Pumptec 356U Series Service manual
Version 101322 Pumptec, Inc. | 700 McKinley St. NW, Anoka, MN 55303 | 763-433-0303 | www.pumptec.com
• Long Life
• High-Pressure
• High-Efficiency
• Serviceability
• Durability
• Application Flexibility
• Chemical Compatibility
• Compact Design
• Enhanced Priming
PN 80729
PN 80390
Please read and save these instructions. Read carefully before attempting to assemble, install, operate, or maintain the
product described. Protect yourself and others by observing all safety information. Failure to comply with instructions could
result in personal injury and/or property damage in which Pumptec, Inc. will not assume any liability for! Retain instructions
for future reference.
PRESSURE WASHER
Pumptec pump series 356U with plunger type design is the most efficient way possible to pressurize water. This
efficiency produces up to 20% more pressure or flow for a given power input compared to competitive pumps.
The series offers a variety of pump and motor combinations customized to meet specific application
requirements. Typical applications include pressure cleaning, pest spraying and misting. All pumps are factory
lubricated for long-life performance. The only tool to completely disassemble the pump to its basic components
is a hex wrench. Durability and performance results from exclusive use of premium materials. All metallic wetted
parts are stainless steel. An aircraft-grade anodized aluminum pump is nearly indestructible compared to pumps
made of castings. The body offers chemical compatibility with a wide variety of chemicals. Flow and pressure
can be optimized to exactly match power input to nozzle size, and offers an assortment of eccentrics for low,
medium, and high pressure to match your application requirement.
PERFORMANCE FEATURES
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UNPACKING
Remove all packing materials. Carefully remove the plunger
pumps from the shipping carton. Inspect for any damage that
may have occurred during transit. Check for any loose, missing,
or damaged parts.
SPECIFICATIONS
Maximum specifications refer to individual performance levels
and may be conditional on other factors. Consult
Troubleshooting section when operating near any performance
maximum. Refer to individual pump data sheets for complete
specifications, parts list, and exploded view.
Model 356U
MAX PRESSURE . . . . . . . . . . . . . . . . . . . . . . . . . to 1200 PSI
OPEN FLOW . . . . . . . . . . . . . . . . . . . . . . . . . . . . to 3.7 GPM
SEALS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U-CUP
O-RINGS . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . BUNA
INLET PORTS (2) . . . . . . . . . . . . . . . . . . . . . . . . 3/8” F NPT
DISCHARGE PORTS (2) . . . . . . . . . . . . . . . . . . .3/8” F NPT
MAX FLUID TEMP . . . . . . . . . . . . . . . . . . . . . . . . . TO 140˚F
RPM (MAX) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2000
MATERIALS OF CONSTRUCTION
BODY . . . . . . . . . . . . . . . . . . . . . . . ANODIZED ALUMINUM
PLUNGER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 304 SS
VALVES . . . . . . . . . . . . . . . . . . . . . . . . . . . STAINLESS STEEL
FASTENERS. . . . . . . . . . . . . . . . . . . . . . . STAINLESS STEEL
GENERAL SAFETY INFORMATION
Please read this manual before installing or operating pump to
provide safe operation and prevent equipment problems.
Observe the following symbols and definitions.
Note: Indicates important instructions which are not related to
hazards.
IMPORTANT: Indicates factors concerned with assembly,
installation, operation, or maintenance which could result in
damage to the machine or equipment if ignored.
Warns about hazards that MAY cause
minor personal injury or property damage if ignored.
Warns about hazards that COULD cause
serious personal injury, death or major property damage if
ignored.
Warns about hazards that WILL cause
serious person injury, death or major property damage if
ignored.
___________________________________________
PLEASE READ, SAVE AND REFER TO SAFETY
INSTRUCTIONS BELOW:
Pumps build up heat and pressure during
operation. Allow time for pumps to cool before handling or
servicing. Only qualified personnel should install, operate, and
repair pump.
IMPORTANT: For pumping liquids other than water, contact
your supplier.
Do not pump hazardous materials
(flammable, caustic, etc.), unless the pump is specifically
designed and designated to handle them.
To reduce risk of electric shock, always
disconnect pump from power source before handling or
servicing.
Any wiring of pumps should be performed
by a qualified electrician.
These pumps are not intended to be
submersed.
Pumptec, Inc. is not responsible for losses, injury, or death
resulting from a failure to observe these safety precautions,
misuse or abuse of pumps or equipment.
INSTALLATION
MOUNTING
Pump motor set can be mounted in any position EXCEPT with
pump head higher than motor. To minimize amp draw, noise,
and vibration, use appropriate flexible hose to inlet and
discharge ports.
LOCATION
If the pump is used in extremely dirty or
humid conditions, it is recommended pump be enclosed. Do not
store or operate in excessively high temperature areas or
without proper ventilation.
CAUTION!
WARNING!
DANGER!
CAUTION!
DANGER!
WARNING!
WARNING!
CAUTION!
CAUTION!
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The pumping system can be mounted where it is visible, but it
must be protected from rain, dirt and chemical spray or
splashing. The pump must never be installed on a vertical
surface with the pump head higher than motor, like a capital
letter “T”, for example.
POSITION MOTOR UNIT:
1. When selecting position, consider length and downward
angle of suction line from tank to pump
2. Consider length of wire from battery to motor
3. To reduce shock and vibration, heavy duty motor mounts
with lock nuts and washers are provided
4. Pump may be mounted in any position except vertical with
pump above motor (water would leak into motor). Vertical
mount with motor above pump is not a problem.
5. Mount pump and motor in a location where it is protected
from dust, dirt, mud, water, impact shock, chemical spill, or
direct sunlight. A simple well-ventilated housing should be
adequate.
LAYOUT AND INSTALL SUCTION LINE
MOST IMPORTANT: ALWAYS have a suction line in continuous
downward slope from tank to pump. This will allow air bubbles
to travel uphill back into tank thereby eliminating 99% of
priming issues and erratic performance.
All poly tanks are supplied with female bulkhead fittings for tank
bottom outlets. We have supplied plastic hose barbs for both
½” and ¾” NPT female bulkhead fittings.
1. Connect hose to ½” hose barb in tank fitting and carefully
route to pump inlet
2. Install line strainer at convenient location
3. Trim hose length to assure continuous downward slope to
pump inlet. Secure suction hose with wire ties needed.
4. Install and tighten hose clamps
NOTE: Poly spring suction hose is reinforced with stainless
steel wire. Cut hose with blade, then pull apart to stretch
wire and cut off excess wire with wire cutter
PRE-OPERATION
INLET CONDITIONS
DO NOT STARVE THE PUMP OR RUN DRY.
Temperatures above 130°F will require pressurized inlet to
avoid cavitation and seal damage.
DISCHARGE CONDITIONS
Open all valves in system prior to operation to avoid excessive
load on motor and system from a pressure spike. Follow the
instructions of proper system design. Refer to supplier if
assistance is needed.
PRESSURE REGULATION
Verify pressure regulation devices are operating correctly.
NOZZLES
Nozzles create pressure in most systems, and they become
larger with use. larger nozzles decrease system pressure. Verify
the quality of nozzles prior to operation.
MOTOR SHAFT ROTATION
Motor shaft rotation must always be
counterclockwise in order to assure proper function of pump or
warranty may be void.
PUMPED LIQUIDS
Some liquids may require a flush between operations or before
storing. For pumping liquids other than water, contact your
supplier.
If the pump is used in extremely dirty or
humid conditions, it is recommended pump be enclosed. Do not
store or operate in excessively high temperature areas or
without proper ventilation.
OPERATION
GENERAL OPERATING INFORMATION
Pressure is often created by forcing a volume of fluid (flow)
through a specific size hole (nozzle). Additionally, pressure can
be created by pumping into a non-expanding chamber. Pressure
is measured and stated in PSI –pounds per square inch.
Flow is created based upon the pump displacement and speed
(RPM) of the motor. Pump plunger size affects flow based upon
the same RPM. The faster the motor speed, the greater the
flow. Flow is measured and stated in GPM –gallons per minute.
The pump, driven by a motor or engine, draws fluid through a
set of valves into the pumping chamber and the fluid is then
forced out of a set of valves to exit the pump. The back-and-
forth movement of the plunger in the sealed pumping chamber
creates the suction and discharge actions.
Once the fluid has exited the pump it must be controlled until it
exits the nozzle or reaches the place it needs to go. This control
is achieved via the use of system components such as an
CAUTION!
CAUTION!
CAUTION!
Pumptec Operating Instructions and Parts Manual PRESSURE WASHER
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unloader or regulating valve. The pumps are positive
displacement pumps providing a specific amount of fluid
constantly while operating. This volume of fluid must be
directed out thru a nozzle or back to a tank because it cannot
be stopped completely without creating excessively high
pressure and risk of damage to pump, components, property,
and person. It is recommended a safety device such as a
regulating valve be installed directly on pump head as
protection in case of a failure of another component. Pressure
switches can be used to automate pump operation, but they
must have a pressure regulating device installed as a safety
device.
Fluid can enter a pump either from a filtered tank or pressurized
fluid line.
It is common to use a tank with pumps that are mounted above
the pump. Filtration is important to maintain proper function of
the pump and system. The extent of filtration may be greater
based upon some uses such as misting with ultra-fine nozzles.
ASSEMBLY OPERATING INFORMATION
No on/off switch or circuit breaker provided
PN 80729
1. Check water supply. Is there water in tank? Is the garden
hose “on”?
2. Check for leaks
3. Check line Strainer, Clean?
4. Disconnect coupler on inlet side of unloader, direct hose
back to tank or onto ground away from motor
Start pump and allow air to purge from system (5 -15
seconds)
Stop pump and reconnect bypass hose to inlet side of
unloader
5. Connect discharge hose to outlet side of unloader
Connect spray gun assembly to other end of hose assembly
6. If you have a variable nozzle, adjust nozzle to low pressure
mode. (Click to forward position)
7. If you have separate nozzles with quick connects remove
nozzle from spray gun
8. Unscrew knob on unloader 4-6 turns to adjust to low
pressure setting
9. Hold trigger open on spray gun and start pump
Allow all air in system to purge
Stop pump
Adjust variable nozzle to high pressure (pull nozzle back
toward gun)
-OR-
Install quick connect high pressure nozzle
10.Restart Motor and squeeze spray gun trigger and adjust
spray angle to appropriate position.
Gradually increase pressure by adjusting unloader knob
Adjust pressure to suitable pressure for the specific cleaning
task
NOTE: Higher pressure requires more amperage. Do not
unnecessarily overload the system. This could result in the
premature failure of the motor and void your warranty.
CONNECT TO ELECTRICAL SUPPLY
NOTE: 12 Volt pumping systems are unique in that “problems”
are most likely to be electrical. If the pump motor is running and
no water is coming out of the pump - you have a pump systems
problem. Almost every other problem will be related to
electrical issues.
PN 80390
Click forward
(
away from gun)
for low pressure
Rotate to
Change
Spray Angle
Click backward
(
toward the gun)
for low pressure
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The most common electrical problems are poor connections.
Among those: Corroded battery terminals, corroded ground
wire, corroded wire connector, inadequate wire size for load
and damaged wire.
Our 12-volt motors with switches have circuit breakers built into
the switch box.
CIRCUIT BREAKERS WILL AUTOMATICALLY
RESET. THE MOTOR WILL RESTART AUTOMATICALLY.
DIAGRAM A: NOT GROUNDED TO FRAME
DIAGRAM C: REMOTE SWITCH
IMPORTANT: Warranty void if you connect electrical wires
backwards. Red is positive (+). Black is negative (-). Retrace
electrical wires to battery to be absolutely certain (+) terminal
on battery goes to red motor wire. Black wire on motor goes
directly to (-) terminal on battery or truck frame.
INLET CONDITION CHECKLIST
Inadequate inlet conditions can cause serious malfunctions in
the best designed pump. Surprisingly, the simplest of things can
cause the most severe problems or go unnoticed to the
unfamiliar or untrained eye. REVIEW THIS CHECKLIST BEFORE
OPERATION OF ANY SYSTEM. Remember, no two systems are
alike so there can be no ONE best way to setup a system. All
factors must be carefully considered.
INLET SUPPLY should exceed the maximum flow being
delivered by the pump to assure proper performance.
•Open inlet shut-off valve and turn on water supply to avoid
starving the pump. DO NOT RUN PUMP DRY.
•Avoid closed loop systems especially with high temperature,
ultra-high pressure, or large flows. Conditions vary with
regulating/unloader valve.
•When using an inlet supply reservoir, size it to provide
adequate liquid to accommodate the maximum output of the
pump, generally a minimum of 6-10 times the GPM (however,
a combination of system factors can change this
requirement).
INLET LINE SIZEshould be adequate to avoid starving the
pump.
•Line size must be a minimum of one size larger than the pump
inlet fitting. Avoid tees, 90-degree elbows or valves in the
inlet line of the pump to reduce the risk of flow restriction and
cavitations.
•The line MUST be a FLEXIBLE hose, NOT a rigid pipe, and
reinforced on SUCTION systems to avoid collapsing.
•The simpler the inlet plumbing the less the potential for
problems. Keep the length to a minimum, the number of
elbows and joints to a minimum (ideally no elbows) and the
inlet accessories to a minimum.
•Use pipe sealant to assure airtight, positive sealing pipe joints.
INLET PRESSURE should fall within the specifications of the
pump.
•High RPM, high temperatures, low vapor pressures or high
viscosity may increase acceleration loss of liquids.
CAUTION!
ONOFF SWITCH
& CIRCUIT BREAKER
MOUNTED ON MOTOR
DEEP CYCLE BATTERY
TRUCK BATTERY
DIAGRAM B: GROUNDED TO FRAME
ONOFF SWITCH
& CIRCUIT BREAKER
MOUNTED ON MOTOR
TRUCK BATTERY
TRUCK FRAME
ONOFF SWITCH
& CIRCUIT BREAKER
MOUNTED ON MOTOR
TRUCK BATTERY
TRUCK FRAME
GROUND
FUSE
REMOTE CONTROL
SWITCH
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•Optimum pump performance is obtained with +20 PSI (1.4
BAR) inlet pressure. With adequate inlet plumbing, most
pumps will perform with flooded suction.
•After prolonged storage, pump should be purged of air to
facilitate priming. Disconnect the discharge port to allow
liquid to pass through pump and measure flow.
USING CHEMICALS
Chemicals can be mixed into the fluid, and it is necessary to
understand whether these chemicals will damage the pump or
other system components. Another way to put chemicals into
the fluid is with a downstream injector.
An injector works as a result of the difference of pressure
between the inlet side of injector and discharge side. In most
cases, the pressure on the discharge side cannot exceed 1/2 of
the inlet pressure. For example, 1000 PSI into an injector should
allow up to 500-600 PSI spray pressure on discharge side. There
are dual-function nozzles that permit high pressure, chemical
free rinse and low pressure, chemical spray. These are
convenient for the operator and will not harm a properly
designed system. The advantages of an injector are:
Fewer items touching chemical, the chemical injection rate can
be controlled, and applying chemical at lower pressure
increases chemical use efficiency.
HEATING FLUID
The pumps may sometimes be used with downstream heaters
and precautions need to be taken to protect the system and
persons from harm. Refer to the skilled staff at the equipment
manufacturer for guidance and proper system care. Please be
aware that heated water expands, and additional pressure
release safety devices may be required.
SYSTEM DESIGN
A pump is the heart of every system and proper selection is
critical to equipment function and durability. If a pumping set
with excess flow is chosen, then energy and fluid is wasted. If
excess pressure results, then equipment effectiveness can
decrease and so can pump life.
TYPICAL APPLICATIONS AND THEIR PERFORMANCE
CONSIDERATIONS
PRESSURE CLEANING
The optimal combination of PSI and GPM for cleaning is a ratio
of 1 GPM for every 300-400 PSI. This combination maintains
sufficient droplet size for cleaning force and distance. If
pressure increases, and flow does not, then the water droplet
size reduces and has less impact force, requiring closer cleaning
distances and increased risk of surface damage.
LINE LOSS
When choosing a pump for spraying, pressure loss in the hose
must be considered. The pressure is greatest at pump and
decreases over the length of the hose. Typically, these systems
utilize very long hoses, 200-300 ft. is common, and requires a
certain minimum amount of performance to move the flow
through the lengths of hose. For example, a 3 GPM system will
require (lose) 50 PSI per 50 ft. of 3/8” ID hose. A pump with only
60-70 PSI may not provide the desired performance at the end
of the hose. See reference charts to assist in system design.
STORING
For extended storage periods or between uses in cold climates,
drain all pumped liquids from pump and flush with antifreeze
solution to prevent freezing and damage to the pump. DO NOT
RUN PUMP WITH FROZEN LIQUID.
NOTE: Each system’s maintenance cycle will be unique. If
system performance decreases, check immediately. If there is no
wear at 500 hours, check again at 1000 hours and each 500
hours until wear is observed. Valves typically require changing
every seal change. Duty cycle, temperature, quality of pumped
liquid and inlet feed conditions all affect the life of a pump’s
parts and service cycle.
NOTE: Remember to service the regulator/unloader at each
seal servicing and check all system accessories and connections
before resuming operation.
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MAINTENANCE
DISASSEMBLY AND REASSEMBLY
INSTRUCTIONS (356U/360U VIDEO)
1. Remove pump from motor. Remove bolts at each end of
pump and separate heads from manifold.
Figure 1
2. Holding each head, pull them apart to remove plunger.
Remove retaining plate from pump head. Remove internal
seal parts with finger. Discard parts, keeping the head and
retainer plate.
Figure 2
3. Clean the head with a rag or towel inspect for damage or
excess corrosion. If the head is damaged, do not rebuild.
4. Place one 024 o-ring, u-cup, and support ring into bore.
Verify that support ring is flush with top of u-cup. Place 124
o-ring (largest o-ring) into recessed area around top of
bore. Lightly grease second 024 o-ring and place around
plunger guide. Press plunger guide with o-ring installed into
bore. See Figure 3.
Figure 3
5. Lightly grease 117 o-ring and place in retainer plate pocket.
Place and press seal ring evenly within o-ring. Be careful to
apply even pressure and eliminate bulges in o-ring. Slide
retainer plate/o-ring/seal ring combo into pump head. If
any piece dislodges, do not continue to slide plate, but re-
adjust before sliding plate into place completely.
Figure 4
Figure 5
6. Repeat the previous steps 4 and 5 with the other head.
Manifold
Heads
Plunger
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7. Lightly grease the plunger with provided grease. Slide
plunger into one head and then slide other head onto
plunger. Place head and plunger assembly on work surface
with valves facing upward.
Figure 6
8. Adjust plunger slot position towards center and have slot
facing work surface. Replace all valves, o-rings, and white
washers. Refer to image and manifold label to understand
proper orientation. Outlets are nearest the sticker side.
IMPORTANT: It is imperative the alignment of OUT/IN
ports coincide with valves as indicated in Fig 7-8.
Figure 7
Figure 8
9. Place manifold on top of heads. It may be necessary to shift
heads around on plunger to have valves align with valve
pockets on manifold. Be careful to not lose the white
washers in the manifold during reassembly. See Figure 8.
10. Turn assembly over and place shorter bolt and washer
assembly into heads and tighten finger tight. DO NOT
tighten completely at this time.
Figure 9
11. Apply remaining grease from included packet into corners
and center of plunger slot.
Figure 10
Pumptec Operating Instructions and Parts Manual PRESSURE WASHER
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PREVENTIVE MAINTENANCE CHECKLIST
Check
Daily
Weekly
50 Hrs.
500 Hrs.
1500 Hrs.
3000 Hrs.
Clean Filters
X
Water leaks
X
Descale Pump
X
X
Cam & bearing
X
X
Seal Change
X
X
Valve Change
X
X
TROUBLESHOOTING CHART
SYMPTOM
POSSIBLE CAUSE(S)
CORRECTIVE ACTION
No water flow
1. Tank is empty, or water is not turned on
1. Fill tank or turn on water supply
2. Filter is clogged
2. Clean filter
3. Pump valves are clogged or damaged
3. Examine valves and clean or replace
4. Pump has lost prime
4. Follow priming procedure
Low pressure
1. Worn nozzle
1. Replace nozzle with new one of same size
2. Leak in high pressure hose or connections
2. Check hose and connections
3. Filter is clogged
3. Clean filter
4. Pump valves are clogged or damaged
4. Examine valves and clean or replace
Pump pulsates when spraying
1. Filter is clogged
1. Clean filter
2. Pump valves are clogged or damaged
2. Examine valves and clean or replace
Motor does not operate
1. Blown fuse or circuit breaker
1. Replace circuit breaker or fuse. Check circuit
for wire damage or component damage
Leaks seen under pump
1. Worn pump seals
1. Replace with new plunger and seals
2. Abrasives in solution have damaged pump seals
2. Mix chemical thoroughly and improve filter
Regulator leaks fluid from cap
1. Pressure is set too low
1. Set pressure higher to keep internals from
moving too much
2. Replace seal
For Repair Parts, call 763-433-0303
Please provide following information:
- Model number
- Serial number (if any)
- Part description and number as shown in parts list
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PRESSURE WASHER KIT CONTENTS PN 80390/80608
Parts shown not to scale
DESCRIPTION
QTY
DESCRIPTION
QTY
PUMP & MOTOR ASSEMBLY PN: 80390/80608 GUN & HOSE ASSEMBLY
Pump & Motor Assembly PN: 80390 (Motor M26) 1 Gun-MV920 1
Pump & Motor Assembly PN: 80608 (Motor M60) 1 Quick Coupler 3/8” M Socket 1
Fitting Assembly F Garden Hose x 3/8” MNPT 1 Variable nozzle, Hi-Lo & 0-80 Degree 1
Elbow 3/8” Mx3/8” M 1 Rotating Coupler 1/4” MxM22 F 1
Street Elbow 3/8” 1 Nipple for Rotating Coupler 1/4” MxM22 M 1
Plug Countersunk 3/8” 1 Pressure Hose 1
Unloader - 800 PSI Spring 1 Chemical Injector Assembly 1
Pulse Hose 1 SUCTION LINE ASSEMBLY
Pulse Hose Shield - 3/4”ID, 30” 1 Hose Barb, 3/4” GHT Mx1/2” Barb, Brass 1
Quick Coupler 3/8” F Plug 2 Hose Barb, 3/4” GHT Mx1/2” Barb, Nylon 1
Quick Coupler 3/8” F Socket 1 Hose Barb, 3/4” NPT Mx1/2” Barb, Nylon 1
Motor Mount 4 Hose Barb, 1/2” NPT Mx1/2” Barb, Nylon 1
Nut, 3/8” lock nut 8 Hose Clamps #06 4
Washer, 3/8” 8 Line Strainer, 1/2 Bx1/2” B, 80 Mesh, Clear Bowl 1
Suction Hose, 1/2”* 10’
(*) Not Shown
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Version 101322
PRESSURE WASHER KIT CONTENTS PN 80729
Parts shown not to scale
DESCriPtiON
DESCriPtiON
Qty
PUMP & MOTOR ASSEMBLY PN: 80729 GUN & HOSE ASSEMBLY
Pump & Motor Assembly 1 Gun-MV920 1
Hose Barb, 3/8” NPT Mx1/2” Barb, Brass 1 Quick Coupler 3/8” M Socket 1
Elbow 3/8” Mx3/8” M 1 Variable nozzle, Hi-lo & 0-80 Degree 1
Street Elbow 3/8” 1 Rotating Coupler 1/4” MxM22 F 1
Plug Countersunk 3/8” 1 nipple for Rotating Coupler 1/4” MxM22 M 1
Unloader - 800 PSI Spring 1 SUCTION LINE ASSEMBLY
Pulse Hose 1 Hose Clamps #06 4
Pulse Hose Shield - 3/4”ID, 30” 1 line Strainer, 1/2 Bx1/2” B, 80 Mesh, Clear Bowl 1
Quick Coupler 3/8” F Plug 2 Suction Hose, 1/2”* 10’
Quick Coupler 3/8” F Socket 1
(*) not Shown
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REPAIR PARTS ILLUSTRATION FOR 356U PUMP
REPAIR PARTS LIST FOR PLUNGER PUMP
DESCRIPTION
PART NO.
QTY
DESCRIPTION
PART NO.
QTY
KIT A, 356U
10007
KIT B
10004
Plunger
^
1
White Washer, ½” ID
^
8
O-Ring, 1-117
^
2
O-Ring, 1-116
^
4
Seal Ring, 1-124
^
2
Valve Assembly
^
4
Plunger Guide
^
2
Retainer Plate
*
2
Support Ring, 1-116
^
4
Pump Head
*
2
U-Cup
^
2
Pump Manifold
*
1
O-Ring, 1-024
^
4
(^) Sold only as part of a kit. | (*) Not part of a kit, for identification only.
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Version 101322
ADDITIONAL RESOURCES
Pumptec Returns Authorization Request Form
Warranty Policy
Prompt Disposition A good faith effort will be made for prompt correction or other adjustment with respect to any product which proves
to be defective within limited warranty. For any product believed to be defective within limited warranty, first visit Pumptec's website,
email, or call Pumptec. Pumptec will give additional directions. If unable to resolve satisfactorily, write to Pumptec at the address
below, giving the serial number, invoice number and date, and describing the nature of the defect. Title and risk of loss pass to buyer
on delivery to common carrier. If product was damaged in transit to you, file claim with carrier.
Manufactured by Pumptec, Inc. 700 McKinley St. NW, Anoka, Minnesota 55303 U.S.A.
Phone: 763-433-0303
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