SEALEY VS403.V2 Vacuum and Pressure Test Brake Bleeding Kit Instruction Manual
- June 1, 2024
- SEALEY
Table of Contents
VACUUM AND PRESSURE TEST / BRAKE
BLEEDING KIT
MODEL NO: VS403.V2
VS403.V2 Vacuum and Pressure Test Brake Bleeding Kit
Thank you for purchasing a Sealey product. Manufactured to a high standard,
this product will, if used according to these instructions, and properly
maintained, give you years of trouble free performance.
IMPORTANT: PLEASE READ THESE INSTRUCTIONS CAREFULLY. NOTE THE SAFE
OPERATIONAL REQUIREMENTS, WARNINGS & CAUTIONS. USE THE PRODUCT CORRECTLY AND
WITH CARE FOR THE PURPOSE FOR WHICH IT IS INTENDED. FAILURE TO DO SO MAY CAUSE
DAMAGE AND/OR PERSONAL INJURY AND WILL INVALIDATE THE WARRANTY. KEEP THESE
INSTRUCTIONS SAFE FOR FUTURE USE.
| Refer to instruction manual
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| Wear eye protection
| Wear protective gloves
SAFETY
IMPORTANT These instructions are provided as a guide only. Always refer
to the manufacturer’s service instructions.
Keep this product in good
working order and condition, take immediate action to repair or replace
damaged parts.
Use approved parts only.
Unapproved parts will invalidate the warranty.
Keep children and unauthorised
persons away from the work area.
Keep work area clean and tidy
and free from unrelated materials.
Ensure the work area has
adequate lighting.
DO NOT use the kit to perform a task for which it is not designed.
DO NOT hold pump inlet against the skin whilst using the pump.
DO NOT allow untrained persons to use the kit.
DO NOT use whilst under the influence of drugs, alcohol or intoxicating
medication.
After use, clean equipment and
store in a cool, dry, childproof area.
WARNING! Brake fluid will damage paintwork. Any spillage should be
flushed with water immediately.
WARNING! Brake fluid is flammable – keep away from sources of
ignition,including hot surfaces e.g. exhaust manifold.
Dispose of waste liquids in
accordance with local authority regulations.
WARNING! DO NOT pollute the environment by allowing uncontrolled
discharge of fluids.
Always read and comply with the
warnings on the brake fluid container.
Wear eye protection and keep
skin contact to a minimum. If brake fluid enters eyes rinse with plenty of
water and seek medical advice. If swallowed seek medical advice immediately.
INTRODUCTION
Professional vacuum/pressure diagnostic tool helps identify a variety of faults on vehicle systems including fuel, ignition, transmission, emission and air conditioning/heating. Kit also includes reservoirs, hoses and adaptors for bleeding brake and clutch systems Features simple push/pull function for choice of pressure or vacuum testing. Large rubber easy-to-read gauge. Supplied in storage case.
CONTENTS
Vacuum Pump, Fluid Container (x2), Transfer Cap, Vacuum Hoses; 65mm (x1), 80mm (x2), 600mm (x2), Assorted Connectors & Blanking Caps (x19)
APPLICATIONS
The use of a vacuum/pressure gauge is often overlooked when determining
mechanical condition and carrying out fault diagnosis on internal combustion
engines. Monitoring actual manifold vacuum is invaluable when troubleshooting
engine faults. This can only be carried out by using a good quality vacuum
gauge and this, coupled with a hand-operated vacuum pump, also allows static
testing of all types of vacuum operated systems.
Set out on the following pages are applications that the VS403.V2 vacuum and
pressure tester kit can be used for, but it must always be remembered that
these are examples only and reference to manufacturer’s service manuals should
always be made for correct testing procedures and specifications. In addition
to this, it is always recommended that additional tests, i.e. compression
tests, cylinder leakage tests, ignition timing checks etc. be carried out to
confirm indications of vacuum/pressure gauge readings.
OPERATION
5.1. This hand pump and its adaptors can be used to test vacuum motors
and control valves as well vacuum or pressure operated systems and components
that require to be properly sealed. The pump and its associated accessories
can also be used to bleed brakes. In pressure testing mode the pump may be
utilised to dispense or transfer liquids and provide slight pressure during
gravity or pressure bleeding.
The VS403.V2 can be used for both pressure and vacuum testing by means of the
sliding sleeve selector at the front end of the pump.
To select PRESSURE TESTING mode, move the sliding sleeve away from the nozzle
end of the pump until it makes contact with the main body. See fig.2(A) above.
The hole indicated at ‘X’ must be fully covered.
To select VACUUM TESTING mode, move the sliding sleeve away from the main body
of the pump until it makes contact with the ‘O’ ring just behind the nozzle.
See fig.2(B) above. The hole indicated at ‘X’ must be fully revealed.
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READING: 16 – 21inHG
DIAGNOSIS: NORMAL
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READING: When the throttle is suddenly opened then released, the needle should drop to below 5 inHg then bounce up to approximately 25 inHg before settling back to the original reading.
DIAGNOSIS: NORMAL
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READING: Extremely low but steady
DIAGNOSIS: Leaking intake manifold system, Faulty manifold gasket or carburettor base gasket, split vacuum hose, seized open EGR valve. -
READING: Reading low but steady
DIAGNOSIS: Retarded ignition timing. Confirm using timing light and reset to manufacturer’s specification.
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READING: Reading slightly low and fluctuating slowly.
DIAGNOSIS: Over lean or rich mixture. Check and reset in accordance with manufacturer’s specification.
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READING: Regular fluctuation between normal and low.
DIAGNOSIS: Blown head gasket between two adjacent cylinders. Carry out cylinder leakage test.
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READING: Reading slightly lower than normal including when throttle is suddenly opened then released.
DIAGNOSIS: Worn piston rings. Carry out compression test.
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READING: Regular drop between normal and low reading.
DIAGNOSIS: Burnt valve.
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READING: Normal when first started but drops rapidly when RPM held at 3000.
DIAGNOSIS: Restriction in exhaust system.
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5.2. Analysing Engine Mechanical Condition via Manifold Vacuum Readings
The gauge readings shown on the right hand side of this page are only examples
of what may be observed. It is important to remember that it is the action of
the needle rather than the actual reading that is more important. Varying
engine types will run different manifold vacuum pressures, depending on
camshaft profile, valve overlap, timing etc, so an exact vacuum reading cannot
be specified. The main criteria is that the needle reading is between 16 to
21inHg and steady. Manifold vacuum is also affected by altitude and it will
drop approximately 1inHg for every 1000 feet above sea level so this must also
be considered when assessing manifold vacuum actual readings. Step 1. Run
engine until normal operating temperature is reached. Switch engine off. Step
2. Locate and connect the vacuum gauge to a port directly on the manifold
(fig.3) or on the carburettor/throttle body below the throttle butterfly. Step
3. Start and run the engine at idle, observing the gauge reading. Refer to the
gauge examples on the right of this page to indicate any problems and their
possible causes.
5.3. Ignition System Vacuum Advance
On standard points systems and some electronic ignition systems there are two
types of advance methods used, both of which must function correctly to obtain
maximum performance and fuel economy. The first method is Mechanical or
Centrifugal, which operates by the use of weights located in the base of the
distributor. The weights move outwards advancing ignition timing as engine RPM
increases. This is tested by firstly removing the vacuum advance line to
disable the system,then with a timing light connected, run the engine RPM up
checking that the timing advances in accordance with the manufacturer’s
specification. The second method is Vacuum Advance, which senses engine load
via manifold vacuum. A vacuum diaphragm is mounted onto the distributor and
connected to a rotating internal base plate which advances or retards timing
as required to suit varying engine loads. To test this system for correct
operation, again with the timing light connected, raise the engine RPM and
check timing advance against manufacturer’s specifications. In the event that
the vacuum advance is not operating, remove the vacuum line from the
distributor advance mechanism. Connect the VS403.V2 (fig.4) and create a 5-10
inHg vacuum, monitoring the timing at the same time. If a timing advance is
noted this confirms that the vacuum diaphragm and mechanical links are in
order and that the fault is a vacuum supply. To confirm this, connect the
VS403.V2 to the vacuum supply line and check the gauge reading. No vacuum
should be noted at idle but when the engine RPM is increased a vacuum increase
should be observed. If this does not occur, trace the vacuum line back
checking for restrictions or breaks.
5.4. FUEL SYSTEMS: Testing Mechanical Fuel Pumps
The VS403.V2 vacuum tester can be used to evaluate the condition of a
mechanical fuel pump by testing the vacuum that it is able to create. Locate
and remove the suction line from the pump. Connect the VS403.V2 vacuum tester
to the suction port of the pump, start and run the engine at idle. The vacuum
reading that should be observed will vary slightly on different makes and
models but as a general rule approximately 15 inHg of vacuum should be
created. This should also be held for approximately 1 minute after engine shut
down. If this vacuum reading is not achieved or the vacuum drops off
immediately with the engine shut down, the fuel pump requires either overhaul
or replacement.
Carburettors
There are many different types of vacuum control systems used on carburettors.
Using the VS403.V2 vacuum tester kit allows quick and accurate testing of
these systems. Below are just two examples of tests that can be carried out.
Example 1.
Testing a Choke Break Diaphragm. With the engine at normal operating
temperature but not running, disconnect the vacuum line to the diaphragm
module. Connect the VS403.V2 vacuum tester (fig.5) and apply approximately15
inHg of vacuum and wait for 30 seconds. No drop in gauge reading should be
observed. With the vacuum still applied ensure that the choke butterfly is
pulled to the fully open position.
Example 2.
Testing Vacuum Operated Carburettor Secondary Barrel. With the engine at
normal operating temperature but not running, remove the vacuum line from the
secondary diaphragm module. Connect the VS403.V2 vacuum tester (fig.6), hold
the throttle and secondary air valve flaps open. Operate the hand pump whilst
observing free and easy opening of the secondary throttle butterfly.
Testing Fuel Injection Pressure Regulator
Multi-point fuel injection rail pressure must vary to suit changing engine
loads and fuel delivery requirements. This is done using a vacuum operated
regulator which is connected to the engine manifold vacuum to sense the
varying loads. To test the fuel rail pressure, a gauge is attached to the
rail, then engine loads must be created to vary engine manifold vacuum. Simply
remove and block off the vacuum supply line to the pressure regulator, connect
and operate the VS403.V2 vacuum pump (fig.7) to simulate vacuum pressures in
accordance with the manufacturer’s specifications and note variation in fuel
pressure reading.
Testing Emission Control Exhaust Gas Recirculation Valves (EGR)
Start engine and run at idle until normal operating temperature is reached.
Remove the vacuum line from the EGR valve and attach the VS403.V2 vacuum
tester kit (fig.8). Operate the hand pump to apply approximately 15 inHg of
vacuum. If the EGR Valve is working correctly the engine idle will become
rough. If the idle remains unchanged the valve is possibly seized in the
closed position. If the vacuum is not held,the diaphragm in the valve has
failed.
5.5. Testing One-Way Valves
Many vacuum operated circuits use in-line one-way valves to apply vacuum in
one direction only. To test the function of the valve remove it from the
circuit. Attach the VS403.V2 vacuum tester (fig.9) and operate pump to apply
vacuum. In one direction the valve should hold vacuum and in the opposite
direction it should not.
5.6. Testing Electrically Operated Vacuum Solenoids
Electrically operated vacuum solenoids are commonly used in control circuits
for air conditioning / ventilation systems, emission control systems, idle
step-up systems etc. and testing the function of these when using the VS403.V2
is extremely simple. Locate the solenoid to be tested and remove the line that
goes to the component being tested. Connect the VS403.V2 to the solenoid port
(fig.10) and start the engine. With the system turned off there should be a
zero gauge reading. Now turn the system to the ‘on’ position and a gauge
reading equal to the manifold vacuum should be observed. If no reading exists
remove the vacuum supply line and test for manifold vacuum at this point. If
the vacuum does exist this indicates that the solenoid is faulty or it is not
receiving a ‘switch on’ voltage (use a multimeter to test this). If no vacuum
exists trace the supply line back to the vacuum source checking for kinks or
breaks.
5.7. Testing Thermal Vacuum Switches
There are many vacuum controlled circuits that must only operate when the
engine reaches normal operating temperature. This is done using thermal
switches that remain in an ‘off’ position until a given temperature is
reached. To test this type of switch, remove the vacuum supply line coming
from the manifold to the switch and test for manifold vacuum. If this vacuum
is correct refit the supply line to the thermal switch and remove the opposing
line from the switch. Attach the VS403.V2 vacuum tester to the port (fig.11)
and start the engine. With a cold engine no reading should be noted. When the
engine reaches normal operating temperature a manifold vacuum reading should
be seen.
5.8. Testing Vacuum Operated Heater Taps
Climate control ventilation systems are becoming very common on newer vehicles
and most of the systems use vacuum operated taps to control the heating modes.
On the majority of makes and models, the system uses vacuum to turn the heater
tap ‘on’. To test these remove the supply line from the tap vacuum module and
connect the VS403.V2 vacuum tester (fig.12). With the engine at normal
operating temperature locate and feel the heater return hose. With the heater
tap in the ‘off’ position, this hose should be cold. Now operate the vacuum
pump to open the tap. The gauge reading must hold. If the tap is in working
order, the return hose will begin to heat. If the hose does not begin to heat
this indicates that the tap is faulty.
5.9. Testing Vacuum Operated Remote Central Locking Systems
Some makes and models use vacuum operated bellows mounted in each door, to
centrally lock and unlock the vehicles doors. These systems use either
manifold vacuum stored in a reservoir for use when the engine is not running
or an electrically driven vacuum pump which operates when the doors are locked
or unlocked. In either system, the VS403.V2 vacuum tester is ideal for testing
each individual door bellows. To do this,remove the door trims as required.
Remove the vacuum supply lines from the bellows and attach the VS403.V2 vacuum
tester (fig.13) and operate to apply vacuum to the bellows. Wait for 30
seconds, no drop on the gauge should be noted. If the bellows are found to be
in order attach the vacuum supply line to the VS403.V2 vacuum tester and
operate system to test for vacuum supply. If the vacuum supply does not exist
or is low trace back down the lines to the vacuum supply looking for kinks,
restrictions or cracked lines. Repair as required and retest.
5.10. Testing Automatic Transmission Vacuum Operated Modulator Valves
Automatic transmissions are normally equipped with a vacuum operated modulator
valve in order for the automatic transmission to detect engine loads and
adjust shift points to suit. The VS403.V2 vacuum tester can be used to test
both that the modulation valve diaphragm is serviceable and also to simulate
varying engine loads so modulator pressure readings can be recorded. To test
the modulator valve diaphragm remove the vacuum supply line from the valve and
attach the VS403.V2 vacuum tester. Operate the vacuum pump until approximately
15 inHg is achieved and monitor the gauge reading for approximately 30
seconds. No vacuum drop should be noted. To check modulator pressure readings
attach a pressure gauge to the appropriate port on the transmission. Remove
the vacuum supply line from the modulator and attach the VS403.V2 vacuum
tester (fig.14).Start and run the engine and apply vacuum pressures. Monitor
readings and confirm that these are in conformance with manufacturer
specifications.
5.11. BRAKING SYSTEMS
Testing Brake Servo Diaphragm
5.11.1. Remove vacuum supply line from brake servo fitting. Attach
VS403.V2 vacuum tester to vacuum supply port on servo (fig.15). Operate pump
to create approximately 15 inHg of vacuum and wait for 30 seconds. No vacuum
drop should be observed on the gauge reading. If the vacuum drops this
indicates that the brake servo diaphragm is faulty. In this case the servo
should be removed for overhaul by an authorised repairer or replaced.
5.11.2. Brake Bleeding – Assembly of Brake Bleeder Kit
Ensure that the vacuum pump is connected to the brake bleeder reservoir in
accordance with the assembly diagram (fig.16). Failure to do so will result in
brake fluid being drawn into the vacuum pump.
5.11.3. Brake Bleeding Procedure.
WARNING! Familiarise yourself with the hazards of brake fluid, read
manufacturer’s instructions on the container.
Do not touch the vehicle’s brake pedal whilst bleeding the brakes.
Refer to the specific vehicle manufacturer’s instructions for brake bleeding
and wheel sequence procedure before proceeding. If no specific instructions
from the vehicle manufacturer exist, follow the instructions detailed below.
5.11.3.1. Remove the cap of the vehicle’s master brake fluid reservoir.
If the fluid level is not at maximum, top it up.
5.11.3.2. Apply copper grease to the brake bleeding nipples before and
after the brake bleeding procedure to reduce the possibility of seized or
broken nipples when the brakes are next bled.
5.11.3.3. Attach the appropriate size bleeding attachment to the bleed
nipple on the brake calliper of the first wheel, normally nearest to master
brake fluid reservoir.
5.11.3.4. Operate vacuum pump until approximately 21 inHg vacuum is
created.
5.11.3.5. Open the bleed nipple about a quarter of a turn (fig.17). Allow
brake fluid to be drawn until no air bubbles are visible in the brake fluid in
the clear hose.
5.11.3.6. Tighten the bleed nipple.
5.11.3.7. Remove the attachment from the brake nipple.
5.11.3.8. Repeat the process as necessary at each wheel.
5.11.3.9. Check the master brake fluid reservoir regularly to ensure that
the level does not drop too far, and top up as necessary.
5.11.3.10. Empty bleeder container regularly and do not allow container
to overfill as brake fluid will be drawn into vacuum pump.
When brake bleeding and/or fluid changing is complete, test the action of the
brake pedal to ensure that the brakes are working before attempting to drive
the vehicle on the road and test the vehicle for satisfactory performance of
the braking system.
5.11.4. Clean bleeder components ‘with water only’ after use.
5.12. Clutch Bleeding Procedure
Refer to the relevant vehicle manufacturer’s instructions for clutch bleeding
procedure. If no specific instructions from the vehicle manufacturer exist,
follow the same basic procedure as the brake bleeding instructions above.
ENVIRONMENT PROTECTION
Recycle unwanted materials instead of disposing of them as waste. All tools,
accessories and packaging should be sorted, taken to a recycling centre and
disposed of in a manner which is compatible with the environment. When the
product becomes completely unserviceable and requires disposal, drain any
fluids (if applicable) into approved containers and dispose of the product and
fluids according to local regulations.
Note: It is our policy to continually improve products and as such we
reserve the right to alter data, specifications and component parts without
prior notice. Please note that other versions of this product are available.
If you require documentation for alternative versions, please email or call
our technical team on
technical@sealey.co.uk or 01284 757505.
Important: No Liability is accepted for incorrect use of this product.
Warranty: Guarantee is 12 months from purchase date, proof of which is
required for any claim.
REGISTER YOUR PURCHASE HERE
Sealey Group, Kempson Way, Suffolk Business Park,
Bury St Edmunds, Suffolk. IP32 7AR
01284 757500
01284 703534
sales@sealey.co.uk
www.sealey.co.uk
© Jack Sealey Limited
Original Language Version
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SEALEY VS403.V2 Vacuum and Pressure Test Brake Bleeding
Kit
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VS403.V2 Vacuum and Pressure Test Brake Bleeding Kit, VS403.V2, Vacuum and
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