine to stand code 3625132 000
5. Flywheel blocking tool code 026140040 000
6. Flywheel extractor code 3625173 000
7. Engine support stand code 3625132 000
Symbols
6Nm
Value
Fastening torque
Medium-resistance threadlocker
Silicone paste
5
1
1 REMOVAL OF MOTOR FROM VEHICLE
∙
Carefully wash the vehicle;
∙ Remove the engine guard plate;
∙ Place the vehicle onto an adequate stand
.
1
∙ Remove the seat, the tank and the lateral sides.
∙ To take down the tank you must:
- completely unscrew the two screws 1 that fasten the tank to the frame and the screws
2 (two per side) that fasten the side to the vehicle;
- disconnect the by-pass petrol pipe by pressing the quick-coupling 3 button.
2
6
3
4
5
- Disconnect the petrol pipe 4 from the valve.
∙ Remove the pinion guard 5.
6 7
∙ Remove the circlip 6 and extract the pinion.
Rest the chain against the upper wedge 7.
1
9
8
∙ Remove the screws 8 fixing the clutch actuator to the crankcase half.
ATTENTION!
Do not activate the clutch lever with actuator decoupled from engine.
∙
Remove the exhaust expansion and the silencer
∙ Drain the cooling system through screw 9 and let the liquid outflow into a container (the cooling circuit contains 1.3l of liquid). Remove the radiator cap.
7
1
8
10
∙ Disconnect the water hoses from the engine and from the right radiator.
∙ Disconnect the electrical connectors for the right radiator accessories.
∙ Remove the right radiator.
∙ Remove the left radiator with pipes.
∙ Disconnect the coil from the spark plug, remove the two screws 10 and take the complete coil support out of the intake manifold.
Note: when the coil support has been taken down, we recommend putting the screws back in place, without tightening them.
C
12
11
A
B
∙ Cut all straps binding the engine's electric system to the clutch pipe and to the.
Then, disconnect the connectors:
A TPS sensor;
B Pick-Up;
-
∙ Disconnect the engine ventilation pipes
∙ Pull the mixer tube 11 out from the intake manifold and tube hold 12.
9
1
1
Attention! When the mixer tube has been disconnected, plug it to prevent emptying.
∙ Remove the start motor cable fixing nut.
∙ Remove the head connections.
10
∙ Release and remove the brake pedal return spring 13. Remove the kickstarter lever
(Optional)
.
∙ Remove the gear lever.
1
13
∙
sleeve and from the manifold.
15
14
∙ Remove the seat rail lower fixing screws 14
(one each side) and loosen the upper screws
15 (one each side).
11
1
16
∙ Rotate the filter box unit.
∙ Remove the carburettor from the manifold leaving it connected to the gas cable.
Attention!
When the carburettor is disconnected from the manifold, and before handling the carburettor, empty out the tank.
∙ Remove the swingarm pin 17 and the upper shock-absorber pin 16.
18
17
∙ Remove the engine pins 18.
12
Extract the engine from the frame and apply it to the specific stand code 3625132 000 using specific front fixing bracket code 026140030 000.
1
13
14
2
2 MOTOR dISASSEMBLY
Secure the engine to the specific support stand code 3625132000 by means of front fixing code 026140030 000, in order to work in comfort and safety. Then proceed as follows
Remove the spark plug
2.1 CLUTCH/GEAR OIL dRAIN
Remove screw 1 and let the oil drain.
1
2
1
2.2 REMOVAL OF CLUTCH
CONTROL ROd ANd
PINION SPACER
Extract the spacer 1.
Extract the clutch control rod 2.
1
2.3 REMOVAL OF PISTON,
CYLINdER ANd HEAd
Remove the spigot screws 1 together with the copper washers. Remove the head and the two
O-rings.
2
2
Remove the four screws 2.
3
4
Remove the three screws 3 and cover 4.
15
2
5
Release the lock 5 and remove it.
7
A
Release the control rod 6.
Remove the gasket 7. It may be necessary to force the rubber gasket 8 slightly; place a metal pin A between the lever and the gasket 8 and force it externally slightly.
16
6
Removal of gasket 6
8
Extract the cylinder and base gaskets.
9
Remove the four collar nuts 9.
2
17
18
2
Removal of piston circlip.
10
A
ATTENTION!
Place a clean cloth between the piston and the crankcase to keep foreign objects or simple solid residue from falling inside the base.
Remove the circlip 10 by gripping it with a pair of fine nose pliers A.
Push the pin bolt with an aluminium cylinder
(or similar) B, until the pin bolt is released from the connecting rod foot
Remove the piston, the pin bolt and the bearing from the connecting rod foot.
ATTENTION: Try pulling out the pin bolt by hand first of all. If it is too tight, hit the pin lightly with a rubber hammer, at the same time holding the piston with your hand in order not to stress the connecting rod.
Removal of pin bolt.
B
2
Fixing screws 1 of flywheel cover 2.
3
1
2.4 REMOVAL OF IGNITION
UNIT
The ignition unit is made up of the flywheel (or rotor), the pick-up and the stator which is one with the flywheel cover.
2
2.4.1 Flywheel cover plate removal
Remove the five screws 1 fastening the flywheel cover 2 to the left crankcase.
Remove the flywheel cover and the gasket placed between the crankcase and the cover.
Pay attention to the two centring 3 pins 3 on the crankcase.
The two references pins 3 dedicated to the flywheel cover.
19
20
2
5
4
1
Disassembly of stator from cover.
2
3
2.4.2 Stator removal
Remove the two screws 1 fixing the stator 2 to the flywheel cover 3. Extract the plate 4 and the cable gland 5 from the cover and extract the stator.e.
2.4.3 Flywheel removal
Block the flywheel using special tool A (code
026140040 000) and remove the fastening nut securing the flywheel to the crankshaft.
NOTE: Once the nut has been unscrewed, pay attention to the special elastic washer placed between the nut and the flywheel.
A
Removal of flywheel nut.
B
To remove the flywheel, tighten the extractor B
(code 3625173) onto the threaded part on the flywheel.
Keep the extractor blocked with spanner and tighten the screw on the extractor using a box spanner.
2
Release of flywheel using special tool B.
2
1
Removal of pick-up.
2.4.4 Pick-up removal
Remove pick up 1 by loosening the two fixing screws 2.
21
22
2
ExplODED vIEW OF ElEcTRIc kIckSTART:
1) Start motor;
2) O-ring;
3) Screws;
4) Bendix coupling;
5) Bush with collar.
2.5 REMOVAL OF ELECTRIC
IGNITION
L’avviamento elettrico viene effettuato tramite il motorino di avviamento 1 che ingrana sull’inneseto Bendix 4. The coupling gear axially shifts and meshes onto the ring gear which is one with the flywheel, due to the start motor rotation.
The coupling gear retracts to its rest position, once the motor action is terminated.
1
Removal of start motor.
2.5.1 Start motor removal
Remove the two screws 1 and extract the motor itself.
2
2.5.2 Bendix clutch removal
Extract the Bendix coupling once the complete flywheel cover and flywheel itself (see par. 2.4.1), have been removed 1.
1
Removal of Bendix coupling.
23
2
24 coolant liquid pump cover screws.
2.6 REMOVAL OF COOLANT
LIQUId PUMP, CLUTCH
UNIT, MAIN GEAR,
CENTRIFUGAL UNIT,
GEARSHIFT ORGANS, kICkSTART
Remove the cover by loosening the four screws 1 to access the coolant liquid pump.
2.
Note: remove the coolant liquid pump impeller if having to intervene on the centrifugal unit.
1
2
Outer clutch cover screws.
3
Remove the outer clutch cover by loosening the five screws 3 to access the clutch unit only 4.
2
4
25
2
When doing a complete overhaul of the engine or of gearshift organs, kickstart, main transmission or centrifugal unit, the inner clutch cover 5 must be removed by loosening the nine screws 6.
5
Inner clutch cover screws.
A
26
Two centring pins A for inner clutch cover coupling.
6
Pay attention to the two reference pins A placed between the right crankcase half and the inner clutch cover plate while disassembling.
1
2.6.1 COOLING LIQUId PUMP
REMOVAL
Loosen fixing screw once the coolant liquid pump cover has been removed 1.
2 cooling pump fixing screw.
2
3
Removal of impeller.
5
4
Removal of pump body and gasket.
Extract the impeller 2 and the thrust 3.
Extract the complete pump body 4 and remove gasket 5.
27
28
2
Removal of centrifugal adjustment cover.
3
4
5
1
2
2.6.2 REMOVAL OF
CENTRIFUGAL UNIT
ANd LEVERAGE
Access the centrifugal unit and leverage by removing the inner clutch cover. Disassemble the adjustment cover by removing the two screws 1 once the pump impeller has been removed (par.
2.6.1) 2.
Remove the unit consisting of adjusting 3 and auxiliary 4 springs and the spring guide 5.
Extract the rocker arm complete of control rod and gasket 6 once the screw fixing the rocker arm 7, to the centrifugal control lever has been removed 8.
2
8
6
Disassembly of control rod-rocker arm unit.
9
9
7
7
Removal of centrifugal control lever.
Extract the centrifugal control lever 7 together with the two thrust washers 9.
29
2
10
Extract the complete centrifugal unit 10.
Extraction of centrifugal unit.
8
1
7
3
30
1) control cover;
3) Adjusting spring;
4) Auxiliary spring;
5) Spring guide;
6) Rocker arm;
7) centrifugal control lever;
8) Gasket;
9) Thrust washers;
10) centrifugal unit.
4
5
6 9
10
2
1
2.6.3 REMOVAL OF MAIN
GEAR ANd CLUTCH UNIT
Remove the four screws 1 fastening the clutch cap 2 to the clutch drum.
Remove the clutch cap together with the four washers and relative springs.
2 clutch cap 2 and four screws 1.
3
Extract the whole pressure plate unit 3 and the clutch disc pack.
pressure plate unit 3 and clutch disc pack.
31
32
2
In order to complete the disassembly of the clutch unit, open the safety washer 4 using a chisel or similar tool and remove the nut 5.
4
Opening of the safety washer with chisel.
5
Removal of clutch drum nut with relevant tool A.
A
To unscrew the nut 5, the clutch drum must be blocked with a relevant tool A (code 026140010
000).
Insert the main special tool on the drum so that:
• its inner teeth mesh in those present on the clutch drum;
• the tube on the tool inserts on the main gear nut.
Loosen the clutch nut.
Attention! Do not use the pneumatic gun.
Extract the clutch drum.
Using the special primary tool A (code 026140010
000), disassemble the nut that tightens the primary gear 6 onto the crankshaft.
NOTE: the clutch case must be in its seat to be able to disassemble the main gear.
2
Attention! The nut must be turned clockwise
A
6
Disassembly of the main gear nut.
7 6
Remove the washer 7, the case 8, the roller cage
9 and the centre bearing 10.
5
4
9
8
Safety rose-petal 4; nut 5; washer 6; case 7; roller cage 8; centre bearing 9.
Extract the main gear 13.
Removal of main gear.
14
13
Remove the circlip 14 from the secondary change shaft.
33
2
3 kickstarter mechanism.
3
1
2
4
2.6.4 kickstarter (OPTIONAL)
The kickstater is made up of the pedal which, attached to the kickstarter shaft 1, moves the kickstarter gear 2. This gear moves the idler wheel
3 which then meshes with the clutch case.
The device moves back thanks to the spring 4.
Remove the external circlip 5 and pull off the external thrust washer 6, the idler gear 3, the internal thrust washer 7 and the second circlip 8. The circlips and thrust washers are interchangeable.
34
5
Removal of circlip 5 of idler gear 3.
5
8
6
7
Two circlips 5 and 8 and thrust washers 6 and 7.
A
4
Using a pair of pliers, pull the end A of the spring
4 from the hole on the crankcase and bring it to a rest position having it turn anti-clockwise.
2
Release of spring from crankcase.
Turn the shaft anti-clockwise and pull it off together with the sleeve 9, the spring 10 and the thrust washer 11.
Extraction of shaft from crankcase.
2
1
9
4 complete pedal kickstart shaft.
10
11
35
2
1
3
2
2.6.5 External gearshift unit
The external gearshift is made up of the drive shaft 1 upon which the movable and fixed pawls are applied. The fixed pawl constitutes the drive of the movable pawl which then has the task of engaging the stop cam 2. This in turn is fastened to the internal gearshift and is kept in the fixed position by the cam stop lever.
In order to disassemble the drive shaft, just keep the movable pawl return spring 3 pressed and extract the shaft together with specific washer 4.
1
Gearshift with washer.
2
5
Disassembly of stop cam.
8
6
4
9
In order to disassemble the stop cam 2, keep the cam stop lever moved 5, loosen the screw 6 and pull out the stop cam 2.
In order to disassemble the stop lever, loosen the screw 7 enough to allow the lever to move axially and overcome the cylinder segment A of the desmodromic device. Bring the return spring
8 to the rest position and remove the screw, the washer 9, the spring together with the spacer
(not shown in the image) and finally the cam stop lever.
7
36
Disassembly of cam stop lever.
A
3
1) Intake manifold;
2) complete reed valve;
3) Spacer (300cc only).
4
Fixing screws.
2.7 INTAkE SYSTEM
The intake system mainly consists of the intake manifold 1 and reed valve 2 and spacer in case of 300cc 3.
2
1
2
Disassemble by removing the four screws 4 fastening the intake manifold and the reed valve to the crankcases.
37
2
A
Removal of crankcase screws.
C
B
1
A
2.8 CRANkSHAFT, GEARBOx
UNIT ANd INTERNAL
GEARSHIFT
To access the crankshaft, gearbox unit and internal gearshift, the left and right crankcases must be detached. Here are the needed instructions.
2.8.1 Opening the crankcase
Remove the thirteen screws 1 fastening the crankcases.
Attention! Loosen the two equipment fixing screws A.
Apply special tool B to the right crankcase half following the punching on the tool itself. Fix the tool with the four M6x20 screws (maximum torque 10Nm). Tighten screw C on the special tool. Slightly hit the gear secondary with a rubber mallet during said operation.
Once the crankcases have been detached, remove the two fixing screws to the equipment A and remove the left crankcase.
crankcase uncoupling phase.
3
Remove the two rear 2 and front reference pins 3. Remove the coupling gasket to the two crankcases.
2
38 crankcase half reference pins.
Removal of crankshaft.
1
2.8.2 Crankshaft
The crankshaft 1 can be pulled out by hand.
Delicately hit the crankshaft far right in case of resistance.
2
39
2
4
2
1
Removal of fork support pins 1.
2
3
4
3
2.8.3 Internal gearshift unit and complete gearbox
The internal gearshift unit is made up of the desmodromic device 1 upon which the fork 2 and two forks 3 are engaged. The forks, supported by the pins 4, drive the sliding wheels of the gearbox, allowing engagement of the desired ratio. The desmodromic device is controlled by the stop cam present in the external gearshift unit.
Extract the two pins 4 by hand so that the forks can be released and removed.
Turn the fork 2 which drives the sliding gear on the primary unit clockwise, to free it from the desmodromic control.
Do the same operation, though in the opposite direction, on the forks 3 driving the sliding gears on the secondary shaft.
Extract the desmodromic device.
Disengaging of drive forks from the desmodromic device.
Extract the forks together with the drive bushes 5.
5
40
Extraction of forks from gearbox unit.
6 7 Proceed to extract the complete gearbox unit including the primary 6 and secondary unit 7.
2
Extraction of complete gearbox unit: 6 main unit, 7 secondary unit.
2.9 dISASSEMBLY OF PARTS
FROM CRANkCASES
Once the crankcases have been detached, it is necessary to remove the various components attached to it.
The bearings must be replaced if they play or get jammed during rotation. For removal, oven heat the crankcase halves for 20 minutes at about
150°C.
Place the crankcase halves on a large surface where their whole seal surface can rest. Remove the bearings following the indications below.
2.9.1 Right crankcase half
On the outer side, remove the kickstarter ramp 1
(optional - kickstarter), the motor shaft spacer 2 and the crankshaft oil seal 3.
41
2
1
3
42
2 kickstart ramp 1) optional with kick-starter, crankshaft spacer 2 (and relative O-ring), oil seal 3).
Remove the desmodromic control bearing seal screw 4 from the inner side.
Bearing safety screw.
4
6
5
10
9
8
7
The bearings 5, 6, 7, 8 and 9 are removed from the outside to the inside.
Remove fixing screws 9 to disassemble bearing
10.
2
The centrifugal shaft bearing can be removed by using a universal extractor that must rest onto a purposely created metal plate.
43
2
1
2.9.2 Left crankcase half
Remove the crankshaft oil seal 1, the secondary shaft oil seal 2 and the gearshift shaft oil seal 3.
2
44
3
Removal of outer side left crankcase half oil seal.
6
4
5
The bearings 4, 5, 6 and 7 are removed from the outside to the inside.
7
Removal of left crankcase half bearings.
3 MOTOR CHECkS ANd ASSEMBLY
Before reassembling the engine, a series of important checks must be carried out to ensure correct functioning of the engine.
In order to insert the bearings in the crankcase halves, bring the crankcase halves to a temperature of 150°C and keep them at that temperature for 20 minutes.
Place the crankcase halves on a large surface where their whole seal surface can rest. When the bearings cool down, they drop into their seats on their own.
3
3.1 CRANkCASE HALF
The crankcase halves have some elements that need to have their integrity and use status checked. Hereafter the checks and assembly operations of the individual elements coupled to the crankcases will be described. Clean the threading and oil passages A thoroughly using a degreaser and compressed air.
A crankshaft bearings lubrication holes.
45
3
1
2
6Nm
4 placing of right crankcase half bearings.
5
3
3.1.1 Special applications for right crankcase half
Apply the bearings 1, 2, 3 and 4 until flush.
Block bearing 4 with specific screw, prior depositing of threadlockers. Fasten at 6Nm.
Apply the bearing 5 from the crankcase half external side, until it is flush, and bearing 6 as shown in the drawing.
Apply new oil seals, to be pressed in seat until they are flush.
6
Application of bearings from right crankcase half external side.
46 position of right crankcase half gearshift shaft bearing.
7
8
Application of kickstart ramp.
10Nm
Apply the kickstart ramp 7 and fasten screws 8 at 10Nm, prior depositing of medium strength threadlocker.
3
Apply the stopping device as follows.
Keeping the tightener on the lever 18 facing towards the half-casing, apply the spacer 17 onto it, by inserting the smaller diameter segment in the lever. Apply the spring 16so that the hook fits into the groove on the lever 18 and then apply the washers 19 and the screw 20 M6x20, spreading with medium strength threadlocker on the thread.
ExplODED vIEW OF STOppING DEvIcE:
18) lever;
16) Spring;
17) Spacer;
19) Washer 6x20x1;
20) Screw M6x20
10Nm
Apply the entire device on the crankcase half so that the straight segment of the spring rests on the bearing seat. Tighten the screw at 10Nm.
C
Application of cam stop lever.
47
3
3
2 1
3.1.2 Special applications for left crankcase half
Apply the bearings 1, 2 and 3 from the crankcase half internal side, until flush.
Application of left crankcase half bearings.
5
Application of left crankcase half parts.
4
Apply the bearing 4 from the crankcase half external side, as shown in the drawing.
Apply the crankshaft oil seal, gear secondary shaft and gearshift shaft.
Apply the bush with collar 5.
Apply new oil seals, to be pressed in seat until they are flush.
Apply new oil seals, to be pressed in seat until they are flush.
48 position of left crankcase half gearshift shaft bearing.
Deflection/Off-centring of crankshaft.
connecting rod axial play.
3.2 CHECk OF CONNECTING
ROd ANd CRANkSHAFT
After having checked the state of wear of the coupling surfaces, check the offset of the half shaft axes (by measuring radial oscillation) by placing the crankshaft in between two tailstocks or similar instrument. Control the maximum measurement variation during a complete turn, using comparators positioned on the coupling surfaces with the crankshaft bearings.
3
Allowed limit value: 0,02mm
Check the axial play between the connecting rod head and the half shafts.
Recommended play:
0,39÷0,72mm
The distance between the two shoulders must be: 62±0,05
49
50
3
1
A
3.3 ASSEMBLING OF
COMPLETE CRANkSHAFT
When all the aforementioned checks have been carried out and the worn parts replaced, grease the crankshaft oil seal on the right crankcase half and couple the crankshaft to the left crankcase half. Keep the conical part A present on the crankshaft towards yourselves. In order to carry out this operation, you must just push the shaft axially towards the crankcase.
Apply the two centring bushes 1 and 2.
2
Insertion of crankshaft in right crankcase.
check of wear of forks and gearwheels.
3.4 GEARBOx UNIT: CONTROLS
ANd REASSEMBLY
The gearbox unit is made up of the gearshift and of the gearbox itself. The gearshift is then divided into external and internal gearshift.
The following are the verifications and procedures for checking and reassembling these units to the engine.
3
3.4.1 Gearbox unit check
Use protective jaws to clamp the primary and secondary shaft.
Use a thickness gauge to check the axial play between the gearshift forks and the gearwheels.
The play detected must not exceed the service limit indicated below: service limit: 0,5mm
If the detected axial play is greater, before replacing either the gearwheels or the forks, check their state of wear (par. 3.4.4).
Remove the various elements and check that:
• the support surfaces of the primary and secondary shafts are free of abnormal wear or signs of seizure;
• the sides of the teeth are free from chipping or abnormal wear;
• the sliding areas of the gearwheels are free from abnormal wear or traces of seizure;
• the front claw clutches of the gearwheels are not chipped or rounded;
• the roller bearings are intact and efficient;
• none of the thrust washers show traces of abnormal wear or meshing;
Should any of these defects present themselves, replace the concerned parts.
51
3
3.4.2 Primary unit assembly
Before proceeding with reassembly, clean all the elements thoroughly and oil them with gear oil.
Always replace the circlips.
Clamp the mainshaft 1 (using protective jaws), so that the grooved end faces downwards.
52
ExplODED vIEW OF pRIMARY UNIT:
1) Main shaft;
2) Roller cage 22x26x13;
3) Fifth on primary;
4) Thrust washer;
5) Seeger sw15;
6) Third and fourth on primary;
7) Thrust washer;
8) Sixty on primary;
9) Second on primary;
10) Thrust washer 17x30x1
Insert onto the lower cylinder part of the shaft: the roller cage 2, the 5th gear (3) (turning the front claw clutches upwards), the 26x32x1.5 thrust washer 4 and the circlip 5.
Insert the III – IV sliding gear ( 6) so that the smaller gear faces downwards, and then insert the circlip 5.
Insert the 23x32x1.5 thrust washer 7, the roller cage 2, the 6th gear (8) (with the front claw clutch facing downwards), the 2nd gear ( 9) (with the cavity facing upwards) and finally the 17x30x1 thrust washer 10.
3.4.3 Secondary unit assembly
Before proceeding with reassembly, clean all the elements thoroughly and oil them with gear oil.
Always replace the circlips.
Clamp the secondary shaft 20 (using protective jaws), so that the grooved end faces downwards.
3
ExplODED vIEW OF SEcONDARY UNIT:
4) Thrust washer;
5) Seeger sw15;
7) Thrust washer;
10) Thrust washer 17x30x1;
11) First on secondary;
12) Roller cage 20x24x10;
13) Thrust washer 20x30x1;
14) Fifth on secondary;
15) Roller cage;
16) Third on secondary;
17) Fourth on secondary;
18) Sixty on secondary;
19) Second on secondary;
20) Secondary shaft
Insert onto the lower cylinder part: the roller cage 15, the 2nd gear (19) (so that the front claw clutches face downwards), the 26x32x1.5 thrust washer 4 and the circlip 5.
Insert the 6th gear ( 18) (so that the fork seat faces upwards) and the circlip 5.
Insert the 23x32x1.5 thrust washer 7, the two roller cages 15, the 4th gear (17) (with the front claw clutches facing upwards), the 3rd gear ( 16)
(with the front claw clutches facing downwards), the 23x32x1.5 thrust washer 7 and the circlip 5.
Insert the 5th gear ( 14) (with the fork seat facing downwards) the 20x30x1 thrust washer 13 the roller cage 12, the 1st gear (11) (with the front claw clutches facing upwards) and finally the 17x30x1 thrust washer 10.
53
3
3.4.4 Check of forks, fork pins and desmodromic device
The internal gearshift is made up of:
• two forks 13 which drive two gears on the secondary unit;
• one fork 14 which drives one gear on the primary unit;
• three drive pin bushes 15;
• two fork pins 16;
• desmodromic gearshift 18 through whose rotation the forks are driven thus selecting the desired gear.
54
ExplODED vIEW OF INTERNAl GEARBOx cONTROl UNIT:
13) I - Iv fork;
14) v - vI fork;
15) bush;
16) fork pin;
18) desmodromic control
Check to make sure that the drive pins which support the bushes 15 have no traces of meshing or abnormal wear and that the bushes themselves are not worn.
A
Drive pin
ID
Make sure the distance A between the outer faces of the fork is not less than that indicated below:
Minimum acceptable distance: 4,25mm
Check to make sure that the inside diameter D of the fork pin seats is below the limit:
Fork inside diameter limit: 13,83mm
Make sure that the fork pins upon which they slide have an outside diameter above the limit
(to be measured in the sliding areas of the forks and in the housing areas of the crankcases):
Fork pin outside diameter limit: 13,75mm
Make sure that the desmodromic control device has no corroded or worn areas especially in the grooves in which the drive pins of the forks are engaged.
Check the bearing on the desmodromic. Replace it in the event of signs of meshing or jams during motion.
3
55
56
3
1
2
Insertion of gearbox in left crankcase.
4
3
3.4.5 Assembly of gearbox and inner control
Insert the entire primary 1 and secondary unit
2 into the respective seats on the left half-casing simultaneously. Remember to oil the gears abundantly with gear oil and to grease the shafts supporting them in the areas where they are coupled with the bearing with graphitic grease.
Make sure that all the parts slide properly.
Insert the centre bearing 3 and the O-ring 4 on the secondary unit.
3
4
Detail of centre bearing 3 and O-ring 4 coupled to the secondary shaft.
5
6
Application of forks to gearwheels.
7
6
Introduce the forks together with the drive bushes on the gear tracks. To be precise; the smaller fork 5 drives the sliding gear on the primary unit, while the other two ( 6) drive the sliding gears on the secondary unit.
3
Note: the two forks 6are interchangeable and their positioning is univocal, since the drive pin must face the desmodromic device. Place the forks in their original positions if none of the components are replaced.
Insert the desmodromic device in the specific bearing. In order to do this, it is necessary to rotate cam stop lever towards the top part of the engine 7.
Insertion of desmodromic deice in specific bearing. Note the rotation of the stop lever.
5
8
Position the fork 5 of the primary unit in the central guide of the desmodromic device 8, insert the fork pin inside the fork itself and insert the pin in its proper seat in the half-casing.
place fork 5 of the primary unit in the central guide of desmodromic device 8.
57
3
8 6 Position the two forks 6 of the secondary unit in the external guides of the desmodromic device 8 and, just like the primary unit fork, insert the fork pin first in the pins and then in its proper seat.
Remember to oil the shafts, forks and the desmodromic device abundantly with gear oil.
6 positioning of the secondary unit forks 6. In the external guides of desmodromic device 8.
Apply some grease on the crankcase edge in the coupling area with the gasket and rest a new gasket.
58 view inside the right crankcase with crankshaft, gearbox shafts complete with wheels, internal gearshift and gasket.
3.5 CLOSING OF ENGINE
CRANkCASE
Apply a thin layer of grease on all oil seals.
Heat up the motor shaft bearing on the left crankcase half, being careful not to burn the oil seal.
Press the right crankcase half towards the left, being careful that the shafts and pins on the crankcase fit into the respective housings and that the crankcase half is not upside-down.
By heating the bearing it will be possible to move it close to the right crankcase half by hand.
Put the clamping screws in place based on the length, as illustrated in the figure.
The table below contains indications for applying these screws.
Tighten according to a cross sequence.
3 positioning of screws to couple crankcase.
Screw number
8
9
Screw dimensions
Threading length
M6
M6
Threading length
40
50
Threadlocker application
NO
NO
Tightening torque
[Nm]
10
10
Cut the extra piece of gasket in between the two crankcase halves in the area of the cylinder and reed valve.
Apply the circlip 1 to the secondary shaft of the gearbox.
1
59
3
0,35÷0,50
3.6 ExTERNAL GEARSHIFT
Before reassembling the external gearshift, check its state of use. While for the stop cam it is enough to make sure it's free from abnormal wear or meshing, the gearshift drive shaft needs more in-depth inspections.
3.6.1 Complete gearbox shaft check
With the device complete, make sure that the distance between the movable pawl and the drive shaft is between 0,35÷0,80mm.
Should the distance be greater, replace the movable pawl.
60
Allowed distance between shaft and pawl.
2 1 4
3 5 complete drive shaft: 1) Movable pawl; 2) Gearshift return spring; 3) Spring guide; 4) Spring; 5) Gearshift drive shaft.
In order to replace the movable pawl 1, disassemble the return spring of the gearshift 2, the spring guide 3, the spring 4 (which must be compressed and pulled out of its seat) and the pawl, moving it completely towards the shaft 5.
3
Exploded view of gearshift.
5) Thrust washer 14x30x1;
6) Gearshift return spring;
7) Spring guide;
8) pawl return spring;
9) Movable pawl;
10) Gearshift shaft.
For reassembly, couple the movable pawl 9 to the drive shaft 10 and, while compressing it, insert the spring 8 between the movable pawl and the drive shaft. The apply the spring guide 7, the gearshift return spring 6 and finally the 14x30x1 thrust washer 5 (14x30x1).
The gearshift return spring must be positioned as in the figure to be able to carry out its function.
Gearshift drive shaft: note the gearshift return spring position.
61
62
3
4 3
2
10Nm positioning of external gearshift device components.
1
3.6.2 External gearshift unit
Keeping the stop lever moved 1 iin such a way that the spring is compressed, position the stop cam 2 on the protruding end of the desmodromic control. The stop cam has only one correct position which is determined by the particular shape of the end of the desmodromic device and of the bottom part of the stop cam.
Proceed mounting the tightening screw 3 M6x30 between the stop cam and the desmodromic gearshift, after having applied medium-resistance sealant: fasten at 10Nm.
Insert the drive shaft together with the washer in its seat keeping the return spring 4 of the movable pawl pressed.
Wishing to test the correct functioning of the entire unit, you just need to temporarily couple the external gearshift lever and to simulate the operation of changing gears, by lifting and lowering the gearshift lever and having the main shaft of the gear unit rotate. The whole device works properly if abnormal jamming does not occur.
If the unit runs without oil, the device makes more noise than usual.
3.7 kICk STARTER dEVICE
(kICk STARTER)
(OPTIONAL)
Before coupling the kickstarter to the crankcase half, some checks must be carried out.
3.7.1 kickstart shaft unit check and assembly
In order to disassemble all the parts of the kickstart shaft, pull off the washer 11 at the end of the shaft (on the side of the spring 16), the spring 16, the kickstart sleeve 14, the lever 8 return spring, which to be unfastened from the shaft must be pulled in the radial direction so that it is extracted from its hole.
3
ExplODED vIEW OF cOMplETE kIckSTART SHAFT:
2) kickstart gear;
3) kickstart shaft;
8) kickstart return spring;
9) kickstart spacer;
10) circlip 20E;
11) Washer thickness 20x28x1 DIN 988;
12) Roller bearing k20x24x10;
14) kickstart sleeve;
16) Spring.
14
Remove the kickstart spacer 9, expand the circlip 10, allowing removal of washer 11, of kickstart gear 2 together with roller bearing 12 and washer 11. This frees the kickstart shaft 3 from all other elements.
Make sure that the side of the kickstart gear teeth 2 have no signs of meshing or superficial wear. Make sure that the front teeth (sleeve side
14) are not chipped. Replace any element that has the aforementioned defects.
Make sure that the front teeth of the sleeve 14 are not chipped and that the spring 16 is capable of putting enough pressure on the sleeve 14 so that it can to pull the gear 2.
Also check to make sure that the washers have no abnormal or excessive wear. If so, have them replaced. Make sure that the spring 8 has no cracks or abnormal deformation. Have it replaced if it is not able to bring the external kickstart lever back to the rest position.
For reassembly, proceed inversely compared to the previously-described disassembly procedures.
Pay attention to the correct positioning of the sleeve 14 respect to the shaft 3. The front of the shaft has a reference sign, just as the sleeve does
14: the two references must match.
3
63
64
3
B positioning of sleeve A below ramp B.
A
3.7.2 Assembly of kickstart device (kick starter)
Insert the complete kickstart shaft in its housing keeping the thin-striped facing outwards and making sure that the ramp A on the kickstart sleeve is positioned below the ramp B bolted onto the right crankcase half (external side).
Turn the spring clockwise until it fits into the specific hole C.
C
Insertion of kickstart return spring.
kickstart device unit coupled to the crankcase.
Insert in the slot on the protruding segment of the secondary shaft: the circlip 18, the rose-petal
17, the idler wheel 4 followed by the rose-petal
17 and the circlip 18 as shown in the figure.
3
65
3
160Nm
Exploded view of pinion unit.
A
3.8 MAIN GEAR ANd CLUTCH
UNIT
Before reassembling the clutch unit, carry out some checks on the various components described below.
3.8.1 Primary gear check
Check teeth of main gear is without nicks or abnormal wear. On the contrary, replace it
3.8.2 Primary gear application
Apply the O-ring 18, the spacer 12 and gear14 on the right half shaft so the appropriate groove inserts inside the Woodruff key 17. Apply lock nut
15 prior depositing of medium strength threadlocker. Fastening torque must be at 160Nm.
This is possible once the clutch case is inserted using primary special tool A (code 026140010
000). See Par. 3.8.3 to apply the clutch case.
Attention! The nut is fastened anti-clockwise
66
Fastening of the main gear nut.
clUTcH cASE:
A. Teeth meshing with main gear;
B. Teeth meshing with kickstart idler gear; c. Teeth meshing with driving discs;
D. External washer.
3.8.3 Check of clutch case, roller bearing and internal centre bearing
Before reassembling the clutch case, make sure that the sides of the teeth A, dedicated to main transmission and B, dedicated to meshing with the kickstart idler gear and oil pumps, have no superficial nicks or abnormal wear.
Also closely check that the teeth C, upon which the driving discs engage, are not chipped or deeply cut.
Check the external surface D does not show traces of meshing or abnormal wear.
If any damage is found, have the piece replaced.
3
C d
B
A
67
3
1
2
Internal centre bearing and roller bearing of clutch case.
Check the state of use of the silent-blocks as follows. Clamp gear B using protective elements and impose a rotation to the clutch case. If there is play between the case and the gear unit, replace the silent-block.
Check the state of use of the internal centre bearing 1 which must have no traces of meshing or abnormal wear.
Check the state of use of the roller bearing 2. If it is worn, have it replaced.
Minimum distance between two opposite inserts.
3.8.4 Clutch disc check
The clutch discs divide in driving and driven: eight driving discs and seven driven discs.
The driving discs have cork inserts on both sides which wear out due to the driven discs sliding on them.
Make sure that the thickness between the two inserts positioned on the opposite faces of each driving disc is not below the minimum value fixed at: minimum distance between two opposite inserts: 2,8mm
The other value that needs to be checked is the thickness of the teeth of each driving disc. They must not be less than the minimum value fixed at: minimum driving disc tooth thickness:
13,3mm
68
Minimum driving disc tooth thickness.
Measuring driven disc distortion.
Also check the distortion of the driving discs. This operation is done by placing the driving discs on a perfectly flat surface and using a thickness gauge to check that the gap between the disc and the surface is not greater than: allowable distortion driven discs: 0,10mm
3
3.8.5 Spring check
To ensure the correct pressure between the clutch discs, the state of the springs must be checked. The minimum acceptable length must be: 42mm clutch spring length measurement.
B check of clutch drum teeth.
A
3.8.6 Clutch drum check
The clutch drum meshes with the driven clutch discs by means of the teeth A: Make sure these teeth are not meshed or shaped by abnormal wear. If so, replace the drum.
Ensure that the area marked by B does not present any no traces of meshing. If so, replace the drum.
Also control that the radial holes present on the clutch drum are not obstructed and are free from sediments.
69
3
B
Thrust bearing device.
A
3.8.7 Thrust bearing device check
Check the state of use of the thrust bearing and the surfaces upon which it rests. In order to check the thrusting bearing, just see if it slides. When the device is assembled, simulate rotation of the front centre Bearing A respect to the rear one B.
Be careful for presence of traces of meshing or wear on the sliding surfaces.
3.8.8 Clutch unit assembly
After having lubricated the end of the main transmission shaft, insert the internal centre bearing
4 to which the roller bearing must be coupled 5.
Insert the clutch case 1 followed by the 21.7x38x3 washer 6 , upon which the clutch drum will rest
2. Put on the safety washer 7 and after having applied medium strength threadlocker, couple the lock nut 8. Slightly rotate the kickstart idler gear and the clutch case to facilitate inserting the clutch case.
70
ExplODED vIEW OF clUTcH UNIT.
1) complete case 2) clutch drum; 3) clutch cap; 4) Internal centre bearing; 5) Roller bearing 26x30x22; 6) Washer; 7) Safety washer;
8) Nut M18x1,5; 9) Overall thrust bearing; 10) clutch body rod coupling; 11) Thrust bearing; 12) circlip RB14; 13) clutch spring; 14) clutch spring retainer; 15) Screw M6x25; 16) Driven discs; 17) Driving discs.
120Nm
To unscrew the nut 8 the clutch drum must be blocked with a relevant tool A (cod. 026140010
000); the clamping torque is set at 120Nm.
Having tightened the nut, bend the two blocking flaps on the safety plate.
3
A clutch drum blocking by means of specific tool code
026140010 000.
Lubricate the clutch discs with gear oil and proceed to apply the discs, alternating driving discs and driven discs.
I
III
IV
II
10Nm complete clutch and recommended fastening order.
Notice that the driven discs must be inserted so that the radius on the teeth faces inwards towards the engine.
Insert the overall thrust bearing 9 (after having lubricated it with gear oil) in the hole on the main gearbox shaft and check its free axial sliding.
Close the clutch unit by means of the clutch cap
3, the four springs 13, the fours spring retainers
14 and the four screws 15, to be tightened with a torque of 10Nm, in a criss-cross pattern.
71
72
3
ExplODED vIEW OF cENTRIFUGAl UNIT AND WATER pUMp UNIT
1) Rocker arm;
2) 5x15x2;
3) Screw M5x12;
4) complete valve control rod;
5) Spring guide;
6) Auxiliary spring;
7) Adjusting spring;
8) Washer 10x16x1;
9) Roller bush;
10) centrifugal control lever;
11) Water pump impeller;
12) Water pump washer;
15) complete centrifugal unit;
16) Roller axle cage;
17) centre bearing;
18) Spacer;
19) circlip;
20) complete centrifugal shaft;
32) Ball joint retainer ring;
33) Bearing 6x19x6;
34) Bearing 15x32x9;
35) Oil seal
3.9 COOLANT LIQUId PUMP
ANd CENTRIFUGAL UNIT
The water pump must guarantee, depending on the set rotation speed, the correct flow rate of the coolant in order to extract the needed amount of heat from the thermal unit. The centrifugal unit activates the whole exhaust valve control leverage based on the engine rotation speed, while springs 6 and 7 give the correct contrast to the centrifugal action caused by 20 in order to guarantee excellent supply of torque and power.
The impeller 11 is fastened to the shaft 20 and the coupling is ensured by clamping the screw 3 onto the shaft 20.
The centrifugal unit 20 shaft is supported by bearing 34 present on the internal clutch cover and by bearing 33 on the external side right crankcase half. Seal is guaranteed by oil seal 35.
A view in centrifugal unit section: stroke A.
3.9.1 Check of pump unit and disassembly, centrifugal unit and idler unit
Refer to par. 2.6.1 to disassemble the entire pump unit.
Check oil seal use status. Replace if worn.
Check centrifugal unit shaft use status. Replace the entire centrifugal unit if dented in the area in contact with the oil seal.
Check the device's axial stroke A is between 6.4-
6.6mm.
On the contrary, replace the unit.
3
Remove circlip 19 and check use status of the roller axial cage 16. Replace it in case of anomalies.
Exploded view of centrifugal unit.
Check the roller bushes 9 do not jam during their operation and check the centrifugal control lever moves correctly 10.
Exploded view of bearings and centrifugal control lever.
Also check area A of lever 10 is not worn.
check of centrifugal control lever A area.
A
73
74
3
20
3.9.2 CENTRIFUGE UNIT
GROUP ASSEMBLY
Insert the centrifugal unit 20 in inner dutch cover.
Insertion of centrifugal.
10 Insert the centrifugal control lever 10 together with the washers 8.
Insertion of centrifugal control lever.
8
4
Apply the valve control rod gasket and the rocker arm unit 1 - valve control ros 4.
3
1
Application of valve control and rocker arm unit.
Apply blocking screws 3 prior depositing of medium strength threadlocker. Fasten at 6Nm
3
6Nm centrifugal unit.
75
76
3
3
4
Spring guide and springs unit.
6 Nm
5
Apply the auxiliary 5 and adjusting 4springs to the spring guide 3.
Apply the complete regulator cover to the inner clutch cover. Apply the blocking screw prior application of medium strength threadlocker and fasten at 6Nm.
Fastening of adjusting cover.
Displacement
[cm 3 ]
300
Adjusting spring
Colour
Yellow
The vehicles equip the following auxiliary and adjusting springs.
Auxiliary spring
Colour
White
Thicker edge
1
2
Application of the oil seal to pump body.
1
3.9.3 PUMP UNIT ASSEMBLY
Grease the oil seal housing on the pump body
1. Position the oil seal 2so that the thicker edge faces the outside of the pump body. Insert the oil seal, having it enter the seat very slowly to keep it from deteriorating. The oil seal edge must be at the same quota of the pump body
(outer side).
3
3.9.4 ASSEMBLY OF
COMPLETE CLUTCH
COVER ANd PUMP UNIT
Apply a new gasket 1 placed between the right crankcase half and the inner clutch cover using the two reference pins 2 to keep it in place.
Couple the inner clutch cover to the right crankcase half and rotate the centrifugal shaft until the shaft meshes in the main gear.
2 positioning of gasket and reference pins.
77
78
3
Apply the seven screws as shown in figure, fastening them at 10Nm with a criss-cross pattern.
Screws positioning.
Screw number
6
7
8
Screw dimensions
Threading length Threading length
M6
M6
M6
20
25
50
Threadlocker application
NO
NO
NO
Tightening torque [Nm]
10
10
10
Grease the O-rings on the water hose and insert the hose 4 in the right crankcase half.
3
4
Insertion of water hose.
7
6
Apply the gasket between the pump body and clutch cover. Grease the inner diameter of the oil seal on the pump body 5 and apply the body to the clutch cover.
Apply washer 6 and water pump impeller 7.
5
Application of water pump impeller.
8
6Nm
Apply screw 8 prior application of the medium strength threadlocker and fasten at 6Nm complete water pump.
pump cover.
9
10Nm
10
Couple the water pump cover to the pump body by applying the two M6x60 screws 9 and the two M6x30 screws 10 M6x30. Fasten all screws at a torque of 10Nm following a criss-cross pattern.
79
80
3
1
2
1
10Nm
3.10 ELECTRIC IGNITION UNIT
Carry out the following checks before assembly.
3.10.1 Bendix coupling checks
Check wear of the gearwheels present on the unit. Replace the whole coupling in case of abnormal wear and signs of chipping of the wheels.
Keep wheel 1 fixed and rotate the mobile coupling 2 anti-clockwise; this must slide without jams. By releasing the mobile coupling, this must go back to rest position without jams.
Replace the whole unit if anomalies are detected during these two checks.
3.10.2 Ignition unit coupling to motor
Apply a thin layer of grease on the O-ring present on the start motor. Insert the start motor in its seat and block it with the two screws 1, prior application of medium strength threadlocker.
Fasten at 10Nm
Pour about 7cc of gearbox oil (PANOLIN OFF
ROAD 4T SYNTH 10W/40) in area A.
3
Application of oil.
A
3
Insert Bendix coupling 2 in bush with collar 3 present on the outer side left crankcase half.
Insertion of Bendix coupling.
2
81
82
3 x
Quota at which to measure the outside diameter of the piston.
3.11 THERMAL UNIT
Before assembling the thermal unit, thorough checks must be carried out on the cylinder, piston, pin bolt, elastic bands described hereafter.
3.11.1 Checking piston and elastic bands
Eliminate carbonaceous sediment from the top of the piston and wash the entire piston with specific degreasing agent.
Do not use sharp points or tools for cleaning.
Then carry out a careful analysis of the piston which must be free from forcing, scratches, cracks or any type of damage.
Analyse the external diameter of the piston.
The diameter must be measured at a distance X from the inner edge of the skirt, perpendicularly to the axis of the pin bolt.
Refer to the following table for the piston's selection classes.
Displacement
[cm³]
300
Quota x [mm]
18
A
71,935÷71,945
Bore [mm]
B
71,945÷71,955 c
71,955÷71,965
In order to check the state of use of the elastic bands, the band must be inserted in the cylinder so that its axis is aligned with the axis of the cylinder. Then measure the distance between the two opposite edges.
The elastic bands must be positioned at about
31 mm from the cylinder's upper edge.
The respective service limits are carried in the table below.
First check of elastic bands.
Displacement
[cm³]
Service limit of elastic band
[mm]
300 0.4
A x
3.11.2 Cylinder check
Check the cylinder is without signs of seizure. On the contrary, replace it.
Measure the bore at a distance A from the top face of the cylinder (surface between cylinder and head). Take the correct measurement by following direction X.
3
Displacement [cm³]
300
Quota A [mm]
31.5
Bore measurement is required to know the coupling play between cylinder and piston.
83
3
The cylinder's specific class is punched inside the resonance chamber compartment.
84 punching of cylinder class.
2
3.11.3 Piston cylinder coupling play
The following table carries the coupling play between the cylinder and piston. In order to calculate the coupling play between the cylinder and the piston, a subtraction must be carried out between the diameter of the cylinder and that of the piston.
Displacement
[cm³]
300
Maximum play of piston cylinder
0.1
3.11.4 Checks and exhaust valve unit disassembly
Remove screw 1 fastening the valve control unit to the booster; then remove screw 2 fixing the bearings.
1 complete valve control unit.
Remove screw 3 fixing the bearings, located on the resonance chamber side.
3
Note: Should it be necessary to descale the valve unit, remove the screws 2 and 3 and extract the booster, without removing the valve control unit.
3
Fixing of booster bearings resonance chamber side.
Tighten one M5 screw to the booster control unit side and pull externally. Use a pair of pliers or similar tool if required.
Repeat the operation with the booster on resonance chamber side, using one M6 screw.
Extraction of booster.
85
3
Extract the control valve pin if it has not come away with one of the boosters.
Extract the valve pin by pushing it using a metal cylinder A and then extract the valve, that is divided into two pieces (right and left).
86
Extraction of pin.
A
5
6
The exhaust valve unit.
4
Check the bearings 4 supporting the booster are efficient, without jams during functioning or excessive play, once the unit has been cleaned and descaled. On the contrary, replace.
Check pins 5, 6 and relative seats are not abnormally worn. On the contrary, replace the worn parts.
3.11.5 Exhaust valve unit assembly
Insert the right and left exhaust valve in the exhaust pipe so part A is facing the upper part of the cylinder and the fulcrum is facing the front of the cylinder.
Insert the valve in the fulcrum.
A
Area A of the exhaust valve.
Insertion of booster.
10Nm
B
Apply the valve control pin to one of the two boosters and insert the unit in the cylinder, so that:
∙ the pin engages in the open slot in the valves;
∙ the booster's area B is facing the front of the cylinder.
Apply the other booster.
3
Apply the four bearings (two each side) that support the boosters and fully press them in seat.
Apply the booster bearings fixing screws with washer. Apply on the medium-resistance sealant threading and fasten at 10Nm.
10Nm
87
88
3
6Nm complete valve control unit.
6
5
4
Apply spacer 4 and the complete stroke end lever on the control side 5.
Then apply all other parts. Screw 6 must be covered with medium strength threadlocker and fastened at 6Nm.
Try moving the unit and check the entire mechanism perfectly slides, once assembly is completed.
3.11.6 Piston, pin bolt, elastic bands and cylinder assembly
Insert a circlip for pin bolt retaining in one of the seats on the piston's side, placing the circlip's open part upwards or downwards.
Apply the roller cage in the connecting rod's foot, and lubricate it.
Oil pin bolt and seat in piston. Insert the pin bolt in the piston from opposite side to where the circlip was inserted, leaving enough space to allow connecting rod coupling to piston.
Place a piston so that the arrow stamped on the crown is facing the front of the engine (outlet port). Couple the piston to the connecting rod by fully pushing the pin bolt until flush with the previously inserted circlip. It may be helpful to use an aluminium cylinder (or similar tool) during this phase.
Attention! Place a clean cloth between the piston and the crankcase to keep foreign objects from falling inside the base.
Introduce the second circlip in the specific seat by placing the open part upwards or downwards.
Remove the previously inserted cloth.
Abundantly oil the skirt of the piston with engine oil and insert the elastic bands, which edges must face the area with the stop pin.
Ok NO!
positioning of elastic bands on the piston.
Apply the gasket between crankcase and cylinder.
Accurately oil the entire cylinder using engine oil and insert the piston in the cylinder. The piston must be inserted in the cylinder fastening the elastic bands between the fingers. The cylinder must be positioned so that the outlet port is facing the front of the engine.
Push the cylinder towards the base.
3 coupling of cylinder to piston and crankcaseApply the four collar nuts and fasten them at
30Nm, following the criss-cross pattern.
30Nm
Fastening of cylinder nuts.
89
90
3
Displacement [cm³]
300
Model Year
2015
If the plate and piston do not touch: check distance between plate and piston.
3.11.7 Check of crankcase/ cylinder gasket thickness
The thickness of the gasket between the cylinder and crankcase must be checked every time the following are replaced:
∙
Cylinder;
∙
Piston;
∙
Crankshaft;
∙
Connecting ;
∙
Crankcase.
The check is necessary as such thickness affects the engine performances. This check must be carried out using specific calibrated plates setout in the table.
code
026140020 000
Side
A
The use of the plates is described below.
∙
Rest the specific plate making sure it comes into contact with the cylinder's upper surface.
∙
Bring the piston to top dead centre and, using a thickness gauge, check play between the piston and plate is between 0÷0.10mm.
If play between piston and plate is higher by
0.10mm, reduce the cylinder/crankcase gasket thickness and carry out the test again.
Measure play with thickness gauge and increase gasket thickness so contact between plate and cylinder is guaranteed, if the piston pushes the plate upwards failing contact between plate and cylinder. Carry out the check again.
3
If the piston pushes the plate failing contact cylinder/plate
The gaskets are supplied in four different thicknesses:
∙
0,3mm;
∙
0,4mm;
∙
0,5mm that can also be stacked, thus obtaining the necessary height for the right thickness.
Note: the above-described check must be carried out once all four crankcase cylinder coupling nuts have been fastened at the set torque
(30Nm).
15Nm
27Nm
3.11.8 Cylinder head application
Apply the two O-rings to the cylinder. Rest the head so that water hose is facing the front of the engine. Grease the screws and apply them to the head, together with the copper washers.
Following a criss-cross pattern, fasten in two phases:
1. 15Nm;
2. 27Nm
Fastening of head.
91
3
2
3.11.9 Exhaust valve adjustment
Bring the valve control unit 1 in all closed position so the end stroke lever is flush with the booster bearing clamping screw 2.
4
3
1
Check the ball head 3 and teh seat 4 are perfectly aligned.
On the contrary, loosen the lock nut, adjust the seat and fasten the lock nut.
positioning of valve control.
NO!
NO!
Ok
92
Incorrect positions of the control rod seat.
correct position of the control rod seat.
The the control rod is able to rotate around its axis, making equal angles respect to the ball head axis.
3 check of control rod rotation.
5
Apply gasket 5 and insert the control rod.
Apply the stop 6.
Insertion of control rod and application of stop.
6
93
94
3
Reference of all open.
7
Intervene on screw 7 for the dynamic adjustment of the escape valve unit, thus modifying the characteristic curve of the engine.
The positions indicated in the below table are those considered excellent for engine functioning.
Displacement [cm³]
300
Regulation of adjustment screw (from all open)
3 1/2
The "all open" position corresponds to the perfect alignment between adjustment screw head and adjustment cover.
Adjustment must, therefore, be carried out as follows.
∙
Bring the screw to “all open” position;
∙
Tighten the number of turns indicated in the table.
The effects obtained from modifying the position of the adjustment screw respect to the positions in the above table, are shown in the table.
clockwise rotation of adjustment screw
Softer flow-rate and less over-rev
Anti-clockwise rotation of adjustment screw
Greater acceleration and lower torque at low speeds
Attention! Do not tighten the adjustment screw for more than three and a half turns from the all open position.
6Nm
3.11.10 Cover plate application
Apply the valve control unit cover and relative screws. Fasten at 6Nm.
3
Application and fastening of valve control unit cover screws.
6Nm
Apply the resonance chamber side gasket and cover. Apply the screws and fasten at 6Nm
Application of resonance chamber cover and relative screws.
95
3
6Nm
Element pick up
Stator
3.12 CHECk OF IGNITION
SYSTEM
Before reassembling the ignition system, it is recommended to check its correct functioning.
The ignition system is made up of the magnetic pick-up, the stator unit and the flywheel. The system is completed by the ignition coil and the spark plug, which are not dealt with in this text.
3.12.1 Check of ignition system
Accurately degrease the various elements and carry on with the checks.
The main check is the one concerning the electrical verification which can be done by using a standard tester. The detected strength values must respect those in the table.
cables
Red – Green
Red/Black – White/Red
Yellow – Mass
Yellow - White
Strength values
100 Ω ± 20%
14,7 Ω ±15%
0,61 Ω ±15%
0,18 Ω ±15%
3.12.2 Coupling of ignition system to crankcase
Apply the pick up to the crankcase by inserting the gasket in the specific seat, prior application of the isolating silicone paste.
Apply the thread of the two screws 1 with medium strength threadlocker and tighten them at a torque of 6Nm.
96
1 coupling of pick up to crankcase.
Degrease the conical segment of the crankshaft, apply the Woodruff key 8 in the appropriate groove on the crankshaft, couple the flywheel 9, the elastic rose-petal 5 and the nut 4, after having applied the thread with medium strength threadlocker.
3
60Nm
Exploded view of flywheel. 4) Nut M12x; 5) Elastic washer;
8) Woodruff key; 9) Flywheel.
Fasten the nut to torque 60Nm, keeping the flywheel blocked with special tool A (code
026140040 000).
A
Flywheel fastening.
coupling of stator to flywheel cover.
10
11
10Nm
Couple the stator to the flywheel cover by means of the two screws 10. Apply the threading with medium strength threadlocker and tighten them at a torque of 10Nm.
Insert the cable gland in its specific seat and check its perfect sealing.
Apply a few drops of silicone in the guides for housing the plate 1. Appliy the plate 11 to be inserted in its guides and pressed. When coupling it to the left crankcase half, apply a drop of gasket paste (code 3625000000) in area B.
B
Application of stator plate.
97
98
3
12
Insert the centring 12 pins 12 on the crankcase and fasten a new gasket.
Application of flywheel cover centring pins.
13
14
Apply the flywheel cover plate, the twoscrews 13
M6x25 and the three screws 14 M6x20. Tighten in a criss-cross pattern at a torque of 10Nm.
10Nm
14
Flywheel cover coupled to crankcase.
13
Disassembly of reed valve body.
3.13 CHECk OF INTAkE UNIT
ANd ASSEMBLY
Check the manifold 1 is intact and without cracks. On the contrary, replace it.
Check that the multiflap 2 of the reed valve 3 are intact and not deformed. On the contrary, replace them.
3
2
1
3
Remove the multiflap by pressing the central body as shown in figure and remove the outer multiflap.
99
3
Remove the two central wedges and remove the multiflap.
Assemble the multiflap by following the just described procedure, in reverse order.
Disassembly of central wedges. The extraction of only one is shown in figure.
7
For assembly of the entire intake system, apply the manifold to the reed valve, followed by the gasket 4, the spacer 5 and another gasket 4.
Tighten the screws 6 a 10Nm.
Place the two screws 7 in the top holes of the manifold, without tightening them.
4
5
4
Application of reed valve.
6
10Nm
100
Insertion of clutch rod.
3.14 INSERTION OF CLUTCH
ROd ANd PINION SPACER
Apply the pinion spacer 5 to the secondary of the gearbox 1 so that the groove is facing inside the motor.
Note: check the O-ring 4 is present. On the contrary, apply it.
3
Insert the gearbox rod in seat from the lower diameter side.
101
4
4 REASSEMBLY OF ENGINE IN THE VEHICLE
∙
Insert the engine in the frame. We recommend insertion from the frame's left side.
1
∙
Insert the engine pins 1.
∙
Apply the spark plug and fasten it at 28Nm.
70Nm
2
∙
Insert the upper shock absorber pin 2 and the swingarm pin 3. Fasten the shock absorber pin at 70Nm.
3
∙
Apply the carburetor to the manifold making the breather tubes pass in the appropriate metal cable gland.
102
∙
Apply the head connections.
4
35Nm
Fixing
Head connection bracket to frame.
Head connection brackets to engine
Engine pins
Swingarm pin
5
35Nm
Screw
M8 x 16
M8 x 60
Special
M16 x 245
∙ Fasten the nuts and bolts following the table below.
Torque [Nm] Threadlocker
Mediumresistance
35
35
45
125
∙
Rotate the filter box in its normal position
Apply the bottom clamping screws 4 (one on each side) before applying medium strength threadlocker and tightening at 35Nm. Tighten the upper screws 5 to 35Nm.
Note: We recommend removing the upper screws (one each side) and apply medium strength threadlocker.
4
35Nm
103
4
8
6
7
∙
Assicuratisi che il manicotto cassa filtro sia correttamente inserito nel carburatore, serrare le due fascette lato cassa filtro e lato collettore.Make sure the filter box sleeve is correctly inserted inside the carburetor, fasten the two filter box side and manifold side straps.
∙
Remove the cap applied to the mixer tube
(see page 10).
∙
Slide the tube through the tube hole 6 and connect it to the nozzle 7 on the intake manifold.
ATTENTION! Ensure that the tube is fitted all the way onto the nozzle.
∙
Apply the complete coil unit to the intake manifold and tighten the screws 8 at 10Nm.
10Nm
104
10Nm
6
10Nm
∙
Apply the unit clutch actuator to the two 6 fixing screws. Fasten at 10Nm.
∙
Apply the gearbox lever and fasten the screw at 10Nm prior application medium strength threadlocker.
4
∙
Fasten the motor electric system and the start motor cable to the clutch cable.
∙
Connect the connectors:
A TPS sensor;
-
C stator unit
∙ Fasten
the electrical system to the frame
C
B
∙
Connect the coil to the spark plug.
A
105
4
10Nm
• Apply the start motor cable and fasten the nut at 10 Nm. Cover the connection using the specific protective cap.
• Connect the ventilation pipes to the engine
• Apply the left radiator to the frame. Apply the screws and fasten at 10Nm. Apply the protective grid.
• Apply the right radiator, the respective screws to be tightened to 10Nm. Apply the protective grid.
• Connect the electrical accessories of the right radiator to the electrical system.
106
A
• Connect the radiators to the engine. Fasten the tube clamp straps and introduce the coolant liquid,letting the air bleed through the screw plug A.
4
107
4
25Nm
7
∙ Apply the exhaust expansion by first assembling the front springs and then applying the two fixing screws.
∙ Apply the spacer and fasten the two fixing screws at 10Nm. Fasten the expansion fixing screws to the frame at 10Nm.
∙ Apply the Kickstart lever (optional). Apply the medium-resistance sealant threading on the screw and fasten at 25Nm. Apply the brake pedal return spring 7.
8
∙ Insert the pinion in the chain and fasten it onto the gearbox outlet shaft. Assemble the relative circlip 8 checking its in its seat.
10Nm
10Nm
9
∙ Apply the pinion guard 9 and frame side guards 10 and 11. Fasten the screws at
10Nm and apply the fixing straps between the side guards and frame.
108
10Nm
7Nm
∙ Apply the tank to the vehicle, ensuring that the electrical wiring and clutch tube are between frame and tank.
∙ Apply the tank, complete with lateral sides, by tightening the screws at the required torque.
4
∙ Connect the two quick couplings on the bypass tube.
10Nm
∙
Reconnect the tank to carburetor fastening the tube using the specific clamp straps.
∙
Reapply the paramotor plate with the two fixing screws, once the motorcycle is removed from the stand. Fasten at 10Nm.
Attention! Disconnecting the mixer tube from the intake manifold could cause air to get into the tube itself. To avoid any lubrication problems with the thermal unit and crankshaft, use fuel with a 1% blend for the first fill-up.
Use the oil recommended on page 133 in the
"Recommended lubricants and liquids" table.
109
110
TABLE OF FASTENING TORQUES OF ENGINE COMPONENTS
Fixing Diameter x length Quantity Threadlocker
Torque
[Nm] kickstart ramp
Desmodromic control bearing fixing
Stop cam
Stopping device lever
Gearshift lever
Start motor
Main transmission pinion nut
Drum nut and clutch case
Outer side right crankcase half
M6 x 20 2
Inner side right crankcase half
Mediumresistance
M5 x 8 1
Mediumresistance
Gearshift
M6 x 30
M6 x 20
M6 x 25
M6 x 20
1
1
1
Electrical kickstart device
2
Mediumresistance
Mediumresistance
Mediumresistance
Mediumresistance clutch main transmission
1
1
Mediumresistance
Mediumresistance
10
6
10
10
10
10
160
120
Notes
Do not use the pneumatic device clutch cap M6 x 25 4 10 clutch actuator clutch actuator
Outer clutch cover
M6 x 20
M6 x 30
M6 x 20
2
1
2
10
10
10
Outer clutch cover M6 x 50 3 10
In common with inner clutch cover
Inner clutch cover
Inner clutch cover
M6 x 20
M6 x 30
2
2
10
10
Inner clutch cover
Inner clutch cover
M6 x 50
M6 x 60
3
2
10
10
In common with outer clutch cover
In common with water hose cover
Water pump cover M6 x 60 2 10
In common with inner clutch cover cover
Impeller
M6 x 30
M5 x 12
2
1
Mediumresistance
10
6
Fixing cover complete control rocker arm control lever
Booster bearings
Right cover left cover
Spark plug pick-up
Stator
Flywheel nut cover
Diameter x length Quantity Threadlocker
M5 x 20
Exhaust valve control
2
M5 x 12
M5 x 20
M6 x 16
1
1
2
Mediumresistance
Mediumresistance
Mediumresistance
Medium resistance
M5 x 16 3
M5 x 16
M14 x 1,25
4
Ignition system
1
M5 x 12
M6 x 25
2
2
1
Mediumresistance
Mediumresistance
Mediumresistance
M6 x 20 2 cover M6 x 25
Torque
[Nm]
10
10 cylinder nuts
Head screws crankcase half screws crankcase half screws
Reed valve
M8 x 35
M6 x 50
M6 x 40
M6 x 30
3 cylinder
4
Head
6 crankcase half
10
3
Intake
4
10
10
10
6
6
6
6
6
10
60
28
6
30
27
10
Notes
111
112
Fixing
Front and lower engine connections
Swingarm pin
Brackets to connect head to frame
Head connection brackets to engine
TABLE OF FRAME/MOTOR FASTENING TORQUES
Diameter x length
M10 x 1.25
M16 x 1.5
M8 x 16
M8 x 60
Quantity Threadlocker
2
1
2
1
Mediumresistance
Torque
[Nm]
45
125
35
35
Notes
RECOMMENdEd MOTOR MAINTENANCE
The requested engine maintenance only depends on the level of use and respect of the periodical inspections. The following intervals refer to a competitive use, as long as the engine has not worked in extraordinary conditions and that periodical inspections and interventions have been correctly carried out.
coated clutch discs clutch springs length
Gearbox bearings case/clutch hub cylinder piston and segments connecting rod crankshaft bearings
Gearbox superficial look
Water hose oil seal
Exhaust valve
Reed valve
Spark plug
I = INSPECT AND REPLACE, IF REQUIRED
30h 60h
-
-
-
I
-
-
-
-
-
-
I
I
S
S = REPLACE p = Cleaning
-
-
-
I
-
S
-
-
I/p
I
-
-
RECOMMENdEd LUBRICANTS ANd LIQUIdS
ApplIcATION
Gearbox and clutch pRODUcT liqui Moly racing 10W40 coolant liquid liqui Moly coolant ready mix raf12 plus
Mixer tank liqui Moly 2-STROkE MOTOR OIl, SElF-MIxING
Fuel tank
(only for running in) liqui Moly 2-STROkE MOTOR OIl, SElF-MIxING
* Refer to Use and Maintenance Manual for levels
QUANTITY
850ml*
1300ml*
550ml
1% blend
90h
S
S
I
-
-
-
S
S
-
I
S
S
-
113
114
NOTES:
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Key features
- Electronic ignition for easy starting and reliable performance.
- Hydraulic clutch for smooth and precise gear changes.
- Lightweight and durable aluminum frame for enhanced handling and agility.
- Powerful 300cc 2-stroke engine for responsive acceleration and impressive power delivery.
- Adjustable suspension system for optimal handling and comfort on various terrains.
- Ergonomic design for a comfortable and confidence-inspiring riding position.