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OWNER’S MANUAL

Industrial Hot Water Fully Electrically Heated

Special Inspection

BEFORE YOU BEGIN!

HIGH-PRESSURE WASH EQUIPMENT AND THE SPRAYS THAT THEY GENERATE

CAN CAUSE SERIOUS INJURY.

THINK SAFETY FIRST!

The forces generated by high-pressure sprays can penetrate clothing or skin and cause severe personal injury. Additionally, the high-pressure spray and material dislodged by it may be deflected back toward you and / or persons or objects nearby. Water or water combined with cleaning agents or soap can make floors and other surfaces slippery, creating the possibility of persons or objects falling. Power cords and high-pressure hoses create a further hazard and should always be stored neatly when not in use. During any cleaning operation, hoses and power cords should be laid flat on the ground and away from areas where they may become entangled in objects or cause tripping of persons passing by. Always consider the surrounding environment and

conditions before beginning any cleaning operation.

Eye protection, safety footwear and protective clothing should always be worn when using this

equipment.

Never place any part of your body in front of the high-pressure nozzle.

Never direct the high-pressure spray at yourself or any other person.

Never allow children to operate the pressure washer.

Hold the trigger gun/wand assembly securely with both hands when operating the pressure washer.

Never direct the high-pressure spray at any electrical device or the pressure washer itself.

Never operate electrically powered pressure washers where they will be exposed to rain or other

forms of precipitation or spray.

Never operate the pressure washer with damaged parts or components.

Never allow the machine or accessories to freeze.

Do not drive over or crush high-pressure hoses or allow them to come in contact with sharp objects.

Do not operate electrically heated system without first supplying water to the heat exchanger tank.

Fill the water tank with clean water to safe levels of operation.

Do not attempt to move or pull the machine (portable equipment) by the high-pressure hose or

electrical cord.

When not in use, turn the machine OFF and depress the trigger gun to remove residual system

pressure

Do not operate the system without a water supply.

Do not allow the machine to operate (by-pass) for extended periods with the trigger gun closed or

without discharging water.

Avoid rapid triggering and releasing of the gun. Smooth triggering will extend the life expectancy of

the system components.

High-pressure wash system components are sensitive to solid matter and debris that may be present in the fluid moving through them. Additionally, material allowed to enter hoses and various connections when the equipment is improperly moved or stored can increase the potential for failure. To avoid component fouling, poor system performance and costly downtime, always ensure that a clean water supply and when possible, a clean environment is provided to the machine

3 of 28 Rev. 12/09/2016

PowerJet Pressure Cleaning Systems

1-877-765-9211

This manual contains operational information that is specific for

The Industrial Hot Water Fully Electric Models

Read the following instructions carefully before attempting to assemble, install, operate or service this pressure washer. Failure to comply with these instructions could result in personal injury and/or property damage.

Table of Contents

MODEL SPECIFICATIONS................................................................................5

PROTECTING THE SYSTEM FROM FREEZING .................................................6

EQUIPMENT PREVENTATIVE MAINTENANCE ................................................7

ELECTRIC HEAT EXCHANGER..........................................................................8

MAINTENANCE ............................................................................................10

GENERAL INFORMATION..............................................................................11

HEAT EXCHANGER DIAGRAM.......................................................................12

CIRCUIT DIAGRAM........................................................................................14

MANUFACTURER'S WARRANTY....................................................................15

SERVICE MANUAL.........................................................................................17

4 of 28 Rev. 12/09/2016

SPECIFICATIONS

PJE114E24A

PJE114E48A

PJE204E24

PJE204E48A

PJE204E72A

PJE304E24A

PJE304E48A

PJE304E72A

PJE404E48A

PJE404E72A

PJE504E48A

PJE504E72A

PJE505E48A

PJE505E72A

PJE355E48A

PJE355E72A

PJE256E48A

PJE256E72A

PJE126E48A

PJE206E48A

PJE206E72A

PJE1208E48A

PJE1208E72A

PJE208E48A

PJE208E72A

PJE308E48A

PJE308E72A

8

8

PJE3010E72A 10

PJE3010E96A 10

PJE3010E115A 10

6

8

8

8

8

5

5

5.6

5.6

6

6

4

4

4

5

5

4

4

4

4

4

4

4

4

4

Industrial Hot Water Fully Electrically Heated

MODEL GPM PSI

HEATER

INPUT

4000

5000

5000

5000

5000

3500

3500

2000

2000

1200

2000

1200

1200

2000

2000

2000

3000

3000

3000

4000

2000

1200

1200

2000

2000

72KW

48KW

72KW

48KW

72KW

3000

3000

3000

48KW

72KW

72KW

3000 96KW

3000 115KW

72KW

48KW

72KW

48KW

72KW

48KW

72KW

48KW

72KW

48KW

48KW

24KW

48KW

24KW

48KW

72KW

24KW

48KW

72KW

48KW

MOTOR

HP

10

10

7.5

7.5

5

10

10

15

15

20

20

5

7.5

7.5

7.5

10

3

3

5

5

15

15

20

20

20

10

7.5

7.5

10

10

208

72.5

134.8

77.1

139.6

N/A

85

147.5

N/A

154

N/A

N/A

N/A

N/A

N/A

154

N/A

147.5

N/A

139.6

147.5

N/A

147.5

N/A

154

N/A

165

N/A

N/A

N/A

N/A

TOTAL AMP 3PH

460 575

DIMENSIONS

L" x W" x H"

99.8

75.9

104.8

82.8

112.2

70.9

99.8

68

96.9

64.4

68

33.3

62.2

35.5

64.4

93.3

39.1

68

96.5

70.9

26.6 32x24x52

49.7 32x24x52

28.4 32x24x52

51.8 32x24x52

74.4 32x24x52

31.3 32x24x52

54.4 32x24x52

76.9 32x24x52

56.7 32x24x52

79.9 32x24x52

60.7 38x28x55

83.9 38x28x55

66.5 38x28x55

89.8 38x28x55

56.7 32x24x52

79.9 32x24x52

54.4 32x24x52

77.6 32x24x52

51.8 32x24x52

54.4 53x48x40

96.9

68

96.9

70.9

99.8

77.6 53x48x40

54.4 53x48x40

77.6 53x48x40

56.7 53x48x40

79.9 53x48x40

75.9

104.8

112.2

60.7

83.9

89.8

53x48x40

53x48x40

53x48x40

141.3 113.1 53x48x40

164.3 131.4 53x48x40

5 of 28 Rev. 12/09/2016

PROTECTING THE SYSTEM FROM FREEZING

If the equipment will be used or stored in areas where it will be exposed to temperatures below 0° Celsius

(32° Fahrenheit) for any period of time, precautions must be taken to prevent damage due to freezing.

Draining the system does not offer adequate protection. Use of a high quality plumbing antifreeze or automotive windshield washer antifreeze is recommended. Glycol based antifreeze may be used, but be sure to follow the manufacturer’s directions for correct mixture and for proper disposal after use. The following method may be used to protect the system when not in use.

1. Disconnect the power supply to the machine and turn off all control switches (Turn off engine on gas powered machines)

2. Turn off the water supply.

3. Relieve any trapped pressure in the system by squeezing the trigger gun but leave high pressure hose(s) attached to the discharge.

4. Remove supply hose.

5. Fill a clean container of sufficient size to supply the machine with enough antifreeze solution for approximately two minutes operation (i.e. 8 gallons for a 4 GPM system).

6. Connect a short hose to the inlet of the system and submerge the open end in the antifreeze close to the bottom of the container.

7. Restore power to the machine and turn control switch to MANUAL position. (Start engine on gas powered machines)

8. Open and hold trigger gun until antifreeze is discharged from nozzle. (Most antifreeze compounds will foam slightly when discharged from system). Discharged antifreeze may be directed back into container for reuse or proper disposal.

9. Close the trigger gun momentarily to force solution through by-pass loop.

10. Repeat steps 1, 3, and 4

If desired, compressed air may be connected to the inlet connection of the system to force the remaining antifreeze solution from the system; however, air pressure should be regulated to no more than 80 PSI.

6 of 28 Rev. 12/09/2016

EQUIPMENT PREVENTATIVE MAINTENANCE

Regular inspection and maintenance of your system is the best defense against equipment failure and costly downtime. Additionally, the high-pressure wash systems can create safety hazards. Simple checks, performed by the operator of the equipment or maintenance personnel on a regular basis, will help to ensure safe operation and that the system’s maximum performance and life cycle is achieved. The guidelines below pertain to the basic system and components only.

Further consideration should be given to optional accessories when included.

Daily Maintenance should include the following:

Check that all water supply and high pressure discharge hoses as well as all power cords do not create an obstruction that may cause anyone to trip or fall.

Check that all controls, switches and disconnects are readily accessible and can be reached quickly in case of emergency.

Check inlet water supply valves and hoses for signs of leakage and correct where needed. Check inlet water supply hose for kinks or other forms of restriction that can interrupt proper flow in to the system.

Check that all electrical cords and wires are properly secured/connected and do not pose a potential hazard for electrocution. All electrical supply and motor connections must include

a ground wire.

Check that the area around the unit is clear and dry.

Check that all moving parts such as belts, pulleys, motor fans etc., are clear of debris that could become entangled or otherwise come in contact with them.

Check the pump oil sight glass or dipstick for the correct oil level and signs of contaminants

(water or metallic particles).

Untangle the high presser hose if needed.

Check the hose for nicks, cuts and abrasions that can lead to leaks.

Check that the nozzle is clear of debris and operates correctly.

Check for adequate water to the unit.

Check that the chemical tank is full

Check that the Chemical tube is clear and in the tank.

Weekly Maintenance should include the following:

Check and clean inlet filters and screens

Check and clean the chemical filter/screen

Check for signs of water and / or oil leaking around the pump

Monthly Maintenance should include the following:

Update your record of inspections, problems or any potential problems Check for any oil leaks at the crankcase, crankshaft or piston seals Check controls are working within specifications

Quarterly Maintenance should include the following:

Change the pump oil every 3 months or 500 hours of use, whichever occurs first

Check the inlet and discharge valve assemblies and O-rings should be checked or changed every 3 months

7 of 28 Rev. 12/09/2016

ELECTRIC HEAT EXCHANGER

Functional Description

The function of our heat exchangers is to enhance an existing high pressure cold water wash system by enabling it to create hot water downstream of the height pressure pump. It also allows the system to operate automatically, virtually eliminating the problems that are often associated with “hands-on” controls. High pressure cold water is circulated through a tubular coil which is submerged in hot water in an unpressurized tank. The cold water is then heated by the surrounding hot water.

Motor controls as well as other system controls and safety features are provided with the heat exchanger, and are enclosed within the unit eliminating the need for separate pump control.

Our heat exchangers have been designed with the maximum efficiency in mind. There is no need for messy and potentially dangerous fuel storage and no need for venting. The unit may be located in any convenient location. High pressure hot water is only the squeeze of a trigger away, and our heat exchangers deliver it to you instantaneously; NO WARM UP PERIOD.

Cold Inlet Water Connection

Inlet connection to the heat exchanger is made by connecting a high pressure discharge hose

(optional) from the discharge port of the high pressure pump unit to one of the fittings provided on top of the heat exchanger. DO NOT EXCEED MAXIMUM SYSTEM PRESSURE (See specifications on the third page).

Hot Discharge Water Connection

Discharge connection is made from the fitting opposite the inlet to the hose/gun/lance assembly, or to plumbing for remote station(s) operation.

Automatic Controls

Automatic controls include water temperature control, low heat exchanger water level shut off, and pump motor control circuit complete with time delay stop. Motor circuit fusing and overload protection are also provided. In addition all heat exchanger control circuits have provisions for connecting a flow switch and optional pump thermal protector.

The thermostat maintains tank water temperature at approximately 180 degrees F (82 degrees C). A level switch in the tank will open if, the water level should drop to a point where operation of the unit is affected

Electrical Supply Hookup

Electrical service for the system is run to the terminal block on the electrical panel labeled L1, L2,

L3. A ground lug is also provided. This unit must be properly grounded to prevent electrical shock. A fused disconnect is to be provided according to local codes. Refer to ID plate for voltage and total connected load.

ALL ELECTRICAL WORK TO BE PERFORMED BY A QUALIFIED ELECTRICIAN.

WARNING:

This controller must be provided with suitable overload and overcurrent protection in accordance with the Canadian Electrical Code part 1.

UNIT TO BE CONNECTED TO A (GFCI) OR TWIST LOCK PLUG OR PERMANENT

CONNECTION

8 of 28 Rev. 12/09/2016

Motor/Motor Control Connection

The high pressure pump motor is to be connected to the motor contactor overload connections labeled T4,

T5, T6. Be sure that the motor current ( see FLA rating on motor plate) is within the current rating of the motor overload, and that the overload is set to the proper current level. A ground lug is also provided for the motor circuit. Electrical leads from a flow switch (optional) are to be connected to the terminal strip labeled

FLOW SWITCH CONNECT, at terminals 7 & 8. An optional thermo probe may be connected at terminals

9 & 10. The purpose of this probe is to protect the high pressure pump from overheating. A thermally activated switch within the probe will open when the pump temperature is too high, stopping the unit. The system will start again only when the temperature has been restored. On units that are not equipped with this feature, a jumper wire (installed at the factory), must connect terminals 9 & 10 and it is suggested that another type of thermal protector be used.

Startup and Adjustment Procedures:

Installation

Install the Electrically Heated System in accordance with pumping package and heat exchanger directions.

See pump and heat exchanger directions. This equipment should be installed and serviced by qualified personnel.

Turning Power On

Do not turn power on until the heat exchanger is filled with water as severe damage may occur if water is not above heater elements. To fill heat exchanger, remove 1 ¼” pipe plug from the elbow fill pipe located on the heat exchanger. Insert water hose and fill. Heater tank will require approximately 70 gallons (265 litters) of water on initial fill. After a water level has reached the fill elbow the power may now be turned on. It will take 15 to 20 minutes for the heat exchanger to reach operating temperature. WATER WILL EXIT THE

FILL PIPE WHILE THE HEATER TEMPERATURE IS RISING. This is due to the heat expansion of the cold water just added. This will stop after the heater has reached its operating temperature. Replace and hand tighten the 1 ¼” fill pipe plug. After initial heating of the tank leave the main power on to the equipment. This will ensure hot cleaning solution instantly on pump start up.

Turning Water On

Turn the inlet water supply on after the pumping package has been installed. See pumping package section for details.

CAUTION!

Before pumping package is started for the first time, or after maintenance has been performed on any supply or discharge water lines, all air must be purged from the system. Failure to do so may result in system damage.

System Operation

Caution: Pressure cleaning gun must be HELD ONTO SECURELY when the pump is turned on as serious personal injury may be inflicted if spray wand is allowed to move freely. High pressure spray can cause SERIOUS BODILY HARM- HANDLE WITH CARE- NEVER POINT SPRAY AT ANY

PART OF THE BODY. Proper protective equipment should be worn if corrosive chemicals are used. With pumping unit off pull the gun trigger to ensure that the water is running through the nozzle. Check the supply line to ensure there are no kinks in the hose. Release the gun trigger. Place the operators switch located on the heat exchanger in the “A” automatic position. You are now ready to clean.

9 of 28 Rev. 12/09/2016

Pressure Regulation

This unit has been adjusted at the factory and preset at the designed specifications. DO NOT READJUST

IN AN ATTEMPT TO INCREASE PUMP PRESSURE. This will only increase the regulation pressure which will cause internal pump damage or motor overload.

MAINTENANCE

Daily

To ensure a problem free- system simple visual checks can be performed. Check for leaks in inlet supply, pumping system, pump to heater hose, gun(s) and high pressure hose. Check and refill chemical concentrate. Check pump oil level/ condition. Check nozzle condition. If badly worn or leaking conditions are found, qualified personnel should repair or place components with new original or equivalent manufacturers parts.

Check equipment for proper operation. Nozzle spray should be uniform in flow, angle, and pressure. Clean if nozzle is plugged and replace if worn. If a heavy pulsation is the hose or spray is observed, repair of the pumping system is required.

Weekly

After the first week of operation it is recommended 1litre of motor oil be added to be beat exchanger tank through the 1 ¼ fill pipe. This oil creates a vapor barrier and slows evaporation of water in the tank.

Check heat exchanger water level. The level must be up to the filler pipe neck. Add water if necessary. If cold water has been added, heating may cause the expanding water to escape through the filler plug. This will stop after operating temperature has been reached.

Monthly

Check system for operation. Automatic start/stop, hot high pressure water, and smooth operation should be noted. Check tank water level; refill if necessary. Should the tank ever be completely emptied, 450 g of perafilm P must be added to the tank. This prevents corrosion.

Change oil in pump crankcase. Note the condition of the oil when drained. If found to be creamy, the water seals in pump may have to removed and replaced. Fallow the pump manual directions.

FAILURE TO MAINTAIN YOUR PRESSURE WASHER/EQUIPMENT, INCLUDING REGULAR

MAINTENANCE OF PUMP AND SYSTEM COMPONENTS, WILL VOID MANUFACTURER'S

WARRANTY.

Symptom Possible Cause

Excessive pressure and/or temperature of fluid being pump.

Solution

Check pressures and/or temperature.

Reduce to acceptable level. Reduce pressure.

Pulsation

Unloader/regulator set too high of pressure.

Running pump dry.

Reduce Pressure

Faulty Pulsation Dampener.

DO not run pump without water.

Check pre-charge, if low, re-charge it or install a new one.

10 of 28 Rev. 12/09/2016

GENERAL INFORMATION

Introduction

The electrical Single heater consists of a, single coil heat exchanger, control components, thermo probe, float switch, high pressure hose(s) connections.

THIS MACHINE SHOULD BE PROTECTED FROM FREEZING AT ALL TIMES. (SEE

MAINTENANCE)

Installation Location

Place system in any suitable location. Adjusting the leg bolts levels the unit. It is recommended to provide ample room and support for installation, maintenance, and operation of elevated systems. Drainage should be provided near the unit.

The pumping unit is designed to be located on top of the heat exchanger although it may be located beside it.

System Functions

In every Electrically Heated System the following standard features can be found:

1. Automatic start circuit complete with manual override

2. Automatic time delay stop circuit

3. Automatic temperature controlled heat exchanger

4. Thermal safety shutdown on pumping system to protect pump components

5. Low water shutdown circuit to protect heating elements from lack of water in the heat exchanger

6. Corrosion resistant incoloy heating elements (tube type)

7. Fifty feet of 3/8” steel braided hose

8. High pressure trigger gun

9. Lance complete with chemical valve

10. Chemical injection system

11. Complete motor fusing and overload protections

Note: Some of this features may not applied to your build. Check with serial and model number for

features that come with your pressure washer.

11 of 28 Rev. 12/09/2016

HEAT EXCHANGER

DIAGRAM

The design feature of our Heat Exchanger allows high pressure cold water to be heated in an unpressurized tank. Cold water entering the heat exchanger passes through a coil submerged in heated water. Electrical controls for the exchanger and pumping package are mounted on the outside of the tank.

The protective outer wrap and front panel enclose the controls.

After filling the water tank to the level indicated in Fig3, turn the heat exchanger switch to the “ON” position. Once the heater has reached the set temperature, water may drip through a small hole in the 90 deg. to prevent pressure from building up which can naturally occur when water is heated to high temperature.

Figure 3

Heat Exchanger

12 of 28 Rev. 12/09/20166

8

13 of 28 Rev. 12/09/20166

POWER JET

CIRCUIT DIAGRAM

FULL ELECTRICAL Y HEATED SYSTEM

1 NC

T_ -_ -; -

_J

L1

AUTO

TERMAL OVERLOAD

-

-v-\B

/

--+----i----.--------of\ c0-- - -

-

-

L3

1

FUSE2A

11�

24VAC

GND

A1

rC1

A2

�-

MOTOR

OL

HEATERS

L1

T1

C

- �-T"2

L3

C

T3

(ô\

MOTORON

A1

(Al

A2

NC

FILE

I J:\CURRENT WIRING DIAGRAMS\Power Jet\Full electric system\WD01 1039.dwg

DATE 23 DEC 2015

DRAWING

1039

MANUFACTURER’S WARRANTY

Thank you for your purchase of a PowerJet pressure cleaning system. All original equipment are warrantied for a specific period and on the conditions set forth, that the product is free from defects in materials and workmanship as follows:

Pump

: Crankshaft, Manifold, Crankcase,

Bearings, Connecting Rods

Heating Coils

Honda Engine * Kohler Engine

Electric Motor/Generators

* Others

Frame and Body Materials

Burners: fuel pumps, ignitor, fuel solenoid coil, burner motor, gas valve

Electric Components: switches, GFCI, thermostats, transformers, flow & pressure switch

Accessories: Unloader, Safety Valves,

Pulleys, Thermometers

Wear Items: trigger guns, wands, water strainers and filters; seals, lights, gaskets; belts, check valves; nozzles; o-rings; quick couplers, packings and seals on wet-end of pump, high pressure discharge hose; chemical injectors and fuel filters; fittings

7 Years Parts

1 Year Labor

1 Year over 5100 PSI, Lifetime

Limited under 5100 PSI, 1 Year Labor

2 Years or as otherwise stated by the engine manufacturing policy

2 Years/1 Year Warranty from individual manufacturer of component

Lifetime Limited Warranty

1 Year Parts

1 Year Labor

90 day, Manufacturing Defect

90 day, Manufacturing Defect

90 day, Manufacturing Defect

NOTE* Due to original equipment manufacturer’s requirements, PowerJet is not permitted to perform warranty repairs or claims for electrical motors, gas, or diesel engines. Please contact the PowerJet service department for a local warranty representative.

LIMITATIONS OF LIABILITY

PowerJet's liability for special, incidental, or consequential damages is expressly disclaimed. In no event shall PowerJet’s liability exceed the purchase price of the product in question. PowerJet makes every effort to ensure that all illustrations and specifications are correct, however, these do not imply a warranty that the product is merchantable or fit for a particular purpose, or that the product will actually conform to the illustrations or specifications. Our obligation under this warranty is expressly limited at our option to the replacement or repair at our manufacturer location, is such part or parts at inspection shall disclose to have been defective. PowerJet does not authorize any other party, to make any representation or promise on behalf of PowerJet or to modify the terms, conditions, or limitations in any way. It is the buyer’s responsibility to ensure that the installation and use of PowerJet products conform to local codes. While PowerJet attempts to ensure that its products meet national codes, it cannot be responsible for how the customer chooses to use or install the product. THE WARRANTY

CONTAINED HEREIN IS IN LIEU OF ALL OTHER WARRANTIES, EXPRESSED OR IMPLIED, INCLUDING ANY IMPLIED

WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE ARE EXPRESSLY LIMITED TO THE

DURATION OF THIS WRITTEN WARRANTY.

PowerJet reserves the right to make any changes to a PowerJet product at any time without incurring any obligation with respect to any product previously ordered, sold, or shipped.

WARRANTY REPAIRS

Warranty claims must first contact PowerJet’s Service Department to be issued a preauthorized repair number (PARN). You will need a copy of your invoice and the equipment serial number.

If new parts are needed, they will be invoiced to you as normal. Defective parts are to be sent to us PREPAID for warranty and consideration. If a part is found to be defective, a credit will be issued to cover the costs of parts and shipping. All work is to be performed at the manufacturers’ place of business when returned PREPAID. This warranty will not cover labor if warranty work is conducted at the customer’s place of business. Road service will be charged at the normal rate in these situations.

WARRANTY DOES NOT COVER:

Abnormal wear-and-tear: Our warranty covers material and manufacturing defects only

Components or other devices not manufactured by PowerJet including, but not limited to gasoline, diesel engines, electric motors, generators, pumps, etc.

Pickup and/or delivery of the equipment

Rental or replacement equipment during the repair period

Overtime labor charges

Freight charges for replacement parts (customer responsibility)

Travel time or mileage

Service calls

Transportation of equipment for service

Consequential Damage or Liability that occurs as a result of original defect

WARRANTY DOES NOT COVER DEFECTS CAUSED BY:

Improper or negligent operation or installation, accident, abuse, misuse, neglect, unauthorized modifications

Improper repairs

Neglected recommended maintenance/incorrect operation (specified in the Owner/

Operator’s Manual

Unapproved devices or attachments

Water sediments, rust corrosion, thermal expansion, scale deposits or a contaminated water supply or use of chemicals not approved or recommended by

PowerJet Pressure Cleaning Systems Ltd.

Improper voltage, sudden voltage spikes or power transients in the electrical supply

Usage which is contrary to the intended purpose of the equipment

Natural calamities or disasters including, but not limited to: floods, fires, wind, freezing*, earthquakes, tornado's, hurricanes and lightning strikes

*Includes damage done to components that come in contact with water as a result of freezing in a non-winterized machine.

[email protected]

1-877-461-3500 www.powerjetpressure.com

SERVICE MANUAL

POWERJET PRESSURE CLEANING SYSTEMS

This manual is intended for technical personnel to assist in the diagnosis and repair of issues with pressure washers.

This manual is not intended for use by non-technical personnel.

It is advised to always refer to competent technical personnel for repairs to avoid equipment damage or potential injury.

If you have any technical questions please do not hesitate to call us at 1-8

77-765-9211.

17 of 28 Rev. 12/09/2016

No Flow

PROBLEM

Low pressure, adequate flow

Low pressure, low flow

Low pressure, low flow -

Bogs

FLUID SYSTEM DIAGNOSTICS - Flow and Pressure

POSSIBLE CAUSE

No power

Trigger gun valve

No water source

Clogged spray nozzle

Clogged inlet filter

Float Valve stuck (optional)

Faulty unloader valve

Incorrect or no spray nozzle

SOLUTION

Make sure pump is operating. Check drive belts and couplings, make necessary adjustments.

Check trigger gun, repair or replace.

Ensure water supply is not restricted and hoses are in good repair and not kinked.

Check spray nozzle, repair or replace.

Check inlet filter, repair or replace.

Float valves can become stuck in the "UP" position. Manually dislodge and inspect for problems.

Remove and check for proper action, repair or replace.

Worn spray nozzle

Debris in valves

Nozzle should be properly sized for the system. Low pressure indicates that the nozzle in use is too large.

Replace nozzle when it shows signs of internal erosion.

Clean valves and check o-rings for pits and cracks.

Lance on low pressure Adjust pressure so the water flows through properly.

Unloader is not adjusted correctly Adjust unloader to proper level.

Pressure gauge inaccurate

Pump packings bad

Volume Improperly adjusted

Discharge leaks

Downstream chemical injector

(Dema)

Loose drive belts If belts do not have proper deflection, replace them.

Pump not running at rated speed Check engine throttle and see that the motor is rated for the same speed as the pump.

Stripped pump drive coupling

Defective easy start valve

(optional)

Malfunctioning motor or gear

Unloader stuck in bypass

Outlet restriction

Clogged nozzle

Nozzle too small

Hose restriction

Debris in the system

Use a new pressure gauge on a quick connect at outlet to check system pressure and replace if gauge is faulty.

If low pressure persists, pump packings may need replaced.

If unit has volume adjustment, it may need readjustment

Look for leaks on the discharge side of system.

Remove the injector and retest system. If the flow is restored, replace the injector.

Inspect coupling and repair or replace.

Check the start or throttle-back valve for proper operation.

Ensure that the motor or engine is working properly

Piston assembly may be stuck or fouled

Build up can restrict flow. If water is not flowing freely, flush with garden hose to isolate the clog or restriction.

Distorted spray pattern can indicate a clogged nozzle.

Ensure nozzle is proper size for the system.

Correct any kinks or restrictions. Replace crushed hoses.

Debris can lodge in the discharge side of the system (valves, fittings, injectors, filters) Flushing with water may correct it.

18 of 28 Rev. 12/09/2016

PROBLEM

Excessive pressure

Pump chatters, caviataion, vibration

POSSIBLE CAUSE

Small spray nozzle

Faulty pressure gauge

Improperly adjusted unloader

Faulty unloader

Air in system

SOLUTION

Nozzle must be properly sized for the rated flow and pressure. Reset unloader or pressure relief if nozzle size is changed.

Check the pressure gauge using a properly calibrated pressure gauge on quick connects at the equipment outlet.

Adjust to the proper pressure using pressure gauge.

Check the unloader action. If it is not working properly, it may need repaired or replaced.

Inspect places where air can enter the system. i.e. fittings, hose, connections etc.

Inlet line vibrates

Outlet line vibrates

Chemical line not submerged

Inlet line restricted

Inadequate water supply

Float valve stuck (optional)

Turbulence in float tank (optional) Excessive turbulence allows the pump to draw air into the system. Correct excessive turbulence.

Inlet or inlet strainer clogged

Water supply to hot

Air in system

Debris in inlet check valves

Air in system

Debris in inlet check valves

Pump packing bad

Inlet and outlet lines vibrate Inlet and outlet check valves fouled

If the chemical valve is on, ensure that the chemical line is fully submerged in the chemical

All inlet connections should be snug and not kinked to reduce the chances of pump starvation.

Water supply to the system must meet or exceed the rated flow (GPM) on the serial number plate. Faucet must be completely opened or water above the tank outlet in a gravity fed system.

If float valve is stuck in the up position, water can not enter the float tank. Unstick valve if possible of replace if necessary.

Regularly clean the inlet and inlet strainer to keep debris from entering the float tank

Inlet temperature should not exceed 140F - 160F range.

Inspect places where air can enter the system, i.e.; fittings, hose, connections etc.

If there is no float tank and the outlet line does no vibrate, the inlet check valve may be clogged.

Remove debris. Check o-rings under valves.

Inspect places where air can enter the system, i.e.; fittings, hose, connections etc.

If there is no float tank and the outlet line does no vibrate, the inlet check valve may be clogged.

Remove debris.

If they show signs of ware or damage, replace them.

Look for the source of debris in the inlet and discharge check valves and remove.

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PROBLEM

Very low or no flow

Unloader will not unload

Unloader (flow) cycles with system under pressure

Unloader (flow) cycles with system in bypass

Unloader (pressure) produces smooth flow & low volume

FLUID SYSTEM DIAGNOSTICS - Unloader

POSSIBLE CAUSE

Unloader stuck in bypass

Debris in unloader

Sever leak on the outlet of unit

Improper flow

Nozzle to small

Nozzle clogged

Improper unloader orifice

Unloader orifice clogged

Injector orifice clogged

Other downstream restriction

Pump not delivering the rated pressure

High water supply pressure

SOLUTION

Isolate the flow problem. If it occurs before the unloader discharge point, check the piston assembly to see if it is fouled or stuck in bypass mode.

Take bottom nut off unloader, identify ball, spring and seat. Clean out any debris and

Check for leaks and repair.

Any variation in flow form what the orifice is sized can cause cycling. System must produce the rated flow constantly.

A nozzle that is too small can cause the flow to be reduced.

A distorted spray pattern indicates a clogged nozzle.

The systems rated output should indicate the proper sized orifice for your system.

Check the orifice for clogs and clear out any debris.

If the system has a Venturi injector downstream of the unloader, check the orifice for clogs.

Scale buildup can restrict flow. Check; controls, valves, switches, trigger gun, and lance.

Descale as necessary and begin preventive maintenance program for scale prevention.

See low pressure or low flow diagnostics.

Check inlet water supply for excessive pressure.

No restrictions on the unloader

Check unloader bypass port to see if a flow restrictor is properly installed. Install one if none is present.

Downstream leakage (excessive) Causes the unloader to since a continuing flow and divert it to the closed gun. Repair or replace.

Accumulator downstream (option) Remove the accumulator from the system.

Unloader adjusted too low Adjust the unloader using the pressure gauge for the correct pressure.

Unloader (flow) produces smooth flow & low volume

Spray nozzle clogged

Spray nozzle too small

A distorted spray pattern indicates a clogged nozzle.

A small nozzle causes a reduced flow and cycling may result.

Injector orifice blocked If the system has a Venturi injector downstream of the unloader, check the orifice for clogs.

System not delivering rated flow See flow diagnostics.

Unloader adjusted too low Adjust unloader and regulator until proper pressure is achieved.

Unloader valve stuck in bypass

Restriction in system

If unloader is sticking, repair or replace as necessary.

Downstream restrictions can cause a reduction in flow. Check; controls, valves, switches, trigger gun, and lance. Descale as necessary and begin preventive maintenance program for scale prevention.

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Unloader (pressure) produces low flow and normal pressure

Unloader adjusted too low

Unloader (flow) produces low flow & normal pressure

Spray nozzle to large

Internal nozzle erosion

Insufficient pump pressure

Unloader adjusted too low

If the unloader is diverting flow to bypass it may be adjusted too low, readjust as necessary.

Ensure the proper nozzle is installed on system.

The number of hours of usage can give you a clue to the extent of the ware. If in doubt, change

Check pump seals and packings and tighten drive belts.

If unloader is diverting flow to bypass, readjust using the pressure gauge.

Unloader (pressure) leaks from main spring or adjusting bolt

Unloader (flow) pressure increases when trigger released

Nozzle too large

Shaft O-ring in valve body warn

Unloader piston stuck or frozen

Ensure the proper sized nozzle is being used.

Check O-rings for ware or damage and replace as necessary.

Check unloader shaft for proper action. Unstick piston and shaft or replace unloader.

Unloader (flow) leaks water around adjusting bolt

Bypass port clogged or restricted Ensure that unloader bypass port is not clogged

Excessive tension on main spring If tension is incorrect, adjust or replace as necessary.

Sleeve O-ring worn Check O-rings for ware or damage and replace as necessary.

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FLUID SYSTEM DIAGNOSTICS - Leaking

ANY LEAKS SHOULD BE REPAIRED ASAP TO PREVENT DAMAGE TO THE SYSTEM.

PROBLEM

From inlet

From low pressure (inlet) line fittings

From float tank(option)

From pressure fittings

From quick connects

From pump

From trigger gun

From nozzle cracked

POSSIBLE CAUSE

Garden hose washer

Loose clamps or connections

Float tank full of water or stuck

Fittings not tightened or taped, or

Bad o-rings

Bad packing

Bad rod o-ring

Stripped connectors

Weep gun (optional)

Damage gun valve ball or seat

SOLUTION

Ensure the washer is present and in good condition.

Low pressure line should be properly sealed on barb and tightly clamped.

If float is not floating above water, check the float to see if it has filled up with water. If necessary, drain and seal.

Usually metal to metal fittings should be taped with Teflon tape or lock tight to provide a tight seal. (unless

If quick connect o-ring shows wear or damage, replace it.

If the seal leak is detected under the pump manifold, packing may be worn and in need of replacement.

If o-rings show wear or damage, they may need replaced.

Physical damage may not be apparent, but unseen warping from freezing or extreme pressure can still cause leakage.

If a weep gun has been installed, check the gun valve seat to ensure it is functioning properly.

Inspect trigger gun valve assembly for damage or ware to ball or seat. Lodged debris can stop valve from closing. Repair with kit or replace.

If quick connect o-ring shows wear, damage or improper seating.

Inspect o-rings for ware or damage and replace as necessary.

From unloader

From variable pressure

Lance(option)

Unloader will not unload

Bad o-rings or seals

Bad o-rings at adjusting knob

Debris in unloader

Sever leak on the outlet of unit

From pressure relief valve System over pressure

Clogged nozzle

Trigger gun valve not working

Excessive pressure spike

Take bottom nut off unloader, identify ball, spring and seat. Clean out any debris and reassemble.

Check for leaks and repair.

See pressure and flow diagnostics to find the cause of the excessive pressure and correct it.

Spray pattern will be distorted if nozzle is clogged, clean out.

If trigger gun valve action is not correct, repair or replace.

If water spurts from valve when trigger is released, check unloader adjustment. Pressure spike should be below the level where pressure relief valve is activated.

Wear or damage to ball or seal Inspect ball and seal for damage and adjust as necessary.

Improper relief valve adjustment Adjust valve properly.

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PROBLEM

No nozzle flow from nozzle when trigger depressed.

Excess pressure when trigger gun is released

Flow not stopping when trigger gun released

Trigger action sticks

Trigger gun leaks

No chemical

Excessive chemical

Spray pattern irregular

Volume proper, pressure low

Pressure proper, volume low

FLUID SYSTEM DIAGNOSTICS - Trigger Gun/Spray Nozzle

POSSIBLE CAUSE

Broken piston rod in trigger gun

SOLUTION

If water flows through discharge hose without gun, check trigger gun valve piston rod and replace if necessary.

Missing metal insert in trigger gun

(European style gun)

Blockage in system past gun

Excessive pressure spikes

Inspect to assure insert is in place.

Check nozzle or spray accessory for blockage and clear it.

After unloader increases pressure to a maximum, further adjustment will only increase the pressure spikes. Re-adjust.

Broken return spring on trigger gun If trigger action is too loose, return spring may need replaced.

Debris in gun valve

Keeper plug too tight

Worn or bad o-ring

Stripped or loose connections

Chemical valve closed

Black nozzle

Debris in gun valve can stop piston return. Clear debris.

It may be possible to loosen plug slightly without leakage but it will likely need replaced.

Check trigger gun o-rings for ware or damage and replace.

Physical damage may not be apparent but unseen warping from freezing or sever overpressure may still cause leaking.

Open chemical valve. If It chatters with no chemical delivery, air is being drawn from the upstream side of the pump. Check fittings, connections and ensure the inlet line is fully submerged into the chemical jug.

Chemical dried up in the injector inspect and clean as necessary.

Chemical foot strainer clogged

Chemical line kinked

Chemical line too long

May be a strainer or check valve. Ensure that the ball is not stuck or clogged.

Chemical line kinking or binding prevents chemical delivery.

Chemical too dilute

No adjustment for low pressure

Incorrect injector orifice

An overly long chemical line can prevent the pump from drawing chemical into the system. Try installing a shorter line.

Verify chemical strength.

Downstream injectors only - Low pressure is required for most injectors to draw chemical. If no adjuster exists it may need low pressure spray nozzle installed on the lance.

If not properly sized for the systems rated output, chemical delivery problems will result. Check serial plate for specs.

To properly adjust, a chemical flow meter may be used to precisely measure chemical flow.

Valve improperly adjusted, check knob on injector

Chemical dilution to strong

Clogged nozzle

Nozzle to large

Verify chemical strength.

Spray pattern will be distorted if nozzle is clogged.

Ensure that the nozzle is sized properly sized for the system

Internal nozzle wear

Clogged nozzle

A loss of pressure may result form gradual nozzle wear. Replace a nozzle of correct size.

Spray pattern will be distorted if nozzle is clogged. Check nozzle for clogging if the unit has a pressure unloader.

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PROBLEM POSSIBLE CAUSE SOLUTION

Steady fuel flow at bleed valve but none in combustion chamber

Air and fuel flow proper

Solenoid valve not energizing Remove the solenoid cover and place blade of an insulated screwdriver in the coil with the system operating in hot water mode. A good working solenoid will hold the screwdriver in the solenoid. If not it may need replaced.

Oil pump may have debris, replace as necessary.

Boiler controls activating Solenoid valve coil not energizing If boiler controls work properly, the pressure or vacuum on the fuel pump may be misadjusted.

Check solenoid coil again.

Solenoid valve energizing Debris in internal fuel pump valve Check for clogging in the solenoid valve inside fuel pump.

Fuel nozzle clogged

Restriction in fuel outlet line

Fuel pump piston frozen closed

No power reaching transformer

Ignition transformer bad

Electrode gap improperly set

Improper air delivery

Check fuel nozzle for clogging and clear if necessary.

Check fuel line from pump to burner for any restriction.

Check piston in fuel pump to see if it will travel. Free piston or replace fuel pump.

Ensure the proper voltage is reaching the ignition transformer with a volt meter.

Using a volt meter, ensure that the transformer is supplying the proper voltage.

Check the gap and readjust if necessary, taking care that the proper distance is maintained from the fuel nozzle.

Down fired, multi-pass boiler systems have a cap on the top of each electrode. Examine caps Electrode caps cracked for cracks or carbon build-up and replace if there problems are evident.

Electrode wires loose or damaged Applies to down fired, multi-pass boiler systems - Check the wire to each electrode to ensure

Electrodes arcing to fuel lines there is a good connection.

Electrodes should not be arcing to fuel lines or nozzle. Check electrode for cracking or carbon build-up.

Transformer bus bars not lining up Applies to gun type burners - Bus bars on the transformer should line up and connect properly with the electrode terminals

Check air delivery to combustion chamber. Down fired; check air damper and air bag. Gun type;

Check air bands.

Burner or electrode assembly fires when removed from housing

Ignites with air bands closed down

Ignites with air bands opened up

Excessive electrode gap

Choked down

Ensure electrode gap is properly set.

Open air bands to proper setting.

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BOILER SYSTEM DIAGNOSTICS - Vacuum Switch - Optional

PROBLEM POSSIBLE CAUSE

Switch activated manually Improper diaphragm movement

SOLUTION

Replace switch if improper diaphragm movement is detected.

Low water flow Correct problems related to inadequate water flow.

Air leak in or punctured diaphragm Replace vacuum switch if diaphragm shows an air leak or hole.

Problem elsewhere in system If vacuum switch works properly, continue with other boiler control diagnostics.

Switch shows continuity when activated

Switch does not shows continuity when activated

Switch contact bad Replace switch with another one.

PROBLEM

Reed switch activates when tested with external magnet

BOILER SYSTEM DIAGNOSTICS - Flow Switch - Optional

POSSIBLE CAUSE SOLUTION

Magnet fouled and will not move If magnet does not move freely within its housing, remove debris to unstick it.

Reed switch does not activate when tested with external magnet

Reed switch misadjusted

Magnet is bad

Reed switch is bad

To adjust it for the flow the system is producing, loosen the reed switch and move it in its

If reed switch activated the boiler when tested with a hand held magnet, the internal magnet may

If reed switch does not activated the boiler when tested with a hand held magnet, the reed switch may need replacement.

Problem else where in system See diagnostics listed above.

BOILER SYSTEM DIAGNOSTICS - Thermostat

PROBLEM POSSIBLE CAUSE

Thermostat set improperly Thermostat set too low

Boiler fires when thermostat jumped, but will not fire with thermostat in circuit

Thermostat bad

SOLUTION

Set thermostat properly and ensure connections are not loose or corroded.

Replace Thermostat.

Boiler will not fire when thermostat jumped

Problem else where in system

Continue with boiler control diagnostics. If boiler still does not fire, the thermostat may need replaced.

PROBLEM

Electrical continuity through switch

BOILER SYSTEM DIAGNOSTICS - High Temperature Limit

POSSIBLE CAUSE

Connections loose or corroded

Problem else where in system

No continuity through switch Switch bad

SOLUTION

Check connections to high temperature limit switch to ensure that they are not loose or corroded.

If there is continuity through the switch but the boiler still does not fire, there is a problem elsewhere in the system. Continue with boiler control diagnostics.

Replace switch.

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