Titan Rent Spray 700 El manual del propietario

Categoría
Rociador de pintura
Tipo
El manual del propietario
0303 © 2003 Titan Tool Inc. All rights reserved. Form No. 755-164, REV A
Printed in the U. S. A.
Do not use this equipment before reading this manual!
RentSpray 700
Gas Piston Pump
Owner’s Manual
For professional use only
NOTE: This manual contains important warnings
and instructions. Please read and retain for
reference.
Model Number 755-2020
Table of Contents
Safety Precautions.................................................................2
Français ..............................................................................18
Español...............................................................................20
General Description ...............................................................4
Operation ................................................................................4
Setup ....................................................................................4
Preparing to Paint.................................................................4
Painting.................................................................................5
Pressure Relief Procedure ...................................................6
Spraying ..................................................................................6
Spraying Technique ..............................................................6
Practice.................................................................................6
Cleanup ...................................................................................7
Maintenance............................................................................7
General Repair and Service Notes.......................................7
Maintaining the Engine .........................................................8
Replacing the Filter...............................................................8
Replacing the PRIME/SPRAY Valve.....................................8
Replacing the Potentiometer ................................................9
Replacing the Pump ON/OFF Switch...................................9
Replacing the Gears and/or Slider Assembly.....................10
Replacing the Electronic Pressure Control (EPC) Board ...11
Replacing the Transducer...................................................11
Servicing the Clutch Assembly ...........................................12
Servicing the Fluid Section.................................................14
Troubleshooting ...................................................................16
Parts Listings........................................................................22
Main Assembly....................................................................22
Drive Assembly...................................................................23
Fluid Section Assembly ......................................................24
Cart Assembly.....................................................................25
Filter Assembly ...................................................................25
PRIME/SPRAY Assembly ...................................................26
Electrical Schematic ...........................................................26
Labels .................................................................................26
Accessories ........................................................................27
Limited Warranty ..................................................................28
Safety Precautions
This manual contains information that must be read and
understood before using the equipment. When you come to an
area that has one of the following symbols, pay particular
attention and make certain to heed the safeguard.
This symbol indicates a potential hazard that may cause
serious injury or loss of life. Important safety information will
follow.
This symbol indicates a potential hazard to you or to the
equipment. Important information that tells how to prevent
damage to the equipment or how to avoid causes of minor
injuries will follow.
HAZARD: Injection injury - A high pressure stream
produced by this equipment can pierce the
skin and underlying tissues, leading to serious
injury and possible amputation. See a
physician immediately.
DO NOT TREAT AN INJECTION INJURY AS A SIMPLE
CUT! Injection can lead to amputation. See a physician
immediately.
The maximum operating range of the gun is 3300 PSI / 23
MPa fluid pressure.
WARNING
NOTE: Notes give important information which should
be given special attention.
CAUTION
WARNING
Titan Tool Inc. All rights reserved.
PREVENTION:
NEVER aim the gun at any part of the body.
•NEVER allow any part of the body to touch the fluid stream.
DO NOT allow body to touch a leak in the fluid hose.
NEVER put your hand in front of the gun. Gloves will not
provide protection against an injection injury.
•ALWAYS lock the gun trigger, shut the pump off, and release
all pressure before servicing, cleaning the tip or guard,
changing tip, or leaving unattended. Pressure will not be
released by turning off the motor. The PRIME/SPRAY knob
must be turned to PRIME to relieve the pressure. Refer to
the PRESSURE RELIEF PRESSURE described in the pump
manual.
•ALWAYS keep the tip guard in place while spraying. The
tip guard provides some protection but is mainly a warning
device.
•ALWAYS remove the spray tip before flushing or cleaning
the system.
The paint hose can develop leaks from wear, kinking and
abuse. A leak can inject material into the skin. Inspect
the hose before each use.
•NEVER use a spray gun without a trigger lock and trigger
guard in place and in good working order.
All accessories must be rated at or above 3300 PSI / 23
MPa. This includes spray tips, guns, extensions, and hose.
HAZARD: EXPLOSION OR FIRE - Solvent and paint fumes
can explode or ignite. Severe injury and/or
property damage can occur.
PREVENTION:
Provide extensive exhaust and fresh air introduction to
keep the air within the spray area free from accumulation
of flammable vapors.
•Avoid all ignition sources such as static electric sparks,
open flames, pilot lights, and hot objects. Connecting or
disconnecting power cords or working light switches can
make sparks.
•Do not smoke in spray area.
Fire extinguisher must be present and in good working
order.
Place paint pump in a well ventilated area. Flammable
vapors are often heavier than air. Floor area must be
extremely well ventilated. The paint pump contains arcing
parts that emit spark and can ignite vapors.
The equipment and objects in and around the spray area
must be properly grounded to prevent static sparks.
Use only conductive or grounded high pressure fluid hose.
Gun must be grounded through hose connections.
Power cord must be connected to a grounded circuit
(electric models only).
Always flush unit into a separate metal container, at low
pump pressure, with spray tip removed. Hold gun firmly
against side of container to ground container and prevent
static sparks.
Follow the material and solvent manufacturer's warnings
and instructions.
Use extreme caution when using materials with a
flashpoint below 70° F (21° C). Flashpoint is the
temperature that a fluid can produce enough vapors to
ignite.
Plastic can cause static sparks. Never hang plastic to
enclose a spray area. Do not use plastic drop cloths
when spraying flammable materials.
Use lowest possible pressure to flush equipment.
NOTE TO PHYSICIAN:
Injection into the skin is a traumatic injury. It is
important to treat the injury as soon as possible. DO
NOT delay treatment to research toxicity. Toxicity is a
concern with some coatings injected directly into the
blood stream. Consultation with a plastic surgeon or
reconstructive hand surgeon may be advisable.
GAS ENGINE (WHERE APPLICABLE)
Always place pump outside of structure in fresh air. Keep all
solvents away from the engine exhaust. Never fill fuel tank
with a running or hot engine. Hot surface can ignite spilled
fuel. Always attach ground wire from pump unit to a grounded
object, such as a metal water pipe. Refer to engine owners
manual for complete safety information.
HAZARD: EXPLOSION HAZARD DUE TO INCOMPATIBLE
MATERIALS - Will cause severe injury or
property damage.
PREVENTION:
Do not use materials containing bleach or chlorine.
Do not use halogenated hydrocarbon solvents such as
mildewcide, methylene chloride and 1,1,1 -
trichloroethane. They are not compatible with aluminum.
Contact your coating supplier about the compatibility of
material with aluminum.
HAZARD: HAZARDOUS VAPORS - Paints, solvents,
insecticides, and other materials can be
harmful if inhaled or come in contact with the
body. Vapors can cause severe nausea,
fainting, or poisoning.
PREVENTION:
Use a respirator or mask if vapors can be inhaled. Read
all instructions supplied with the mask to be sure it will
provide the necessary protection.
•Wear protective eyewear.
•Wear protective clothing as required by coating
manufacturer.
HAZARD: GENERAL - This product can cause severe
injury or property damage.
PREVENTION:
Read all instructions and safety precautions before
operating equipment.
Always disconnect the motor from the power supply
before working on the equipment (electric models only).
Follow all appropriate local, state, and national codes
governing ventilation, fire prevention, and operation.
The United States Government Safety Standards have
been adopted under the Occupational Safety and Health
Act (OSHA). These standards, particularly part 1910 of
the General Standards and part 1926 of the Construction
Standards should be consulted.
Use only manufacturer authorized parts. User assumes
all risks and liabilities when using parts that do not meet
the minimum specifications and safety devices of the
pump manufacturer.
Before each use, check all hoses for cuts, leaks, abrasion
or bulging of cover. Check for damage or movement of
couplings. Immediately replace the hose if any of these
conditions exist. Never repair a paint hose. Replace it
with another grounded high-pressure hose.
All hoses, swivels, guns, and accessories must be rated at
or above 3300 PSI / 23 MPa.
Do not spray outdoors on windy days.
•Wear clothing to keep paint off skin and hair.
Always unplug cord from outlet before working on
equipment.
Do not use this equipment to spray water or acid.
Do not lift by cart handle when loading or unloading.
CAUTION
Gasoline Engine Safety
The engine exhaust from this unit contains chemicals
known to the State of California to cause cancer, birth
defects, or other reproductive harm.
1. Gas engines are designed to give safe and dependable
service if operated according to instructions. Read and
understand the engine Owner's Manual before operating
the engine. Failure to do so could result in personal injury
or equipment damage.
2. To prevent fire hazards and to provide adequate
ventilation, keep the engine at least 1 meter (3 feet) away
from buildings and other equipment during operation. Do
not place flammable objects close to the engine.
3. Children and pets must be kept away from the area of
operation due to a possibility of burns from hot engine
components or injury from any equipment the engine may
be used to operate.
4. Know how to stop the engine quickly, and understand the
operation of all controls. Never permit anyone to operate
the engine without proper instructions.
5. Gasoline is extremely flammable and is explosive under
certain conditions.
6. Refuel in a well-ventilated area with the engine stopped.
Do not smoke or allow flames or sparks in the refueling
area or where gasoline is stored.
7. Do not overfill the fuel tank. After refueling, make sure the
tank cap is closed properly and securely.
8. Be careful not to spill fuel when refueling. Fuel vapor or
spilled fuel may ignite. If any fuel is spilled, make sure the
area is dry before starting the engine.
9. Never run the engine in an enclosed or confined area.
Exhaust contains poisonous carbon monoxide gas;
exposure may cause loss of consciousness and may lead
to death.
10. The muffler becomes very hot during operation and
remains hot for a while after stopping the engine. Be
careful not to touch the muffler while it is hot. To avoid
severe burns or fire hazards, let the engine cool before
transporting it or storing it indoors.
11. Never ship/transport unit with gasoline in the tank.
WARNING
©Titan Tool Inc. All rights reserved. 3
General Description
This airless sprayer is a precision power tool used for spraying
many types of materials. Read and follow this instruction
manual carefully for proper operating instructions,
maintenance, and safety information.
Operation
This equipment produces a fluid stream at extremely high
pressure. Read and understand the warnings in the
Safety Precautions section at the front of this manual
before operating this equipment.
Setup
Perform the following procedure before starting the engine of a
gas-powered sprayer.
1. Ensure that the siphon tube and the return hose are
attached and secure.
2. Attach the supplied grounding cable to a grounded object.
3. Using a wrench, attach a minimum of 50’ of 1/4” nylon
airless spray hose to the outlet fitting on the sprayer.
Tighten securely.
4. Attach an airless spray gun to the spray hose. Using two
wrenches (one on the gun and one on the hose), tighten
securely.
Make sure all airless hoses and spray guns are electrically
grounded and rated for at least 3300 PSI (23 MPa) fluid
pressure.
5. Turn the pressure control knob fully counterclockwise to
its lowest pressure setting.
6. Make sure the pump ON/OFF switch is in the OFF position.
7. Fill the fluid section oil cup with approximately one
tablespoon of piston seal lubricant (Piston Lube).
Never operate unit for more than ten seconds without
fluid. Operating this unit without fluid will cause
unnecessary wear to the packings.
8. Check the engine oil level. The gasoline engine oil level
is determined by the manufacturer. Refer to the engine
manufacturer's service manual (supplied).
9. Close the fuel shut-off lever and fill the gas tank with
gasoline. Use only high quality, unleaded gasoline.
CAUTION
WARNING
NOTE: Do not attach the tip to the spray gun yet.
Remove the tip if it is already attached.
WARNING
Engine
Pressure Control
Knob
Pail Hook
Fluid Section
Siphon Tube
Cart
Filter
Assembly
PRIME/SPRAY
Valve
Outlet Fitting
Titan Tool Inc. All rights reserved.
Preparing a New Sprayer
If this unit is new, it is shipped with test fluid in the fluid section
to prevent corrosion during shipment and storage. This fluid
must be thoroughly cleaned out of the system with mineral
spirits before you begin spraying.
Always keep the trigger lock on the spray gun in the
locked position while preparing the system.
1. Place the siphon tube into a container of mineral spirits
that has a flash point of 60ºC (140ºF) or above.
2. Place the return hose into a metal waste container.
3. Turn the pressure control knob fully counterclockwise to
its lowest pressure setting.
4. Move the PRIME/SPRAY valve to the PRIME position.
5. Move the engine ON/OFF switch to the ON position.
6. Start the engine:
a. Open the fuel valve
lever.
b. Move the throttle
lever away from the
gas tank.
c. Close the engine
choke lever.
d. Holding the frame
with one hand, pull
the starter rope
rapidly and firmly. Continue to hold the rope as you let
it return. Pull and return the rope until the engine
starts.
7. Turn on the sprayer by moving
the pump ON/OFF switch to the
ON position.
8. Slowly turn the pressure control
knob clockwise to increase the
pressure until fluid starts to
come out of the return hose.
Use only enough pressure to
keep the fluid coming out.
9. Allow the sprayer to run for
15–30 seconds to flush the test fluid out through the
return hose and into the waste container.
10. Turn the pressure control knob fully counterclockwise to
its lowest setting.
11.Turn off the sprayer by moving the pump ON/OFF switch
to the OFF position.
Preparing to Paint
Before painting, it is important to make sure that the fluid in the
system is compatible with the paint that is going to be used.
Always keep the trigger lock on the spray gun in the
locked position while preparing the system.
1. Place the siphon tube into a container of the appropriate
solvent for the material being sprayed (refer to
recommendations of the material manufacturer). An
example of the appropriate solvent is water for latex paint.
2. Place the return hose into a metal waste container.
3. Turn the pressure control knob fully counterclockwise to
its lowest pressure setting.
4. Move the PRIME/SPRAY valve to the PRIME position.
5. Move the engine ON/OFF switch to the ON position.
CAUTION
NOTE: Incompatible fluids and paint may cause the
valves to become stuck closed, which would
require disassembly and cleaning of the
sprayers fluid section.
Pressure
Control
Knob
Pump
ON/OFF
Switch
Fuel Valve
Lever
Choke Lever
Engine
ON/OFF
Switch
Throttle
Lever
Starter Rope
CAUTION
6. Start the engine:
a. Open the fuel valve lever.
b. Move the throttle lever away from the gas tank.
c. Close the engine choke lever.
d. Holding the frame with one hand, pull the starter rope
rapidly and firmly. Continue to hold the rope as you let
it return. Pull and return the rope until the engine
starts.
7. Turn on the sprayer by moving the pump ON/OFF switch
to the ON position.
8. Slowly turn the pressure control knob clockwise to
increase the pressure until fluid starts to come out of the
return hose. Use only enough pressure to keep the fluid
coming out.
9. Allow the sprayer to run for 15–30 seconds to flush the old
solvent out through the return hose and into the metal
waste container.
10. Turn the pressure control knob fully counterclockwise to
its lowest setting.
11.Turn off the sprayer by moving the pump ON/OFF switch
to the OFF position.
12. Move the PRIME/SPRAY valve to the SPRAY position.
13. Turn on the sprayer.
14. Turn the pressure control knob slowly clockwise to
increase pressure.
15. Unlock the gun by turning the gun trigger lock to the
unlocked position.
Ground the gun by holding it against the
edge of the metal container while
flushing. Failure to do so may lead to a
static electric discharge, which may
cause a fire.
16. Trigger the gun into the metal waste
container until the old solvent is gone
and fresh solvent is coming out of the gun.
17. Lock the gun by turning the gun trigger lock to the locked
position.
18. Set down the gun and increase the pressure by turning
the pressure control knob slowly clockwise to its highest
setting.
19. Check the entire system for leaks. If leaks occur, turn the
sprayer off and follow the “Pressure Relief Procedure” in
this manual before tightening any fittings or hoses.
20. Follow the “Pressure Relief Procedure” in this manual
before changing from solvent to paint.
Be sure to follow the pressure relief procedure when
shutting the unit down for any purpose, including
servicing or adjusting any part of the spray system,
changing or cleaning spray tips, or preparing for cleanup.
Painting
1. Place the siphon tube into a container of paint.
2. Place the return hose into a metal waste container.
3. Turn the pressure control knob fully counterclockwise to
its lowest pressure setting.
4. Move the PRIME/SPRAY valve to the PRIME position.
5. Move the engine ON/OFF switch to the ON position.
6. Start the engine:
a. Open the fuel valve lever.
b. Move the throttle lever away from the gas tank.
WARNING
WARNING
NOTE: Make sure that the spray gun does not have a
tip or tip guard installed.
c. Close the engine
choke lever.
d. Holding the frame
with one hand, pull
the starter rope
rapidly and firmly.
Continue to hold
the rope as you let
it return. Pull and
return the rope until
the engine starts.
7. Turn on the sprayer
by moving the pump ON/OFF switch to the ON position.
8. Slowly turn the pressure control
knob clockwise to increase the
pressure until fluid starts to
come out of the return hose.
Use only enough pressure to
keep the fluid coming out.
9. Allow the sprayer to run until
paint is coming through the
return hose into the metal
waste container.
10. Turn the pressure control knob fully counterclockwise to
its lowest setting.
11.Turn off the sprayer by moving the pump ON/OFF switch
to the OFF position.
12. Remove the return hose from the waste container and place
it in its operating position above the container of paint.
13. Move the PRIME/SPRAY valve to the SPRAY position.
14. Turn on the sprayer.
15. Turn the pressure control knob slowly clockwise to
increase pressure.
16. Unlock the gun by turning the gun trigger lock to the
unlocked position.
Ground the gun by holding it against the
edge of the metal container while
flushing. Failure to do so may lead to a
static electric discharge, which may
cause a fire.
17. Trigger the gun into the metal waste
container until all air and solvent is flushed from the spray
hose and paint is flowing freely from the gun.
18. Lock the gun by turning the gun trigger lock to the locked
position.
19. Turn the pressure control knob fully counterclockwise to
its lowest setting.
20. Turn off the sprayer.
21. Attach tip guard and tip to the gun as instructed by the tip
guard or tip manuals.
POSSIBLE INJECTION HAZARD. Do not spray without the
tip guard in place. Never trigger the gun unless the tip is in
either the spray or the unclog position. Always engage the
gun trigger lock before removing, replacing or cleaning tip.
22. Turn on the sprayer.
23. Increase the pressure by turning the pressure control
knob slowly clockwise and test the spray pattern on a
piece of cardboard. Adjust the pressure control knob until
the spray from the gun is completely atomized. Try to
keep the pressure control knob at the lowest setting that
maintains good atomization.
NOTE: Turning the pressure up higher than needed to
atomize the paint will cause premature tip wear
and additional overspray.
WARNING
WARNING
Pressure
Control
Knob
Pump
ON/OFF
Switch
Fuel Valve
Lever
Choke Lever
Engine
ON/OFF
Switch
Throttle
Lever
Starter Rope
©Titan Tool Inc. All rights reserved. 5
Pressure Relief Procedure
Be sure to follow the pressure relief procedure when
shutting the unit down for any purpose, including
servicing or adjusting any part of the spray system,
changing or cleaning spray tips, or preparing for cleanup.
1. Lock the gun by turning the gun trigger lock to the locked
position.
2. Turn off the sprayer by moving the pump ON/OFF switch
to the OFF position.
3. Turn off the engine by moving the engine ON/OFF switch
to the OFF position.
4. Turn the pressure control knob counterclockwise to its
lowest setting.
5. Unlock the gun by turning the gun trigger lock to the
unlocked position.
4. Hold the metal part of the gun firmly to
the side of a metal container to ground
the gun and avoid a build up of static
electricity.
5. Trigger the gun to remove any pressure
that may still be in the hose.
6. Lock the gun by turning the gun trigger lock to the locked
position.
7. Move the PRIME/SPRAY valve to the PRIME position.
Spraying
Spraying Technique
The key to a good paint job is an even coating over the entire
surface. This is done by using even strokes. Keep your arm
moving at a constant speed and keep the spray gun at a
constant distance from the surface. The best spraying distance
is 10 to 12 inches between the spray tip and the surface.
Keep the spray gun at right angles to the surface. This means
moving your entire arm back and forth rather than just flexing
your wrist.
Heavy Coat
Do not flex wrist while spraying.
Light Coat Light Coat
Keep stroke smooth and at an even speed.
Even coat throughout
Approximately
10 to 12 inches
NOTE: When spraying block filler, mastics or high
solid coating, remove the gun filter and high
pressure filter screens.
WARNING
Titan Tool Inc. All rights reserved.
Keep the spray gun perpendicular to the surface, otherwise
one end of the pattern will be thicker than the other.
The spray gun should be triggered by turning it on and off with
each stroke. This will save paint and avoid paint buildup at the
end of the stroke. Do not trigger the gun during the middle of
a stroke. This will result in an uneven spray and splotchy
coverage.
Overlap each stroke by about 30%. This will ensure an even
coating.
When you stop painting, lock the gun trigger lock, turn the
pressure control knob counterclockwise to its lowest setting
and set the PRIME/SPRAY valve to PRIME. Turn the motor
switch to OFF and unplug the sprayer.
Practice
1. Be sure that the paint hose is free of kinks and clear of
objects with sharp cutting edges.
2. Turn the pressure control knob counterclockwise to its to
its lowest setting.
3. Move the PRIME/SPRAY valve to the SPRAY position.
4. Turn the pressure control knob clockwise to its highest
setting. The paint hose should stiffen as paint begins to
flow through it.
5. Unlock the gun trigger lock.
6. Trigger the spray gun to bleed air out of the hose.
7. When paint reaches the spray tip, spray a test area to
check the spray pattern.
8. Use the lowest pressure
setting necessary to get a
good spray pattern. If the
pressure is set too high, the
spray pattern will be too light.
If the pressure is set too low,
tailing will appear or the paint
will spatter out in gobs rather
than in a fine spray.
Good spray pattern
Paint tailing pattern
Proper way to trigger the spray gun
Approximately
10 to 12 inches
Keep stroke
even
Start stroke End strokePull trigger Release triggerKeep steady
Approximately
10 to 12 inches
Right way
Wrong way
Cleanup
Special cleanup instructions for use with flammable
solvents:
•Always flush spray gun preferably outside and at least one
hose length from spray pump.
If collecting flushed solvents in a one gallon metal
container, place it into an empty five gallon container, then
flush solvents.
Area must be free of flammable vapors.
Follow all cleanup instructions.
The sprayer, hose, and gun should be cleaned thoroughly
after daily use. Failure to do so permits material to build
up, seriously affecting the performance of the unit.
Always spray at minimum pressure with the gun nozzle tip
removed when using mineral spirits or any other solvent
to clean the sprayer, hose, or gun. Static electricity
buildup may result in a fire or explosion in the presence of
flammable vapors.
1. Follow the “Pressure Relief Procedure” found in the
Operation section of this manual.
2. Remove the gun tip and tip guard and clean with a brush
using the appropriate solvent.
3. Place the siphon tube into a container of the appropriate
solvent (refer to recommendations of the material
manufacturer). An example of the appropriate solvent is
water for latex paint.
4. Place the return hose into a metal waste container.
5. Move the PRIME/SPRAY valve to its PRIME position.
6. Move the engine ON/OFF switch to the ON position and
start the engine.
7. Turn on the sprayer by moving the pump ON/OFF switch
to the ON position.
8. Slowly turn the pressure control knob clockwise to increase
the pressure until fluid starts to come out of the return hose.
9. Allow the solvent to circulate through the sprayer and
flush the paint out of the return hose into the metal waste
container.
10. Turn the pressure control knob fully counterclockwise to
its lowest setting.
11.Turn off the sprayer by moving the ON/OFF switch to the
OFF position.
12. Move the PRIME/SPRAY valve to its SPRAY position.
13. Turn on the sprayer.
14. Turn the pressure control knob slowly clockwise to
increase pressure.
Ground the gun by holding it against the
edge of the metal container while flushing.
Failure to do so may lead to a static electric
discharge, which may cause a fire.
15. Trigger the gun into the metal waste
container until the paint is flushed out of the hose and
solvent is coming out of the gun.
16. Continue to trigger the spray gun into the waste container
until the solvent coming out of the gun is clean.
17. Follow the “Pressure Relief Procedure” found in the
Operation section of this manual.
NOTE: For long-term or cold weather storage, pump
mineral sprits through the entire system.
WARNING
CAUTION
©Titan Tool Inc. All rights reserved. 7
18. Store the sprayer in a clean, dry area.
Do not store the sprayer under pressure.
Cleaning the Spray Tip
1. Flush the gun with solvent immediately after the work is
completed.
2. Oil the sliding pins to prevent them from seizing up.
Should the spray tip become clogged, reverse
the spray tip with the lever and pull the trigger.
Once the obstruction comes out of the spray tip,
release the trigger, reverse the spray tip back to
the spray pattern setting, and resume spraying.
Do not attempt to clean the tip with your finger.
Do not use a needle or other sharp pointed instrument to
clean the tip. The hard tungsten carbide is brittle and can
be chipped.
Maintenance
Before proceeding, follow the Pressure Relief Procedure
outlined previously in this manual. Additionally, follow all
other warnings to reduce the risk of an injection injury,
injury from moving parts, or electric shock.
General Repair and Service Notes
The following tools are needed when repairing this sprayer:
Phillips screwdriver 3/8" hex wrench
needle-nose pliers 5/16" hex wrench
adjustable wrench 1/4" hex wrench
rubber mallet 3/16" hex wrench
flat-blade screwdriver 1/8” hex wrench
1/2” open-end wrench 7/8” open-end wrench
1. Before repairing any part of the sprayer, read the
instructions carefully, including all warnings.
Never pull on a wire to disconnect it. Pulling on a wire
could loosen the connector from the wire.
2. Test your repair before regular operation of the sprayer to be
sure that the problem is corrected. If the sprayer does not
operate properly, review the repair procedure to determine if
everything was done correctly. Refer to the Troubleshooting
section to help identify other possible problems.
3. Make certain that the service area is well ventilated in
case solvents are used during cleaning. Always wear
protective eyewear while servicing. Additional protective
equipment may be required depending on the type of
cleaning solvent. Always contact the supplier of solvents
for recommendations.
4. If you have any further questions concerning your TITAN
Airless Sprayer, call TITAN:
Customer Service (U.S.) .......................1-800-526-5362
Fax ................................................1-800-528-4826
Customer Service (Canada)..................1-800-565-8665
Fax ................................................ 1-905-856-8496
Customer Service (International)...........1-201-337-1240
Fax ................................................1-201-405-7449
CAUTION
NOTE: All Honda engine work should be performed by
a Honda authorized service center.
WARNING
CAUTION
Maintaining the Engine
When transporting a sprayer with a gas engine, make sure
the fuel is shut off.
Important Facts Concerning this Sprayer
This gas-powered sprayer contains a clutch that engages
when the sprayer is pumping. The sprayer’s pressure control
system engages and disengages the clutch to control
pressure. To prevent unnecessary wear to the clutch, it is
advisable to adjust the engine speed and pressure setting to
limit the amount of times the clutch engages and disengages.
To reduce clutch wear, refer to the following examples.
Example:
Operating one gun with a .019 tip — reduce the engine speed
by adjusting the throttle to a low or medium setting and
increase pressure only until the heavy ends of the spray
pattern have been eliminated.
Example:
Operating one gun with .023 tip — increase engine speed to a
high setting and increase pressure until the heavy ends of the
spray pattern have been eliminated.
Example:
Spraying light-bodied materials at low pressure — to reduce
surging at the gun and to decrease clutch wear, reduce the
engine speed to idle and reduce pressure until the desired
spray pattern is achieved.
Routine Engine Maintenance
Daily
Check and fill the gas tank.
After the first 20 hours of operation, drain the oil and refill
with clean oil. Check the engine oil level and fill as
necessary.
Weekly
Remove the cover of the air filter and clean the element.
Replace the element if necessary. If operating in an
unusually dusty environment, check the filter daily and
replace if necessary. (Replacement elements can be
purchased from your local Titan dealer.)
After each 50 hours of operation: Change the engine oil.
Spark Plug
Use only a (NKG) BP6ES plug.
Gap the plug 0.025” – 0.030” (0.7 – 0.8 mm).
Make sure to use a spark plug wrench when installing and
removing the plug.
NOTE: For detailed engine specifications and
maintenance, refer to the separate engine
manual supplied with this sprayer.
WARNING
Titan Tool Inc. All rights reserved.
Replacing the Filter
1. Loosen and remove the filter
body by hand.
2. Remove the filter and core
spring from the filter housing.
3. Remove the core spring from
inside the filter.
4. Inspect the filter. Based on
inspection, clean or replace the
filter.
5. Inspect the filter housing o-ring.
Based on inspection, clean or
replace the o-ring.
6. Slide the new or cleaned filter
over the core spring with the
filter spring adapter in place.
Place the filter and core spring
into the center of the filter
housing.
7. Clean the inside of the filter
body.
8. Slide the filter body over the
filter and thread it into the filter
housing until secure.
Replacing the PRIME/SPRAY Valve
Perform the following procedure using PRIME/SPRAY valve
replacement kit P/N 800-915.
1. Drive the groove pin out of the valve handle.
2. Remove the valve handle and the cam base.
3. Using a wrench, loosen and remove the valve housing
assembly.
4. Make sure the gasket is in place and thread the new valve
housing assembly into the filter housing. Tighten securely
with a wrench.
5. Place the cam base over the valve housing assembly.
Lubricate the cam base with grease and line up the cam
with the filter block using the dowel pin.
6. Line up the hole on the valve stem with the hole in the
valve handle.
7. Insert the groove pin into the valve handle and through
the valve stem to secure the valve handle in position.
Dowel Pin
Cam Base
Valve Stem
Filter
Housing
Valve Housing
Assembly
Gasket
Valve
Handle
Groove Pin
NOTE: The filter body should
be hand-tightened,
but make sure it is
seated fully into the
filter housing.
Filter
Body
Core
Spring
Filter Spring
Adapter
Filter
Filter
Housing
O-ring
Filter
Housing
Replacing the Potentiometer
Electrostatic discharge (ESD) potential could cause
damage to electronic pressure control. Use ESD wrist
strap P/N 700-1037 or equivalent when working on
electronic pressure control.
1. Perform the Pressure Relief Procedure.
2. Pry off the pressure control knob cap to expose the knob
tension nut.
3. Turn the pressure control knob fully counterclockwise to
the minimum pressure setting.
4. Using a 5/16” socket, loosen the tension nut in the center
of the knob. Remove the knob.
5. Using a Phillips screwdriver, remove the four screws that
secure the electronic pressure control (EPC) assembly to
the EPC housing. Carefully remove the EPC assembly
from the housing. Gently move the assembly away from
the sprayer and allow the assembly to hang from the
housing.
6. Hold the potentiometer inside the EPC housing while
using a 1/2” thin wall socket to remove the seal nut that
secures the potentiometer to the mounting plate. Remove
the potentiometer from the EPC housing.
7. Carefully remove the potentiometer wires from their
connection point on the EPC board.
8. Insert the stem of the new potentiometer through the hole
in the mounting plate from inside the EPC housing.
Position the protruding tab on the potentiometer face into
the hole on the underside of the mounting plate (the wires
will face the open side of the EPC housing).
9. Thread the seal nut onto the threaded portion of the stem
and tighten using a 1/2” thin wall socket.
Do not over-tighten the seal nut.
10. Turn the potentiometer stem fully counterclockwise.
11. Place the pressure control knob on the potentiometer
stem with the indicator tab resting at the “minimum
pressure” tab on the mounting plate.
12. Tighten the knob tension nut using a 5/16” socket.
Do not over-tighten the knob tension nut. Over-tightening
will damage the potentiometer.
13. Connect the potentiometer wires to the EPC board. The
protruding tab on the EPC board connector will mate with
the slot on the potentiometer wires connector. The
connector on the end of the potentiometer wires and the
connector on the EPC board will mate only one way. Do
not force the connectors together.
14. Carefully place the EPC assembly over the EPC housing
taking care not to pinch any wires.
15. Install the four screws that secure the EPC assembly to
the EPC housing. Tighten securely.
EPC
Housing
Pressure Control Knob
Seal Nut
Cap
EPC
Board
EPC
Assembly
EPC
Assembly
Screw
Potentiometer
Replacing the Pump ON/OFF Switch
Electrostatic discharge (ESD) potential could cause
damage to electronic pressure control. Use ESD wrist
strap P/N 700-1037 or equivalent when working on
electronic pressure control.
1. Perform the Pressure Relief Procedure.
2. Using a Phillips screwdriver, remove the four screws that
secure the electronic pressure control (EPC) assembly to
the EPC housing. Carefully remove the EPC assembly
from the housing. Gently move the assembly away from
the sprayer and allow the assembly to hang from the
housing.
3. Locate the bottom of the pump ON/OFF switch inside the
EPC housing.
4. Disconnect the switch wires from the pump ON/OFF
switch. Remember the locations of each of the two wires
(label the wires, if necessary).
5. Depress the mounting tabs on each corner of the pump
ON/OFF switch inside the EPC housing and remove the
switch through the top of the housing.
6. Snap the new pump ON/OFF switch into the switch hole
in the EPC housing.
7. Connect the two switch wires to the new pump ON/OFF
switch. Make sure the wires are connected to the
corresponding terminals from which they were removed
(refer to the labels created earlier in this procedure or the
electrical schematic in the Parts List section of this
manual).
8. Carefully place the EPC assembly over the EPC housing
taking care not to pinch any wires.
9. Install the four screws that secure the EPC assembly to
the EPC housing. Tighten securely.
Pump ON/OFF
Switch
EPC
Board
EPC
Assembly
EPC
Assembly
Screw
©Titan Tool Inc. All rights reserved. 9
Replacing the Gears and/or
Slider Assembly
1. Using a Phillips screwdriver, remove the four front cover
screws. Remove the front cover.
2. Start the engine (refer to the procedures in the Operation
section of this manual). Turn the pressure control knob
clockwise to its maximum pressure setting.
3. Toggle the pump ON/OFF switch between the ON and
OFF positions in short bursts until the slider assembly and
piston stop at the bottom of their stroke (in their lowest
position).
4. Turn off the engine and perform the Pressure Relief
Procedure.
5. Using a 11/16” open-
end wrench, loosen
and remove the fluid
hose from the fitting
on the back of the
fluid section.
6. Using a 3/8” hex
wrench, remove the
two socket screws
that secure the fluid
section to the pump
housing.
7. Remove the fluid
section by pulling it
straight down from
the pump housing
until the dowel pins
on the pump housing disengage from the fluid section
housing. Then, pull the fluid section forward to disengage
the piston from the T-slot on the slider assembly.
8. Using a 1/4” hex wrench,.remove the four socket screws
that secure the pump housing to the gear housing.
9. Slide the pump housing away from the gear housing.
10. Remove and clean the housing gasket. Replace if
damaged.
11. Slide the crankshaft assembly, with the two thrust washers
out from the gear housing side of the pump housing.
12. Remove the output gear assembly with the two thrust
washers.
13. Thoroughly clean the crankshaft assembly, the output gear
assembly, and all the thrust washers.
Connecting
Rod
Slider Bushing
Slider Assembly
Gear Housing
Pump Housing
Output Gear
Assembly
Thrust
Washer
Thrust Washer
Housing Gasket
Large Thrust Washer
Crankshaft Assembly
Cylindrical Thrust Washer
Pump Housing
Socket Screw
Fitting
Piston
Pump
Housing
Slider
Assembly
Front
Cover
Screw
Fluid
Section
Housing
Socket
Screw
Front
Cover
NOTE: If replacing the slider assembly, the fluid
section must be removed from the pump
housing.
10 ©Titan Tool Inc. All rights reserved.
14. Inspect all parts for excessive wear and replace if
damaged or worn. If the crankshaft or output gear
assembly are replaced, replace the corresponding thrust
washers as well.
15. Inspect the pinion gear on the end of the drive shaft for
wear. Replace if damaged or worn (refer to the “Servicing
the Clutch Assembly” procedure in this section).
16. Slide the slider assembly up and out of the slider bushing
in the front of the pump housing.
17. Check the parts for wear.
a. If the slider bushing is scored or out of round it should
be replaced.
b. If the slider assembly is scored or the connection
between the connecting rod and slider assembly
exhibits movement other than pivoting movement, the
slider assembly should be replaced. The slider
assembly also should be replaced if the connecting rod
bearing shows signs of wear.
c. Any parts that will be reused should be cleaned
thoroughly, including the connecting rod. Also, clean the
crankshaft pin that the connecting rod bearing rides on.
d. If the slider bushing requires replacement, a press must
be used. Position the pump housing so that the
bushing is facing the arbor on the press. Position the
new bushing on top of the old bushing. Lower the
arbor on the press to contact the new bushing and
press the new bushing into the bore. As the new
bushing is pressed into the bore, the old bushing is
pressed out of the bore. The new bushing is in place
when it is flush with the bore wall on the pump housing.
18. Coat the output gear assembly and each side of its thrust
washers with fresh Lubriplate GR-132 grease. Place the
thrust washers on their proper shaft of the output gear
assembly.
19. Lubricate the output gear assembly with fresh Lubriplate
GR-132 grease. Insert the gear assembly into its bore in
the gear housing, gear end first. The teeth on the gear
will mate with the teeth on the drive shaft pinion.
20. Generously coat all surfaces of the cylindrical crankshaft
assembly thrust washer with fresh Lubriplate GR-132
grease.
21. Slip the flat end of the cylindrical thrust washer behind the
gear on the output gear assembly, lining its bore up with the
gear housing bearing bore for the crankshaft assembly.
22. Lubricate the crankshaft assembly gear with fresh
Lubriplate GR-132 grease. Slide the gear side shaft of
the crankshaft through the cylindrical thrust washer and
into its bore within the gear housing.
23. Position the pin on the end of the crankshaft towards the
bottom of the gear housing (the bottom dead center
position).
24. Lubricate both faces of the large crankshaft assembly
thrust washer with fresh Lubriplate GR-132 grease. Place
the thrust washer onto the crankshaft against the gear.
25. Place the housing gasket over the gear housing dowel pins.
26. Lubricate the outside of the slider assembly and the inside of
the slider bushing with oil. Fill the slider cup with Lubriplate
1242 grease (the slider cup is the area on the slider
assembly where the connecting rod and slider join and pivot).
27. Insert the slider assembly into the slider bushing so that
the small dimple on the face of the connecting rod faces
the open side of the pump housing.
28. Carefully place the pump housing assembly in front of the
gear housing assembly, lining up the gear housing dowel
pins with their corresponding holes in the pump housing.
Slide the pump housing onto the gear housing until there
is no gap between the housings and gasket.
NOTE: If any of the gears are worn and require
replacement, check the grease in the gear
housing for metal particles or shavings.
Remove the contaminated grease. Replace the
grease that has been removed with fresh
Lubriplate GR-132 grease.
Do not force the pump housing and gear housing together.
29. Locate the four socket screws and lock washers that secure
the pump housing to the gear housing. The longer screws
(2.25”) are fastened into the top internal holes. The shorter
screws (2”) are fastened into the bottom external bosses.
30. Using a 1/4” hex wrench, snug and tighten the socket
screws in a crossing pattern. Torque to 200–230 in./lbs.
31. If the fluid section was removed, reinstall by engaging the
notch in the top of the piston with the groove in the bottom
of the slider assembly. Push the fluid section up toward
the pump housing until the dowel pins in the pump
housing engage the holes in the fluid section housing.
32. Insert the two socket screws that secure the fluid section
to the pump housing and alternately snug, tighten, and
torque the screws to 400-440 in./lbs.
33. Position the front cover over the pump housing. Secure
the front cover using the four front cover screws.
34. Using a 11/16” open-end wrench, attach the fluid hose to
the fitting on the back of the fluid section. Tighten
securely.
Replacing the Electronic Pressure
Control (EPC) Assembly
Electrostatic discharge (ESD) potential could cause
damage to electronic pressure control. Use ESD wrist
strap P/N 700-1037 or equivalent when working on
electronic pressure control.
1. Perform the Pressure Relief Procedure.
2. Using a Phillips
screwdriver, remove
the four screws that
secure the electronic
pressure control
(EPC) assembly to the
EPC housing.
Carefully remove the
EPC assembly from
the housing. Gently
move the assembly
away from the sprayer
and allow the assembly to hang from the housing.
3. Remember the locations of all the wire connections on the
EPC board (refer the electrical schematic located in the
Parts List section of this manual). If necessary, label all
the connections so that they can be replaced in their exact
location when the assembly is replaced.
4. Disconnect all the wires from the EPC board.
5. Connect all the wires to the new EPC assembly board
(refer to the labels created earlier in this procedure or the
electrical schematic in the Parts List section of this
manual).
6. Carefully place the EPC assembly over the EPC housing
taking care not to pinch any wires.
7. Install the four screws that secure the EPC assembly to
the EPC housing. Tighten securely.
8. Take the sprayer to a Titan Authorized Service Center for
re-calibration.
EPC
Housing
EPC Assembly Screw
EPC Assembly
EPC
Board
WARNING
CAUTION
NOTE: While sliding the pump housing into place, the
crankshaft pin will begin to protrude from the
bearing in the center of the pump housing.
Position the slider assembly so that as the
crankshaft pin protrudes from the main
bearing, it engages the connecting rod
bearing.
Replacing the Transducer
Electrostatic discharge (ESD) potential could cause
damage to electronic pressure control. Use ESD wrist
strap P/N 700-1037 or equivalent when working on
electronic pressure control.
1. Perform the Pressure Relief Procedure.
2. Using a Phillips
screwdriver, remove
the four screws that
secure the electronic
pressure control
(EPC) assembly to
the EPC housing.
Carefully remove the
EPC assembly from
the housing. Gently
move the assembly
away from the sprayer
and allow the assembly to hang from the housing.
3. Locate the transducer wire in the EPC housing. This wire
will be protruding from a hole in the lower left hand corner
of the EPC housing. Disconnect this wire from the EPC
board (it has a phone jack-style connector).
4. Break off the locking tab from the phone jack-style
connector at the end of the transducer wire.
5. Using a 7/8” open-end wrench, loosen and remove the
fluid hose from the fitting on the bottom of the filter
assembly.
6. Remove the return hose from the fitting on the bottom of
the filter assembly.
7. Using a 1/2” socket, remove the two hex screws that
secure the filter assembly to the cart.
8. Lift the filter assembly off the cart so that the transducer
tube moves out of the hole in the gear housing. Gently
pull the transducer wire through the housing until it is fully
disengaged from the hole.
9. Mount the filter assembly in a vise for easy access to the
transducer.
Do not over-tighten the vise.
10. Using a 3/4” open-end wrench, turn the transducer nut
counterclockwise to remove the transducer from the filter
housing.
11. Locate the new transducer. Make sure that there is a
white, 37)( o-ring on the end of the transducer that gets
inserted into the filter housing.
12. Insert the transducer into the filter housing port. Rotate
the transducer nut clockwise to tighten it into the filter
housing. Torque the nut to 360–400 in./lbs.
13. Remove the filter assembly from the vise.
Transducer
Filter Assembly
Hex Screw
Gear Housing
Return
Hose
Fitting
Filter
Assembly
Fluid
Hose
Fitting
Cart
CAUTION
EPC
Housing
EPC Assembly Screw
EPC Assembly
EPC
Board
WARNING
©Titan Tool Inc. All rights reserved. 11
14. Insert the phone jack-style connector on the new
transducer wire into the hole in the gear housing from
which the old transducer wire was removed. Push the
wire and connector until the connector is visible in the
EPC housing.
15. Gently pull the wire into the EPC housing while moving
the filter assembly to its mounting point on the cart. Guide
the end of the transducer tube into the hole in the gear
housing.
16. Mount the filter assembly to the cart using the two hex
screws and lock washers. Torque the screws to 100–130
in./lbs.
17. Using a 7/8” open-end wrench, attach the fluid hose to the
fitting on the bottom of the filter assembly. Tighten securely.
18. Push the return hose firmly into the fitting on the bottom of
the filter assembly. Pull on the hose to make sure it has
engaged within the fitting.
19. Plug the phone jack-style connector on the transducer
wire into the socket on the EPC board from which the old
connector was removed.
20. Carefully place the EPC assembly over the EPC housing
taking care not to pinch any wires.
21. Install the four screws that secure the EPC assembly to
the EPC housing. Tighten securely.
22. Take the sprayer to a Titan Authorized Service Center for
re-calibration.
23. After re-calibration, pressurize the system and check for
leaks.
Servicing the Clutch Assembly
Removing/Replacing the Clutch Armature
Assembly
1. Perform the Pressure Relief Procedure.
2. Using a 11/16” open-end wrench, loosen and remove the
fluid hose from the fitting on the back of the fluid section.
3. Hold the transducer tube with a pliers to prevent it from
rotating and turn the transducer nut counterclockwise
using a 3/4” open-end wrench. When the nut disengages
the filter housing, carefully remove the transducer from the
filter housing.
4. Locate the wire that exits the rear of the electronic
pressure control (EPC) housing and connects to the wire
harness on the engine. Disconnect this wire from its
connector at the engine wire harness.
5. Using a 1/2” wrench, remove the four hex screws and lock
washers that secure the clutch housing to the gear housing.
6. Using a 9/16” socket, remove the two hex screws that
secure the gear housing to the cart.
NOTE: When replacing the clutch armature, the clutch
rotor must be replaced also. This will allow for
even wear and maximum life on clutch parts.
Transducer
Filter Assembly
Hex Screw
Gear Housing
Return
Hose
Fitting
Filter
Assembly
Fluid
Hose
Fitting
Cart
12 ©Titan Tool Inc. All rights reserved.
7. Slide the pump and gear housings away from the engine
to disengage them from the clutch housing.
8. Locate the clutch armature assembly on the end of the
engine shaft. Note the two set screws as well as the
unused, threaded hole in the taper lock bushing at the
center of the clutch hub.
9. Using an 1/8” hex wrench, remove the two set screws
from the taper lock bushing
10. Thread one of the set screws into the unused, threaded hole
on the taper lock bushing. As the screw tightens, the bushing
will loosen. Once the bushing has loosened enough, slide the
clutch armature assembly off the engine shaft.
11.To replace the clutch armature assembly , line up the
three holes in the taper lock bushing with the three holes
in the clutch armature and insert the bushing into the
center of the clutch armature.
12. Line up the key on the taper lock bushing with the keyway
on the engine shaft and slide the assembly onto the shaft
with the holes facing out.
13. Apply blue Loctite to the two set screws and insert the
screws into the taper lock bushing. Tighten the set screws
only two turns at this time.
15. Using the clutch set-up
tool (P/N 755-194),
position the clutch
armature on the engine
shaft. Hold the tool
across the face of the
clutch housing so that
the center, recessed
portion of the tool
straddles the clutch
armature assembly. Pull
the clutch armature
assembly towards the
tool until the face of the armature is against the tool.
15. While holding the clutch armature assembly against the
tool, use an 1/8” hex wrench and alternately tighten the
set screws into the taper lock bushing. Torque to 65–75
in/lbs.
16. Make sure the friction surface of the clutch armature is
clean and free from oil or grease.
Removing the Clutch Rotor, Clutch Field, and
Drive Shaft Assembly
1. Follow steps 1–7 in “Removing/Replacing the Clutch
Armature Assembly.”
2. Locate the clutch rotor assembly, which will be protruding out
from the gear housing. Note the locations of the three socket
screws and the two empty, threaded holes on the clutch rotor.
3. Using a 3/16” hex wrench, remove the three socket
screws and lock washers that secure the clutch rotor to
the drive shaft assembly.
4. Thread two of the socket screws into the empty, threaded
holes and tighten alternately. This will push the clutch
rotor away from the drive shaft assembly and pinion.
Clutch
Housing
Engine
Set
Screw
Set-Up
Tool
Taper
Lock
Bushing
Taper Lock Bushing
Gear
Housing
Clutch Armature
Pump
Housing
Lock Washer
Clutch
Housing
Clutch Housing
Hex Screw
Set Screw
Engine Shaft
Gear Housing
Hex Screw
Electrostatic discharge (ESD) potential could cause
damage to electronic pressure control. Use ESD wrist
strap P/N 700-1037 or equivalent when working on
electronic pressure control.
5. Using a Phillips screwdriver, remove the four screws that
secure the EPC assembly to the EPC housing. Carefully
remove the EPC assembly from the housing.
6. Locate the two clutch field wires that pass from the gear
housing into the EPC housing through a grommet in the
back of the EPC housing. Remember the wire connection
terminals on the EPC assembly (label if necessary) and
disconnect the wires. Gently move the EPC assembly
away from the housing and rest it on the work surface by
the control housing.
7. Locate the four pairs of set screws that secure the clutch
field to the gear housing. They are located on the exterior
of the gear housing at the 12, 3, 6, and 9 o’clock positions
while facing the clutch field end of the gear housing.
Using an 1/8” hex wrench, remove the setscrews.
Remember the location of the two clutch field wires with
respect to the grommet and EPC housing.
8. Carefully slide the clutch field out of the gear housing,
keeping the field square to the gear housing so it does not
bind.
9. Using a Phillips screwdriver, remove the four front cover
screws. Remove the front cover.
10. Using a 11/16” open-end wrench, loosen and remove the
fluid hose from the fitting on the back of the fluid section.
11. Using a 1/4” hex wrench,.remove the four socket screws
that secure the pump housing to the gear housing.
12. Slide the pump housing away from the gear housing.
13. Remove and clean the housing gasket. Replace if
damaged.
14. Locate the drive shaft pinion that is protruding from the
front side of the gear housing. Remove the small snap
ring that is located on the drive shaft hub in front of the
ball bearing that is supporting the drive shaft.
15. From the opposite side of the gear housing (clutch side)
slide the drive shaft assembly out of the gear housing.
16. Inspect the grease seal located inside the bore from which
the drive shaft was removed. Replace if worn or
damaged. To remove the grease seal, use a flat blade
screwdriver to carefully pry the seal from the bore.
17. Clean the inside of the gear housing.
NOTE: To remove the drive shaft assembly, the pump
housing first must be removed from the gear
housing.
Clutch Rotor Socket Screw
Drive Shaft Assembly
Pointed Set
Screw
Set Screw
Clutch Field
Assembly
Lock
Washer
Clutch
Rotor
Clutch Field
Wires
EPC Assembly
EPC Assembly Screw
Installing the Clutch Rotor Assembly, Clutch
Field and Drive Shaft Assembly
1. If the drive shaft grease seal was removed, press a new
seal into the bore from which the old seal was removed.
2. From the clutch side of the gear housing, insert the drive
shaft assembly into the bore, through the grease seal, and
through the ball bearing on the gear side of the gear
housing.
3. From the gear side of the gear housing, insert the snap
ring into the groove on the drive shaft hub in front of the
ball bearing.
4. Place the housing gasket over the gear housing dowel pins.
5. Carefully place the pump housing assembly in front of the
gear housing assembly, lining up the gear housing dowel
pins with their corresponding holes in the pump housing.
Slide the pump housing onto the gear housing until there
is no gap between the housings and gasket.
Do not force the pump housing and gear housing together.
6. Locate the four socket screws and lock washers that secure
the pump housing to the gear housing. The longer screws
(2.25”) are fastened into the top internal holes. The shorter
screws (2”) are fastened into the bottom external bosses.
7. Using a 1/4” hex wrench, snug and tighten the socket
screws in a crossing pattern. Torque to 200–230 in./lbs.
8. Line up the four holes around the outside of the clutch
field with the four set screw holes in the gear housing.
The clutch field wires should be at approximately the 1 or
2 o’clock position.
9. Route the two clutch field wires through the grommet and
into the EPC housing.
10. Carefully slide the clutch field into its bore in the gear
housing until it “bottoms out” within the housing. Do not
pinch the clutch field wires during installation.
11. Thread one of the pointed set screws into its hole. Using
an 1/8” hex wrench, rotate the screw slowly until it
contacts the clutch field. Do not tighten the set screw.
The tip of the set screw should mate with the drill point
hole in the field. Check the clutch field for rotation. If it
rotates within its bore, the set screw is not seated within
the drill point.
12. When the set screw is properly seated, install the remaining
three pointed set screws. Do not tighten the set screws.
13. Using a crossing pattern, tighten each of the pointed
setscrews until they are snug. Once all four pointed set
screws are snug, use a crossing pattern to tighten and
torque the set screws to 60–70 in./lbs.
It is very important to evenly snug, tighten, and torque the
clutch field pointed set screws in a crossing pattern. This
ensures the clutch field will stay centered in the gear
housing.
Grease Seal
Bearing
Snap Ring
Small Snap Ring
Front Cover
Pump Housing Socket Screw
Front Cover Screw
Plug
Housing Gasket
©Titan Tool Inc. All rights reserved. 13
14. Install the remaining four set screws over the four pointed
set screws. Using an 1/8” hex wrench, tighten each of the
set screws in a crossing pattern until they are snug. Once
all four set screws are snug, use a crossing pattern to
tighten and torque the set screws to 60–70 in./lbs.
15. Line up the three screw holes and dowel pin hole on the
clutch rotor with the screw holes and dowel pin on the drive
shaft assembly hub. Place the clutch rotor onto the hub.
16. Using a 3/16” hex wrench, thread the three socket screws
and lock washers through the clutch rotor and into the
drive shaft assembly hub. Evenly snug, tighten, and
torque the socket screws to 75–85 in/lbs.
17. Make sure the friction surface of the clutch rotor is clean
and free from oil or grease.
Electrostatic discharge (ESD) potential could cause
damage to electronic pressure control. Use ESD wrist
strap P/N 700-1037 or equivalent when working on
electronic pressure control.
18. Locate the two clutch field wires in the EPC housing.
Gently pull the wires fully into the EPC housing so that
there is no slack in the gear housing. Connect the wires
to their proper terminals on the EPC board (refer to the
labels created earlier in this procedure or the electrical
schematic in the Parts List section of this manual).
19. Carefully place the EPC assembly over the EPC housing
taking care not to pinch any wires.
20. Install the four screws that secure the EPC assembly to
the EPC housing. Tighten securely.
Mating the Gear Housing and the Clutch
Housing
1. Place the gear housing assembly onto the cart in front of
the clutch housing. Line up the dowel pins in the gear
housing with their corresponding holes in the clutch
housing. Slide the gear housing assembly onto the clutch
housing until there is no gap between the housings.
2. Thread the four hex screws and lock washers through the
clutch housing and into the gear housing.
3. Using a 1/2” wrench, snug and tighten the hex screws in a
crossing pattern. Torque to 140–155 in./lbs.
4. Using a 9/16” socket, thread the two hex screws that secure
the gear housing to the cart through the underside of the
cart and into the gear housing. Torque to 100–120 in./lbs.
5. Connect the wire from the EPC housing to its mating
connector on the engine wire harness.
6. Make sure that there is a white 37)( o-ring on the end of
the transducer that gets inserted into the filter housing.
Insert the transducer into the filter housing port.
7. Hold the transducer tube with a pliers to prevent it from
rotating, and turn the transducer nut clockwise with a 3/4”
open-end wrench to tighten it into the filter housing.
Torque the nut to 360–400 in./lbs.
Checking the Clutch Gap
1. Remove the plastic plug from the top of the clutch
housing. Look through the port to locate the clutch
armature and the clutch rotor.
2. Check the gap between the clutch armature and the clutch
rotor using a .016” feeler gauge and a .035” feeler gauge.
a. Insert each feeler gauge through the port and into the
gap between the clutch armature and the clutch rotor.
The .016” feeler gauge should fit in the gap. The .035”
feeler gauge should not fit in the gap.
b. Pull the engine pull cord several times to rotate the
clutch armature, checking the gap with each feeler
gauge between each pull.
c. If the .016” gauge does not fit or the .035” gauge does fit
at any checkpoint, the gap must be readjusted. This is
done by relocating the clutch hub and armature assembly
on the engine shaft. Refer to the “Removing/Replacing
the Clutch Armature Assembly” procedure.
WARNING
14 ©Titan Tool Inc. All rights reserved.
Servicing the Fluid Section
Use the following procedures to service the valves and repack
the fluid section.
1. Using a Phillips screwdriver, remove the four front cover
screws. Remove the front cover.
2. Start the engine (refer to the procedures in the Operation
section of this manual). Turn the pressure control knob
clockwise to its maximum pressure setting.
3. Toggle the pump ON/OFF switch between the ON and
OFF positions in short bursts until the slider assembly and
piston rod stop at the bottom of their stroke (in their lowest
position).
4. Turn off the engine and perform the Pressure Relief
Procedure.
Before proceeding, follow the Pressure Relief Procedure
outlined previously in this manual. Additionally, follow all
other warnings to reduce the risk of an injection injury,
injury from moving parts or electric shock.
Servicing the Valves
The design of the fluid section
allows access to the inlet valve
and seat as well as the outlet
valve and seat without
completely disassembling the
fluid section. It is possible that
the valves may not seat properly
because of debris stuck in the
inlet valve seat or outlet valve
seat. Use the following
instructions to clean the valves
and reverse or replace the seats.
1. Using a wrench, loosen and
remove the inlet valve
housing from the fluid
section housing.
2. Clean out any debris in the inlet valve housing and
examine the valve housing and seat. If the inlet valve
seat is damaged, reverse the seat to the unused side or
replace the seat.
3. Using a 3/4" wrench, loosen and remove the outlet valve
retainer from the piston rod.
4. Clean out any debris and
examine the outlet valve retainer
and seat. If the outlet valve seat
is damaged, reverse to the
unused side or replace the seat.
5. Remove, clean, and inspect the outlet cage and outlet
valve ball. Replace if they are worn or damaged.
6. Reassemble the valves by reversing the steps above.
NOTE: If the outlet valve seat is reversed or replaced,
the outlet valve ball must be replaced.
NOTE: Always service the
outlet valve with the
piston rod attached to
the pump. This will
prevent the piston rod
from rotating during
disassembly of the
outlet valve.
Piston Rod
Outlet Valve
Seal
Outlet Cage
Outlet Valve
Seat
O-Ring
Outlet Valve
Retainer
Outlet Valve
Ball
NOTE: If the inlet valve seat is reversed or replaced,
the inlet valve ball must be replaced.
NOTE: Keep the sprayer in
the upright position
for this procedure.
Fluid Section
Housing
Inlet Valve Seal
Inlet Valve Seat
PTFE O-Ring
Inlet Valve
Housing
Piston Bushing
Inlet Cage
Inlet Valve Ball
WARNING
Repacking the Fluid Section
1. Remove the inlet valve
and outlet valve
assemblies using the
steps in the “Servicing
the Valves” procedure
above.
2. Using a 11/16” open-end
wrench, loosen and
remove the fluid hose
from the fitting on the
back of the fluid section.
3. Using a 3/8” hex wrench,
remove the two socket
screws that secure the
fluid section to the pump
housing.
4. Remove the fluid section
by pulling it straight down
from the pump housing
until the dowel pins on the
pump housing disengage
form the fluid section
housing. Then, pull the
fluid section forward to
disengage the piston from
the T-slot on the slider
assembly.
5. Slide the piston rod out
through the bottom of the
fluid section housing.
6. Using a wrench, loosen
and remove the retainer
nut and piston guide from
the fluid section housing.
7. Remove the upper and
lower packings from the
fluid section housing.
8. Clean the fluid section housing thoroughly
9. Locate the new upper and lower packing assemblies. .
Remove the piston insertion tool from the upper packing
and the seal sizing tool from the lower packing.
10. Pack the areas between the
packing lips with grease
(included in repacking kit).
Lubricate the o-rings on the
exterior of the packings with
grease.
11. Insert the upper packing
assembly into the top of the
fluid section housing with the raised lip facing down into
the housing.
12. Insert the lower packing
assembly into the bottom of the
fluid section housing with the
large beveled edge facing
toward the housing (beveled
edge will be facing up when
the housing is upright).
13 Inspect the piston rod for wear
and replace if necessary.
Install lower packing so
large beveled edge will
be facing up when the fluid
section housing is upright.
Large Beveled Edge
Install upper packing
with raised lip
facing down.
Raised Lip
NOTE: Be careful not to scratch, score, or otherwise
damage the inside of the fluid section housing
during removal of the packing assemblies.
Slider
Assembly
Retainer
Nut
Piston
Guide
Fluid
Section
Housing
Upper
Packing
Lower
Packing
Socket
Screw
Piston
Rod
Fitting
T-Slot
NOTE: The factory-installed packings are red in color.
The replacement packings in the packing
replacement kit are white.
14 Reassemble the outlet valve assembly into the piston rod
using the new o-ring, outlet valve seal, and outlet valve ball
that came with the repacking kit. Apply blue Loctite to the
threads of the outlet valve retainer. Torque the outlet valve
retainer to 150 in./lbs.
Never use a wrench on the piston rod itself. This could
cause damage to the piston and cause leakage.
15. Insert the new piston guide into the retainer nut. Thread
the retainer nut into the fluid section housing until it is
hand tight.
16. Slide the piston guide tool (included in the repacking kit)
over the top of the piston rod.
17. Insert the piston rod into the bottom of the fluid section
housing, through the lower packing, through the upper
packing, and out through the retainer nut. Using a rubber
mallet, tap the bottom of the piston rod lightly until the
piston rod is in position in the fluid section housing.
18. Using a wrench, tighten the retainer nut. Torque to 550-
600 in./lbs.
19. Slide the top of the piston rod into the T-slot on the slider
assembly.
20. Position the fluid section underneath the pump housing by
lining up the pump housing dowel pins with their
respective holes in the top of the fluid section housing.
Push the fluid section up towards the pump housing,
engaging the dowel pins, until the fluid section housing
rests against the pump housing.
21. Insert the two socket screws that secure the fluid section
to the pump housing and alternately snug, tighten, and
torque the screws to 400-440 in./lbs.
22. Reassemble the inlet valve using the new inlet valve seal,
o-ring, and inlet valve ball. Thread the inlet valve
assembly into the fluid section housing and torque to 350-
400 in./lbs.
23. Position the front cover over the pump housing. Secure
the front cover using the four front cover screws.
24. Using a 11/16” open-end wrench, attach the fluid hose to
the fitting on the back of the fluid section. Tighten
securely.
25. Turn on the sprayer by following the procedure in the
“Operation” section of this manual and check for leaks.
NOTE: Repacking kit P/N 755-165 is available. For
best results use all parts supplied in this kit.
NOTE: Make sure the raised lip on the bottom of the
lower packing assembly is fully outside the
packing around the piston rod after insertion
of the piston rod.
NOTE: Coat the piston guide tool and the piston rod
with grease before inserting them into the fluid
section housing.
CAUTION
NOTE: Use the T-slot on the slider assembly to hold
the piston rod in position while securing the
outlet valve retainer.
©Titan Tool Inc. All rights reserved. 15
Troubleshooting
16 ©Titan Tool Inc. All rights reserved.
Solution
1. Turn the pressure control knob clockwise to
supply power to the unit and increase the
pressure setting.
2. Inspect or take to a Titan authorized service
center.
3. Fill the gas tank.
1. Rotate the PRIME/SPRAY valve clockwise
to the PRIME position.
2. Check the siphon tube/suction set
connection and tighten or re-tape the
connection with PTFE tape.
3. Remove the pump filter element and clean.
Remove the inlet screen and clean.
4. Remove the siphon tube/suction set and
clean.
1. Replace the spray tip following the
instructions that came with the spray gun.
2. Replace the spray tip with a tip that has a
smaller orifice following the instructions that
came with the spray gun.
3. Turn the pressure control knob clockwise to
increase the pressure setting.
4. Remove the pump filter element and clean.
Remove the gun filter and clean. Remove
the inlet screen and clean.
5. Clean or replace the PRIME/SPRAY valve.
6. Check the siphon tube/suction set
connection and tighten or re-tape the
connection with PTFE tape.
7. Check for external leaks at all connections.
Tighten connections, if necessary.
8. Clean the valves and service the fluid
section following the “Servicing the Fluid
Section” procedure in the Maintenance
section of this manual.
9. Reverse or replace the valve seats
following the “Servicing the Fluid Section”
procedure in the Maintenance section of
this manual.
1. Repack the pump following the “Servicing
the Fluid Section” procedure in the
Maintenance section of this manual.
2. Replace the piston rod following the
“Servicing the Fluid Section” procedure in
the Maintenance section of this manual.
Cause
1. The pressure is set too low.
2. Faulty or loose wiring.
3. The gas tank is empty.
1. The PRIME/SPRAY valve is in the
SPRAY position.
2. Air leak in the siphon tube/suction set.
3. The pump filter and/or inlet screen is
clogged.
4. The siphon tube/suction set is clogged.
1. The spray tip is worn.
2. The spray tip is too large.
3. The pressure control knob is not set
properly.
4. The pump filter, gun filter, or inlet
screen is clogged.
5. Material flows from the return hose
when the PRIME/SPRAY valve is in the
SPRAY position.
6. Air leak in the siphon tube/suction set.
7. There is external fluid leak.
8. There is an internal fluid section leak
(packings are worn and/or dirty, valve
balls are worn).
9. Worn valve seats
1. The upper packings are worn.
2. The piston rod is worn.
Troubleshooting
Problem
The unit will not run.
The unit will not prime.
The unit will not build or
maintain pressure.
Fluid leakage at the upper end
of the fluid section.
©Titan Tool Inc. All rights reserved. 17
Troubleshooting
Problem
Excessive surge at the spray
gun.
Poor spray pattern.
The unit lacks power.
Cause
1. Wrong type of airless spray hose.
2. The spray tip worn or too large.
3. Excessive pressure.
1. The spray tip is too large for the
material being used.
2. Incorrect pressure setting.
3. Insufficient fluid delivery.
4. The material being sprayed is too
viscous.
1. The pressure adjustment is too low.
Solution
1. Replace hose with a minimum of 50’ of 1/4”
grounded textile braid airless paint spray
hose.
2. Replace the spray tip following the
instructions that came with the spray gun.
3. Rotate the pressure control knob
counterclockwise to decrease spray
pressure.
1. Replace the spray tip with a new or smaller
spray tip following the instructions that
came with the spray gun.
2. Rotate the pressure control knob to adjust
the pressure for a proper spray pattern.
3. Clean all screens and filters.
4. Add solvent to the material according to the
manufacturer's recommendations.
1. Rotate the pressure control knob clockwise
to increase the pressure setting.
18 ©Titan Tool Inc. Tous droits réservés.
Consignes de sécurité
Le présent manuel comprend des renseignements devant être
lus attentivement avant toute utilisation de l'appareil. Lorsque
l'un des symboles suivants apparaît, il est recommandé d'être
particulièrement attentif et de tenir compte des mesures de
sécurité indiquées.
Ce symbole indique un danger potentiel pouvant causer des
blessures graves ou même mortelles. Des renseignements
importants sur la sécurité sont également indiqués.
Ce symbole indique un danger potentiel pouvant causer des
blessures corporelles ou des dommages à l'équipement. Des
renseignements importants sur la façon de prévenir tout
dommage à l'équipement ou toute blessure corporelle mineure
sont également indiqués.
DANGER: BLESSURES PAR PERFORATION - Le jet de
peinture à haute pression produit par cet
appareil peut perforer la peau et les tissus
sous-jacents et entraîner de sévères blessures
pouvant nécessiter une amputation. Consultez
immédiatement un médecin.
NE PAS TRAITER UNE BLESSURE PAR PERFORATION
COMME UNE SIMPLE COUPURE! Une perforation peut
entraîner des risques d'amputation. Consultez
immédiatement un médecin.
Pression de service maximale du fluide dans l’appareil :
3300 lb/po2 / 23 MPa.
MESURES PRÉVENTIVES:
NE JAMAIS diriger le pistolet vers une quelconque partie
du corps.
•NE JAMAIS mettre une quelconque partie du corps en
contact avec le jet de liquide. NE JAMAIS se mettre au
contact d'un jet de liquide provenant d'une fuite du flexible
d'alimentation en liquide.
NE JAMAIS placer votre main devant le pistolet. Des
gants ne vous protégeront pas contre les risques de
blessures par perforation.
•TOUJOURS verrouiller la gâchette du pistolet, fermer la
pompe à liquide et décompresser l'appareil lorsque vous
travaillez sur celui-ci, nettoyez le protecteur de tête,
remplacez la tête de pulvérisation ou vous éloignez de
l'appareil. Couper le moteur ne décompresse pas l'appareil.
Vous devez, pour le décompresser, placer le bouton
AMORÇAGE/PULVÉRISATION en position AMORÇAGE.
Reportez-vous, pour cela, à la PROCÉDURE DE
DÉCOMPRESSION décrite dans de ce manuel.
•TOUJOURS s'assurer que le protecteur de tête est en
place lorsque vous pulvérisez. Le protecteur de tête offre
une certaine protection contre les blessures par perforation
mais sa principale fonction est d'ordre préventif.
•TOUJOURS ôter la tête de pulvérisation avant de purger
ou nettoyer l'appareil.
Le flexible d'alimentation en peinture peut fuir à la suite
d'une usure, de chocs ou de mauvais traitements. Une
fuite peut entraîner une perforation de la peau. Inspecter
le flexible avant chaque utilisation.
NE JAMAIS utiliser un pistolet dont la gâchette n'est pas
munie d'un loquet ou un cran de sécurité qui soit en état
de fonctionner.
•Tous les accessoires doivent être homologués pour une
pression égale ou supérieure à 3 200 lb/po2 / 23 MPa.
Cela s'applique, entre autres, aux têtes de pulvérisation,
aux accessoires du pistolet et aux flexibles.
AVERTISSEMENT
NOTA : Les remarques donnent des renseignements
importants requérant une attention particulière.
ATTENTION
AVERTISSEMENT
DANGER: RISQUES D'EXPLOSION OU D'INCENDIE - Les
vapeurs dégagées par le solvant ou la peinture
sont explosives et inflammables et peuvent
causer des corporels sérieux ou dommages
matériels.
MESURES PRÉVENTIVES:
•Veiller à éviter toute accumulation de vapeurs
inflammables en vous assurant que la zone où la
pulvérisation a lieu est suffisamment ventilée.
•Veiller à éviter la présence de toute source incandescente
telle qu'étincelle électrostatique, flamme nue, flamme-
pilote, objet brûlant, cigarette et étincelle provenant du
branchement ou du débranchement d'un cordon
d'alimentation électrique ou d'un commutateur.
Ne pas fumer dans la zone d’épandage.
•Toujours avoir un extincteur en état de fonctionner à
portée de la main.
Placer la pompe à peinture à une distance d’au moins un
mètre (3 pi) (on recommande d’ailleurs une plus grande
distance) de l’objet qui doit être vaporisé dans une pièce
séparée bien aérée, ou à une distance d’au moins six
mètres (20 pi) de celui-ci dans une zone bien aérée
(utiliser d’autres tuyaux si nécessaires). Les vapeurs
inflammables sont souvent plus lourdes que l’air. Le
plancher doit être extrêmement bien aéré. La pompe à
peinture contient des pièces pouvant créer des étincelles
et enflammer les vapeurs présentes dans l’air.
Le matériel utilisé, ainsi que les objets se trouvant à
proximité de la zone de pulvérisation, doivent être
convenablement reliés à la terre afin d'éviter toute
étincelle ou toute décharge électrostatique.
N'utiliser que des flexibles d'alimentation en liquide à
haute pression conducteurs ou reliés à la terre dans les
cas d'utilisation sans air comprimé. S'assurer que le
pistolet est convenablement relié à la terre par
l'intermédiaire du flexible.
Le cordon d’alimentation doit être raccordé à un circuit
mis à la terre.
•Toujours purger l’appareil dans un contenant métallique
séparé, en s’assurant que la pompe soit à basse pression
et que le chapeau soit retiré. Tenir le pistolet fermement
contre la paroi du contenant pour mettre celui-ci à la terre
et empêcher l’émission d’étincelles causées par
l’électricité statique.
Se conformer aux consignes et recommandations de
sécurité du fabricant du solvant ou du produit.
S’entourer de toutes les précautions possibles lorsqu’on
utilise des produits ayant un point d’éclair inférieur à 21
°C (70 °F). Le point d’éclair d’un fluide est la température
à laquelle les vapeurs émanant du fluide peuvent
s’enflammer au contact d’une flamme ou d’une étincelle.
Le plastique peut être une source d’étincelles provoquées
par l’électricité statique. Ne jamais utiliser une couverture
en plastique pour fermer une zone d’épandage ni utiliser
des toiles de protection en plastique lors de la
pulvérisation de matières inflammables.
Lorsque vous purgez l'appareil, veillez à utiliser à la
pression minimale.
AVERTISSEMENT AUX MÉDECINS : Une perforation
sous-cutanée constitue un traumatisme. Il est
important de traiter la blessure de façon chirurgicale
aussitôt que possible. NE RETARDEZ PAS ce traitement
pour des recherches de toxicité. La toxicité n'est un
risque que dans les cas où certains produits de
revêtement pénètrent dans le flux sanguin. Il peut être
nécessaire de faire appel à des soins de chirurgie
plastique ou de reconstruction de la main.
Français
©Titan Tool Inc. Tous droits réservés. 19
MOTEUR À ESSENCE
(DANS LES CAS OÙ CELA S’APPLIQUE)
Toujours placer la pompe à l’extérieur de la structure à l’air
frais. Garder tous les solvants loin de l’échappement du
moteur. Ne jamais remplir le réservoir à carburant lorsque le
moteur est en marche ou lorsqu’il est chaud ; les surfaces
chaudes risquent d’enflammer le carburant déversé
accidentellement. Toujours raccorder un fil de mise à la terre
entre la pompe et un objet mis à la terre, tel qu’une conduite
d’eau métallique. Se reporter au guide d’utilisation du moteur
pour obtenir de plus amples renseignements concernant la
sécurité.
DANGER: RISQUES D'EXPLOSION PAR INCOMPATIBILITÉ
DES MATÉRIAUX - Peuvent être à l'origine de
corporels sérieux ou dommages matériels.
MESURES PRÉVENTIVES:
Ne pas utiliser de matériaux contenant des agents de
blanchiment ou du chlore.
Ne pas utiliser des solvants à base d’hydrocarbure
halogéné tels que l’agent anticryptogamique, le chlorure
de méthylène et le trichloro-éthane-1,1,1. Ces produits ne
sont pas compatibles avec l’aluminium
Communiquer avec votre fournisseur de revêtement pour
connaître la compatibilité du matériau avec l’aluminium.
DANGER: VAPEURS NOCIVES – la peinture, les solvants,
les insecticides et autres matériaux peuvent
être nocifs lorsqu’ils sont inhalés ou en contact
avec le corps. Les vapeurs peuvent causer une
nausée importante, des évanouissements ou
un empoisonnement.
MESURES PRÉVENTIVES:
Utiliser un respirateur ou un masque chaque fois qu'il y a
des risques d'inhalation de vapeurs. Lire attentivement
toutes les instructions se rapportant au masque pour
vérifier que celui-ci vous assure une protection suffisante
contre les vapeurs toxiques.
Porter des lunettes de protection.
Porter des vêtements de protection, conformément aux
directives du fabricant de revêtement.
DANGER: GÉNÉRALITÉS - Peut causer des dommages
matériels ou corporels sérieux.
MESURES PRÉVENTIVES:
•Avant d'utiliser tout équipement, lire attentivement toutes
les instructions et les consignes de sécurité
•Toujours débrancher le moteur de l’alimentation électrique
avant d’effectuer des travaux sur l’appareil.
Se conformer à la législation locale, provinciale ou fédérale
pour tout ce qui concerne la ventilation, la prévention des
incendies et les conditions générales d'utilisation.
Les normes de sécurité du Gouvernement américain sont
régies par le Occupational Safety and Health Act (OSHA).
Il est important de consulter ces normes, en particulier la
section 1910 sur le normes générales et la section 1926
sur les des normes de la construction.
N’utiliser que les pièces autorisées par le fabricant.
L’utilisateur assume tous les risques et responsabilités
lorsqu’il utilise des pièces qui ne sont pas conformes aux
caractéristiques techniques minimales ainsi qu’aux
dispositifs de sécurité du fabricant de la pompe.
Vérifier, avant toute utilisation, que les flexibles ne
présentent pas d'entaille ou de fuite, que le couvercle ne
soit pas gonflé et que les raccords ne soient pas
endommagés. Si le flexible a subi l'un des dommages
précités, remplacez-le immédiatement. Ne jamais réparer
un flexible d'alimentation en peinture. Le remplacer par un
autre flexible mis à la terre.
•Tout flexible, raccord orientable, pistolet et accessoire
utilisé avec cet appareil doit pouvoir fonctionner à une
pression égale ou supérieure à 3 200 lb/po2 / 23 MPa.
Ne jamais pulvériser lorsqu'il vente.
Porter des vêtements pour protéger la peau et les
cheveux contre tout contact avec la peinture.
Sécurité des moteurs à essence
Les produits chimiques contenus dans les vapeurs
d'échappement de cet appareil sont reconnus par l'État de
la Californie (États-Unis) comme étant cancérigènes. Ils
peuvent également entraîner des anomalies congénitales
ou d’autres dangers pour la santé.
1. Les moteurs Honda sont conçus pour fonctionner en toute
sécurité et avec une fiabilité maximale s'ils sont utilisés
conformément aux instructions. Veuillez lire et
comprendre le manuel de l’utilisateur de Honda avant de
faire fonctionner le moteur. Le non-respect de ces
consignes peut entraîner des dommages matériels ou des
blessures physiques graves.
2. Pour éviter tout risque d'incendie et fournir une ventilation
adéquate, placez le moteur à une distance minimale de 1
mètre (3 pieds) des immeubles et d'autres équipements
pendant son fonctionnement. Ne placez pas d'objets
inflammables à côté du moteur.
3. Tenez les enfants et les animaux domestiques à l'écart de
la zone de travail; vous éviterez ainsi tout risque de
brûlures sur les pièces chaudes du moteur et de
blessures entraînées par les accessoires utilisés par le
moteur pour son fonctionnement.
4. Sachez comment arrêter rapidement le moteur, et
assurez-vous que vous avez bien compris le
fonctionnement de toutes les commandes. Ne permettez
jamais à une personne de faire fonctionner le moteur sans
connaître les instructions nécessaires.
5. L'essence est extrêmement inflammable et explosive dans
certaines conditions.
6. Remplissez le réservoir de carburant dans une zone bien
ventilée, moteur arrêté. Ne fumez pas et évitez toutes
flammes ou étincelles dans la zone de remplissage de
carburant ou dans une zone de stockage du carburant.
7. Veillez à ne pas faire déborder le réservoir de carburant.
Après remplissage, assurez-vous que le bouchon du
réservoir est solidement vissé.
8. Faites attention à ne pas renverser de carburant lors du
remplissage du réservoir. Les vapeurs ou les
éclaboussures de carburant peuvent s'enflammer. En cas
d'éclaboussures, assurez-vous que la zone est bien sèche
avant de faire démarrer le moteur.
9. Ne faites jamais fonctionner le moteur dans un endroit
fermé ou confiné. Les fumées d'échappement
contiennent du monoxyde de carbone qui est un gaz
toxique; une exposition prolongée peut entraîner une
perte de conscience et peut s'avérer mortelle.
10. Le silencieux devient très chaud pendant le
fonctionnement et reste chaud quelque temps après l’arrêt
du moteur. Faites attention à ne pas toucher le silencieux
tant qu'il est chaud. Pour éviter des brûlures graves ou
des risques d'incendie, laissez le moteur refroidir avant de
le transporter ou de le ranger à l'intérieur.
11. Ne transportez jamais le moteur si le réservoir est plein.
AVERTISSEMENT
Français
20 ©Titan Tool Inc. Todos los derechos reservados.
Precauciones de seguridad
Este manual contiene información que debe leer y comprender
antes de usar el equipo. Cuando se encuentre con uno de los
siguientes símbolos, asegúrese de observar sus indicaciones
de seguridad.
Este símbolo indica la existencia de un peligro potencial que
puede causar lesiones graves o la muerte. Después del
mismo se incluye información de seguridad importante.
Este símbolo indica la existencia de un peligro potencial para
usted o el equipo. Después del mismo se incluye información
importante que indica la forma de evitar daños al equipo o la
forma de prevenir lesiones menores.
PELIGRO: LESIÓN POR INYECCIÓN - La corriente de
pintura de alta presión que produce este
equipo puede perforar la piel y tejidos
subyacentes, lo que conduciría a lesiones
serias y una posible amputación. Consulte de
inmediato a un médico.
NO TRATE LAS LESIONES POR INYECCIÓN COMO SI
FUERAN SIMPLES CORTADAS! Una inyección puede
conducir a una amputación. Consulte de inmediato a un
médico.
El rango de operación máximo de la unidad es 3300 PSI /
23 MPa de presión de fluidos.
PARA PREVENIR:
NO dirija NUNCA la punta de la pistola hacia alguna parte
del cuerpo.
NO permita NUNCA que alguna parte del cuerpo tenga
contacto con la corriente del fluido. EVITE tener contacto
con corrientes de fluido que salgan de fugas que haya en
la manguera.
NO ponga NUNCA la mano enfrente de la manguera. Los
guantes no ofrecen ninguna protección contra lesiones
por inyección.
Bloquee SIEMPRE el gatillo de la pistola, apague la
bomba de fluido y libere toda la presión antes de dar
mantenimiento, limpiar el protector de la boquilla, cambiar
la boquilla o dejar desatendido el equipo. La presión no
se liberará al apagar el motor. Para liberar la presión
debe girarse la perilla PRIME/SPRAY (cebar/atomizar)
hasta la posición PRIME. Consulte el PROCEDIMIENTO
PARA LIBERAR LA PRESIÓN que se describe en este
manual.
Mantenga puesto SIEMPRE el protector de la boquilla
mientras atomice. El protector de la boquilla ofrece cierta
protección contra lesiones por inyección pero es
principalmente un dispositivo de advertencia.
Quite SIEMPRE la boquilla del atomizador antes de
enjuagar o limpiar el sistema.
Pueden desarrollarse fugas en la manguera de pintura
por causa del desgaste, retorcimientos o el abuso. Una
fuga es capaz de inyectar el material en la piel. Cada vez
que use la manguera de pintura, inspecciónela antes.
NO use nunca una pistola de atomización que no tenga
un bloqueador o un protector de gatillo puesto y que
funcione.
•Todos los accesorios deben tener una capacidad de 3300
lb/pulg2 / 23 MPa o mayor. Esto incluye las boquillas de
atomizador, pistolas, extensiones y mangueras.
ADVERTENCIA
NOTA: los avisos contienen información importante,
présteles especial atención.
PRECAUCION
ADVERTENCIA
PELIGRO: EXPLOSIÓN O INCENDIO - Los vapores de
solventes y pintura pueden explotar o
incendiarse, causando con esto lesiones
severas y/o daños en la propiedad.
PARA PREVENIR:
Debe proveerse un escape y aire fresco para hacer que el
aire que está dentro del área de atomización se mantenga
libre de acumulaciones de vapores inflamables.
Evite todas las fuentes de ignición como son las chispas
electrostáticas, llamas abiertas, flamas de piloto, objetos
calientes, cigarros, y chispas que se generan al conectar
y desconectar las extensiones o de apagadores de luz
que estén funcionando.
No fume en la zona de trabajo.
Debe haber un equipo para extinguir incendios
permanentemente y en buenas condiciones.
Coloque la bomba para pintar a un mínimo de 1 m (de
preferencia más) en una habitación aparte, bien ventilada,
alejada del objeto que va a pintar o a por lo menos 6 m
de dicho objeto, en una zona bien ventilada (utilice una
manguera más larga, si es necesario). Los gases
inflamables a menudo son más pesados que el aire. La
zona del piso debe tener la debida ventilación. La bomba
para pintar contiene piezas que forman arcos que emiten
chispas y pueden encender los gases.
El equipo que se utilice, así como los objetos que estén
dentro y alrededor del área de atomización, deben
conectarse a tierra de manera apropiada para prevenir las
descargas eléctricas y las chispas.
Use solamente mangueras para fluidos de alta presión,
conductoras o conectadas a tierra, para aplicaciones sin
aire. Asegúrese de que la pistola esté conectada a tierra
de manera apropiada, mediante conexiones de
manguera.
El cable de alimentación debe enchufarse a un circuito
aterrado.
Siempre enjuague la unidad en un recipiente de metal por
separado, con presión baja en la bomba y sin la boquilla.
Sostenga la pistola firmemente contra el recipiente para
ponerlo a tierra y evitar chispas estáticas.
Siga las advertencias y avisos de seguridad del fabricante
de los materiales y solventes.
•Tenga muchísimo cuidado al usar materiales cuyo punto
de ignición sea inferior a 70° F (21° C). El punto de
ignición es la temperatura a la cual pueden encenderse
los vapores emanados por un fluido al exponerlos a
llamas o chispas.
El plástico puede causar chispas estáticas. Nunca
cuelgue plástico en las ventanas ni en las puertas del
área donde va a pintar. No utilice plástico para proteger
el piso cuando pinte materiales inflamables.
Cuando enjuague el equipo utilice la presión más baja
posible.
MOTOR DE GAS (SEGÚN CORRESPONDA)
Coloque siempre la bomba fuera del edificio, al aire libre.
Mantenga todo solvente alejado del escape del motor. Nunca
llene el tanque de combustible si el motor está encendido o
caliente. La superficie caliente puede encender el combustible
derramado. Conecte siempre un conductor de tierra desde la
unidad de la bomba a un objeto puesto a tierra, por ejemplo
una tubería de agua metálica. Consulte el manual del motor
para obtener información completa de seguridad.
NOTA PARA EL MÉDICO: La inyección dentro de la piel
es una lesión traumática. Es importante que la lesión
se trate quirúrgicamente tan pronto como sea posible .
NO retrase el tratamiento por investigar la toxicidad.
La toxicidad es motivo de preocupación con algunos
revestimientos que se inyectan directamente en la
corriente sanguínea. Es recomendable consultar a un
cirujano plástico o reconstructor de manos.
Español
©Titan Tool Inc. Todos los derechos reservados. 21
PELIGRO: PELIGRO DE EXPLOSIÓN DEBIDO A
MATERIALES INCOMPATIBLES - Podría
causar lesiones severas o daños en la
propiedad.
PARA PREVENIR:
No utilice materiales que contengan blanqueador o cloro.
No use solventes con hidrocarburos halogenados, tales
como productos para eliminar el moho, cloruro de
metileno y 1,1,1 - tricloroetano. Estos no son compatibles
con el aluminio.
Comuníquese con el proveedor del producto para obtener
información de compatibilidad con materiales de aluminio.
PELIGRO: GASES PELIGROSOS - Las pinturas, solventes,
insecticidas y otros materiales pueden ser
perjudiciales si se inhalan o entran en contacto
con el cuerpo. Los gases pueden causar
náusea, desmayos o envenenamiento graves.
PARA PREVENIR:
Use una mascarilla respiratoria o careta siempre que
exista la posibilidad de que se puedan inhalar vapores.
Lea todas las intrucciones que vengan con la careta para
estar seguro de que se tendrá la protección necesaria
contra la inhalación de vapores dañinos.
Use gafas protectoras.
Use ropa de protección, según lo requiera el fabricante
del producto.
PELIGRO: GENERAL - Puede causar daños en la
propiedad o lesiones severas.
PARA PREVENIR:
Lea todas las instrucciones y advertencias de seguridad
antes de hacer funcionar cualquier equipo.
Desconecte siempre el motor del suministro eléctrico
antes de dar servicio al equipo.
Observe todos los códigos locales, estatales y nacionales
apropiados que rigen las medidas de ventilación,
prevención de incendios y operación.
Los Estándares de Seguridad del Gobierno de los
Estados Unidos se han adoptado bajo el Acta de
Seguridad y Salud Ocupacionales (OSHA por sus siglas
en inglés). Deben consultarse estos estándares,
particularmente la parte 1910 de los Estándares
Generales y la parte 1926 de los Estándares de la
Construcción.
Utilice únicamente piezas autorizadas por el fabricante.
El usuario asume todos los riesgos y responsabilidades si
usa piezas que no cumplen con las especificaciones
mínimas y dispositivos de seguridad del fabricante de la
bomba.
Antes de usarla cada vez, revise todas las mangueras para
ver que no tengan cortadas, fugas, una cubierta desgastada
por abrasión o con abolladuras, así como uniones dañadas
o que se hayan movido. Si existiera cualquiera de estas
condiciones, reemplace la manguera inmediatamente. No
repare nunca una manguera de pintura. Reemplácela con
otra manguera conectada a tierra.
•Todas las mangueras, soportes giratorios, pistolas y
accesorios que se usen con esta unidad deben tener una
capacidad de presión de 3300 lb/pulg2 / 23 MPa o mayor.
No atomice en días con viento.
Use ropa que evite el contacto de la pintura con la piel y
el cabello.
Seguridad del motor de gasolina
El escape del motor de esta unidad contiene productos
químicos que el Estado de California reconoce que
causan cáncer, defectos congénitos u otros daños a la
reproducción.
1. Los motores Honda han sido diseñados para ofrecer un
servicio seguro y fiable, si son manejados de acuerdo con
las instrucciones. Lea y comprenda el Manual del
Propietario de Honda antes de hacer funcionar el motor.
Si no hace esto, podrían producirse lesiones personales o
daños en el equipo.
2. Para evitar riesgos de incendio y proporcionar una
ventilación adecuada, mantenga el motor como mínimo a
1 metro (tres pies) de edificios y de otros equipos durante
su funcionamiento. No coloque objetos inflamables cerca
del motor.
3. Los niños y los animales de compañía deben mantenerse
alejados del área de trabajo, debido a la posibilidad de
quemaduras producidas por los componentes calientes
del motor o de daños producidos por el equipo al que
haga funcionar el motor.
4. Conozca el modo de detener rápidamente el motor, y
entienda el funcionamiento de todos los controles. No
permita que nadie haga funcionar el motor sin las
instrucciones adecuadas.
5. La gasolina es extremadamente inflamable y es explosiva
en determinadas circunstancias.
6. Reabastézcase de combustible en una zona bien
ventilada y con el motor apagado. No fume ni permita
que haya llamas ni chispas en el área de
reabastecimiento de combustible ni donde se almacene la
gasolina.
7. No llene excesivamente el tanque de combustible. Tras
repostar, asegúrese de que la tapa del tanque está
adecuadamente cerrada y asegurada.
8. Tenga cuidado de no derramar combustible cuando
realice el reabastecimiento. Los vapores del combustible
o el combustible derramado pueden inflamarse. Si se
derrama combustible, asegúrese de que el área esté seca
antes de arrancar el motor.
9. Nunca haga funcionar el motor en un área cerrada o
reducida. Los gases de escape contienen monóxido de
carbono tóxico: su exposición puede causar la pérdida del
conocimiento y puede originar la muerte.
10. El silenciador se calienta mucho durante el
funcionamiento y permanece caliente durante un tiempo
después de que el motor esté parado. Tenga cuidado de
no tocar el silenciador mientras está caliente. Para evitar
quemaduras graves o riesgos de incendio, deje que el
motor se enfríe antes de transportarlo o almacenarlo en el
interior.
11. Nunca transporte una unidad con gasolina en el tanque.
ADVERTENCIA
Español
22 © Titan Tool Inc. All rights reserved.
Parts List
Main Assembly
8
9
10
11
14
12
13
7
3
4
5
6
1
2
15
16
17
18
19
20
21
22
Item Part # Description Quantity
1 700-652 Hex screw...................................................4
2 ---------- Engine, 4.0 HP ...........................................1
3 ---------- Drive assembly ...........................................1
4 755-172 Control cover ..............................................1
5 704-282 Screw..........................................................1
6 704-281 Port plug .....................................................1
7 755-171 Front cover..................................................1
8 770-685 Screw..........................................................4
9 704-358 Plug, nylon..................................................2
10 755-173 Fluid section assembly ...............................1
11 700-678 Socket screw ..............................................2
Item
Part # Description Quantity
12 755-174 Siphon tube.................................................1
13 730-334 Hose clip.....................................................1
14 710-046 Inlet screen .................................................1
15 ---------- Filter assembly............................................1
16 812-003 Fitting, 3/8”..................................................1
17 ---------- Cart assembly.............................................1
18 763-549 Lock nut ......................................................4
19 860-002 Lock washer................................................2
20 860-535 Hex screw...................................................2
21 862-436 Screw..........................................................2
22 730-165 Grounding cable .........................................1
©Titan Tool Inc. All rights reserved. 23
Item Part # Description Quantity
1 704-380 ON/OFF switch ...........................................1
2 755-170 Electronic pressure control assembly.........1
3 700-139 Screw..........................................................4
4 700-158 Potentiometer .............................................1
5 704-229 Ground screw .............................................1
6 755-175 Lock washer................................................1
7 730-144 Retaining ring..............................................1
8 730-088 Thrust washer.............................................1
9 755-176 Gasket ........................................................1
10 755-177 Pump housing assembly
(includes item 15) .......................................1
11 755-178 Lock washer................................................4
12 755-179 Socket screw, 2.25” ....................................2
13 755-180 Socket screw, 2” .........................................2
14 755-169 Slider assembly ..........................................1
15 700-689 Bronze bearing ...........................................1
16 755-203 Clutch rotor .................................................1
17 755-201 Drive shaft assembly ..................................1
18 755-216 Clutch field assembly..................................1
19 700-175 Cap .............................................................1
20 700-159 Pressure control knob.................................1
21 764-018 Plug.............................................................1
22 700-176 Seal nut.......................................................1
23 700-148 Mounting plate ............................................1
24 800-036 Grommet, 7/16”...........................................1
25 755-181 Grommet, liquid tight ..................................1
Item
Part # Description Quantity
26 750-015 Bearing .......................................................1
27 755-182 Gear housing
(includes items 26, 30, and 31 ...................1
28 763-525 Set screw, cone point .................................4
29 755-224 Set screw, cup point ...................................4
30 730-172 Grease seal ................................................1
31 750-016 Retaining ring..............................................1
32 700-688 Thrust washer, 1/2”.....................................1
33 730-167 Output gear assembly ................................1
34 700-514 Thrust washer, 5/8”.....................................1
35 730-360 Crankshaft assembly ..................................1
36 700-680 Thrust washer.............................................1
37 755-183 Screw..........................................................4
38 755-184 Clutch housing............................................1
39 755-209 Clutch armature assembly
(includes items 40, and 41(2))....................1
40 763-550 Taper lock bushing (includes item 41(2))....1
41 763-566 Set screw....................................................2
42 755-218 Socket screw ..............................................3
43 755-215 Lock washer................................................3
44 750-200 Engine, 4.0 HP ...........................................1
45 860-535 Hex screw...................................................4
46 860-002 Lock washer................................................4
NOTE: All electrical work should be performed by a
Titan authorized service center.
Drive Assembly
44
3
1
4
9
10
11
13
12
14
15
8
7
5
6
2
39
40
41
42
43
45
46
19
20
22
23
24
34
35
36
32
26
31
33
29
30
28
27
38
37
25
18
21
17
16
24 © Titan Tool Inc. All rights reserved.
Fluid Section Assembly (P/N 755-173)
1
2
3
7
8
12
13
14
15
16
9
19
17
18
20
21
22
10
4
5
6
11
23
Install lower packing with
large beveled edge
facing up.
Install upper packing
with raised lip
facing down.
Raised Lip
Large Beveled Edge
Item Part # Description Quantity
1 730-508 Retainer nut ................................................1
2 700-587 Piston guide................................................1
3 755-166 Upper packing assembly ............................1
4 755-185 Elbow, 90º...................................................1
5 490-109 Fitting ..........................................................1
6 700-804 Gasket ........................................................1
7 730-505 Fluid Section Housing.................................1
8 755-167 Lower packing assembly ............................1
9 704-089 Piston..........................................................1
10 762-111 Outlet valve seal .........................................1
11 762-135 Outlet cage .................................................1
12 762-144 Outlet valve ball..........................................1
13 762-134 Outlet valve seat.........................................1
14 762-057 O-ring..........................................................1
15 762-073 Outlet valve retainer ...................................1
16 755-186 Piston bushing ............................................1
17 730-510 Inlet cage ....................................................1
18 762-145 Inlet valve ball.............................................1
19 700-821 Inlet valve seal............................................1
20 762-137 Inlet valve seat............................................1
21 762-058 O-ring, PTFE ..............................................1
22 755-187 Inlet valve housing......................................1
23 704-090 Piston assembly
(includes items 9–15) .................................1
755-165 Repacking kit (includes items 2, 3, 6, 8, 10,
12, 14, 18, 19, 21)
755-193 Lower packing insertion tool
NOTE: When repacking the fluid section, make sure
the raised lip on the bottom of the lower
packing is fully outside the packing around
the piston rod after insertion of the piston rod.
©Titan Tool Inc. All rights reserved. 25
Cart Assembly
Item Part # Description Quantity
1 755-188 Handle (includes items 2–5, 10, and 11)....1
2 590-507 Snap button ................................................2
3 590-506 Handle washer............................................2
4 590-508 Roll pin........................................................2
5 590-504 Handle sleeve.............................................2
6 800-036 Grommet.....................................................3
7 800-019 Axle cap......................................................2
8 870-004 Wheel spacer..............................................2
9 335-018 Plug.............................................................2
10 856-002 Lock washer................................................4
11 856-921 Screw..........................................................4
12 755-189 Cart (includes item 9) .................................1
13 670-109 Wheel .........................................................2
10
11
12
13
7
2
3
4
5
6
8
9
1
Filter Assembly
Item Part # Description Quantity
1 755-190 Filter body...................................................1
2 730-067 Filter, 60 mesh ............................................1
3 702-251 Filter spring adapter....................................1
4 757-105 Core spring .................................................1
5 755-191 O-ring, PTFE ..............................................1
6 800-437 Transducer..................................................1
7 800-908 Plug, 3/8” ....................................................1
8 812-003 Outlet fitting, 3/8” ........................................1
9 800-907 Plug, 1/4” ....................................................1
10 800-267 Fitting, 1/4”..................................................1
11 755-192 Filter housing ..............................................1
12 800-915 PRIME/SPRAY valve assembly..................1
1
2
4
3
6
9
10
7
8
5
11
12
26 © Titan Tool Inc. All rights reserved.
PRIME/SPRAY Valve Assembly
(P/N 800-915)
Item Part # Description Quantity
1 700-823 Dowel pin....................................................1
2 700-537 Gasket ........................................................1
3 222-012 O-ring, PTFE ..............................................1
4 221-012 O-ring, Viton................................................1
5 700-253 Valve housing .............................................1
6 800-910 Valve seat ...................................................1
7 700-250 Valve stem ..................................................1
8 700-721 O-ring, Viton................................................1
9 800-926 Spring .........................................................1
10 700-248 Valve retainer..............................................1
11 700-251 Cam base ...................................................1
12 700-697 Valve handle ...............................................1
13 700-759 Groove pin ..................................................1
1
2
3
4
5
6
7
8
9
10
11
12
13
Electrical Schematic
Labels
Part # Description
755-161 Logo label, front
755-197 Warning label, explosion
755-198 Warning label, injection
313-1847 Shock hazard label
755-232 “No Oil” label
Potentiometer
700-158
Transducer
800-437
E.P.C. Board
755-170
755-195
Switch
704-380
Engine
755-196
Clutch
J2
J3
J4
J7
J6
J5
Clutch Clutch
Switch
White
700-629
©Titan Tool Inc. All rights reserved. 27
Accessories
Airless Tip Selection
Tips are selected by the orifice size and fan width. The proper
selection is determined by the fan width required for a specific
job and by the orifice size that will supply the desired amount
of fluid and accomplish proper atomization.
For light viscosity fluids, smaller orifice tips generally are
desired. For heavier viscosity materials, larger orifice tips are
preferred. Please refer to the chart below.
The following chart indicates the most common sizes and the
appropriate materials to be sprayed.
Fan widths measuring 8" to 12" (20 to 30 cm) are preferred
because they offer more control while spraying and are less
likely to plug.
Liquid Shield Plus
Cleans and protects spray systems
against rust, corrosion and premature
wear.
Part No.
Description
314-483...........4 ounce bottle
314-482...........1 quart bottle
Piston Lube
Specially formulated to prevent materials
from adhering to the piston rod, which
becomes abrasive to the upper seals.
Piston Lube will break down any material
that may accumulate in the wet cup and
keep it from drying.
Part No.
Description
314-481...........4 ounce bottle
314-480...........8 ounce bottle
Miscellaneous
Part No. Description
490-012...........Hose coupling, 1/4" x 1/4"
730-397...........High-pressure fluid Gauge
314-171...........Lubriplate, 14 ounce individual
314-172...........Lubriplate, 6 lb. can
700-1037..........Electrostatic discharge (ESD) wrist strap
Tip Size Spray Material Filter Type
.011 — .013 Lacquers and stains 100 mesh filter
.015 — .019 Oil and latex 60 mesh filter
.021 — .026 Heavy bodied latex and blockfillers 30 mesh filter
NOTE: Do not exceed the sprayer's recommended
maximum tip size.
28 © Titan Tool Inc. All rights reserved.
Warranty
Titan Tool, Inc., (“Titan”) warrants that at the time of delivery to the original purchaser for use (“End User”), the equipment covered
by this warranty is free from defects in material and workmanship. Titan’s obligation under this warranty is limited to replacing or
repairing without charge those parts which, to Titan’s reasonable satisfaction, are shown to be defective within twenty-five (25)
months after sale to the End User. This warranty applies only when the unit is installed and operated in accordance with the
recommendations and instructions of Titan.
This warranty does not apply in the case of damage or wear caused by abrasion, corrosion or misuse, negligence, accident,
faulty installation, substitution of non-Titan component parts, or tampering with the unit in a manner to impair normal operation.
Defective parts are to be returned to an authorized Titan sales/service outlet. All transportation charges, including return to the
factory, if necessary, are to be borne and prepaid by the End User. Repaired or replaced equipment will be returned to the End
User transportation prepaid.
THERE IS NO OTHER EXPRESS WARRANTY. TITAN HEREBY DISCLAIMS ANY AND ALL IMPLIED WARRANTIES
INCLUDING, BUT NOT LIMITED TO, THOSE OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, TO
THE EXTENT PERMITTED BY LAW. THE DURATION OF ANY IMPLIED WARRANTIES WHICH CANNOT BE DISCLAIMED IS
LIMITED TO THE TIME PERIOD SPECIFIED IN THE EXPRESS WARRANTY. IN NO CASE SHALL TITAN LIABILITY EXCEED
THE AMOUNT OF THE PURCHASE PRICE. LIABILITY FOR CONSEQUENTIAL, INCIDENTAL OR SPECIAL DAMAGES
UNDER ANY AND ALL WARRANTIES IS EXCLUDED TO THE EXTENT PERMITTED BY LAW.
TITAN MAKES NO WARRANTY AND DISCLAIMS ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
PARTICULAR PURPOSE WITH RESPECT TO ACCESSORIES, EQUIPMENT, MATERIALS OR COMPONENTS SOLD BUT NOT
MANUFACTURED BY TITAN. THOSE ITEMS SOLD, BUT NOT MANUFACTURED BY TITAN (SUCH AS GAS ENGINES,
SWITCHES, HOSES, ETC.) ARE SUBJECT TO THE WARRANTY, IF ANY, OF THEIR MANUFACTURER. TITAN WILL PROVIDE
THE PURCHASER WITH REASONABLE ASSISTANCE IN MAKING ANY CLAIM FOR BREACH OF THESE WARRANTIES.
Material Safety Data Sheets (MSDS) are available on Titan’s website or by calling Technical Service.
United States Sales & Service
1-800-526-5362
Fax 1-800-528-4826
107 Bauer Drive
Oakland, NJ 07436
www.titantool.com
Canadian Branch
1-800-565-8665
Fax 1-905-856-8496
200 Trowers Road, Unit 7B
Woodbridge, Ontario L4L 5Z8
International
1-201-337-1240
Fax 1-201-405-7449
107 Bauer Drive
Oakland, NJ 07436 USA
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Titan Rent Spray 700 El manual del propietario

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El manual del propietario