fuel pump PONTIAC FIERO 1988 Service User Guide
[x] Cancel search | Manufacturer: PONTIAC, Model Year: 1988, Model line: FIERO, Model: PONTIAC FIERO 1988Pages: 1825, PDF Size: 99.44 MB
Page 381 of 1825
6A3-2 V-8 ENGINE
VALVE TRAIN
A very simple ball pivot-type train is used.
Motion is transmitted from the camshaft through the
hydraulic lifter and push rod to the rocker arm. The
rocker arm pivots on its ball and transmits the
camshaft motion to the valve. The rocker-arm ball is
retained by a nut.
HYDRAULIC VALVE LIFTERS
Hydraulic Valve Lifters are used to keep all parts
of the valve train in constant contact.
The hydraulic lifter assembly consists of: a roller,
the lifter body, which rides in the cylinder block boss,
a plunger, a push rod seat, a metering valve, a plunger
spring, a check ball and spring, a check ball retainer
and a push rod seat retainer.
When the lifter is riding on the low point of the
cam, the plunger spring keeps the plunger and push rod
seat in contact with the push rod.
When the lifter body begins to ride up the cam
lobe, the check ball cuts off the transfer of oil from the
reservoir below the plunger. The plunger and lifter
body then rise as a unit, pushing up the push rod and
opening the valve.
As the lifter body rides down the other side of the
cam, the plunger follows with it until the valve closes.
The lifter body continues to follow the cam to its low
point, but the plunger spring keeps the plunger in
contact with the push rod. The ball check valve will then
move off its seat and the lifter reservoir will
remain full.
INTAKE MANIFOLD
The intake manifold for those engines with
carburetors are made of cast iron or aluminum double
level design for efficient fuel distribution. An Exhaust
Gas Recirculation (EGR) port is also cast into the
manifold for the mixture of exhaust gases with the fuel
air mixture.
The intake manifold for those vehicles equipped
with
PFI is a cast aluminum unit. It centrally supports
a fuel rail with
8 fuel injectors.
EXHAUST MANIFOLDS
Two cast iron exhaust manifolds are used to
direct exhaust gases from the combustion chambers to
the exhaust system. The left hand side manifold
receives a heat shield that is used to route heated air
to the air cleaner. for better fuel vaporization during
warm-up.
COMBUSTION CHAMBERS
Combustion Chambers are cast to insure uniform
shape for all cylinders. Spark plugs are located between
the intake and exhaust valves. The contoured wedge
shape of the combustion chamber minimizes the
possibility of detonation, facilitates breathing and
provides swirling turbulence for smooth, complete
combustion.
ENGINE LUBRICATION
Full pressure lubrication through a full flow oil through drilled passages, to the camshaft and
filter, is furnished by a gear-type oil pump. The crankshaft to lubricate the bearings. The valve lifter oil
distributor, driven by a helical gear on the camshaft,
gallery feeds the valve lifters which, through hollow
drives the oil pump. The main oil gallery feeds oil,
push rods, feed the individually mounted rocker arms.
Page 386 of 1825
V-8 ENGINE 6A3-7
-
3. Disconnect accelerator T.V. and cruise cables.
4. Remove air intake duct.
5. Disconnect coolant hoses at throttle body.
6. Disconnect wires at throttle body.
7. Disconnect vacuum and breather hoses at
throttle body.
8. Remove throttle body from plenum.
9. Remove distributor shield.
10. Disconnect brake vacuum hoses at plenum.
1 1. Disconnect vacuum hoses at plenum.
12. Refer to Section 6E3 for removal of:
a Plenum
Fuel Rail
a Cold Start Injector
e Runners
13. Remove distributor.
14. Disconnect EGR solenoid.
15. Disconnect all electrical wires that would
interfere.
16. Remove intake manifold bolts.
17. Remove intake manifold.
Installation
1. Clean all seal surfaces.
2. Install gaskets and place a 3/16 inch 5 (mm) bead
of RTV, No. 1052917 or
equivalent,on the front
and rear ridges of the cylinder case. Extend the
bead 1/2 inch
(13mm) up each cylinder head to
seal and retain the manifold side gaskets and
install intake manifold.
3. Torque manifold bolts to specified torque.
4. Reconnect electrical and vacuum wires.
5. Install distributor.
6. Refer to Section 6E3 for installation
of:
e Plenum
e Fuel Rail
e Cold Start Injectors
a Runners
7. Vacuum hoses at plenum.
8. Install distributor shield.
9. Install throttle body and related parts.
10. Fill cooling system.
1 1. Reconnect battery cable.
12. Start engine and look for leaks.
DIPSTICK TUBE
Removal
1.
Disconnect battery negative cable to prevent
possible contact of the dipstick tube with the
battery terminal on starter during removal.
2. Remove bolt attaching bracket to engine and
remove tube (loose fit).
lnstallation
1. Clean tube and apply sealant #I052080 or
equivalent, around tube
1/2" below bead.
2. Insert tube in block and rotate into position.
3. Install bolt (with starter brace on top of tube
bracket) and connect battery cable.
&LB9/LO3/L98
19-35 N.m (14-26 FT. LBS.)
27-43
N.m (20-32 FT. LBS.)
Fig. 6A3-5 Exhaust Manifold lnstallation
EXHAUST MANIFOLD
Removal (Right Side)
1. Disconnect battery negative cable.
2. Disconnect spark plug wires.
3. Disconnect
A.I.R. hoses.
4. Remove air management valve.
5. Raise vehicle.
6. Remove exhaust pipe nuts.
7. Lower vehicle.
8. Remove manifold bolts.
9. Remove exhaust manifold.
lnstallation
1. Clean
mating surfaces on manifold and head,
then install manifold in position and install bolts
finger tight.
2. Torque bolts to specifications.
3. Reverse removal procedures.
Removal (Left Side)
1. Disconnect battery negative cable.
2. Disconnect spark plug wires.
3. Disconnect A.I.R. hoses.
4. If equipped with
A/C, remove compressor and
lay aside.
5. Remove power steering pump and lay aside.
6. Loosen brackets.
7. Remove rear
A/C and power steering adjusting
bracket.
8. Remove lower power steering adjusting bracket.
9. Raise vehicle.
Page 396 of 1825
V-8 ENGINE 6A3.17
4. Set dial indicator on zero, then rotate the
crankshaft slowly, or attach an auxiliary starter
switch and "bump" the engine over, until the
push rod is fully raised position.
e Whenever the engine is cranked remotely at
the started, with a special jumper cable or
other means, the distributor primary lead
should be disconnected from the distributor
(coil).
5. Compare the total lift recorded from the dial
indicator with specifications.
6. If camshaft readings for all lobes are within
specifications, remove dial indicator assembly.
7. Install and adjust valve mechanism as outlined.
Removal
Fig. 6A3-30 Removing Camshaft
1.
Remove valve lifters as previously outlined.
2. Remove crankcase front cover as previously
outlined.
3. Remove grille.
4. Remove fuel pump push rod as outlined in
Section 6C.
5. Complete camshaft removal as follows:
e Sprocket is a light fit on camshaft. If
sprocket does not come off easily a light
blow on the lower edge of the sprocket (with
a plastic mallet) should dislodge the
sprocket.
6. Install two 5/16" - 18 x 4" bolts in camshaft bolt
holes then remove camshaft (fig. 6A3-30).
NOTICE: All camshaft journals are the same
diameter and care must be used in removing
camshaft to avoid damage to bearings.
Inspection
The camshaft bearing journals should be
measured with a micrometer for an out-of-round
condition. If the journals exceed
.001" out-of-round,
the camshaft should be replaced.
Installation
When a new camshaft is installed coat camshaft
lobes with "Molykote" or its equivalent. When a new
camshaft is installed, replacement of all valve lifters is
recommended to insure durability of the camshaft
lobes and lifter feet.
Fig. 6A3-3 1 Aligning Timing Marks
Lubricate camshaft journals with engine oil and
install camshaft.
Install timing chain on camshaft sprocket. Hold
the sprocket vertically with the chain hanging
down and align marks on camshaft and
crankshaft sprockets. (Refer to fig. 6A3-3 1).
Align dowel in camshaft with dowel hole in
camshaft sprocket then install sprocket on
camshaft.
Draw the camshaft sprocket onto camshaft using
the mounting bolts. Torque to specifications.
Lubricate timing chain with engine oil.
Install fuel pump push rod as outlined in Section
6C.
Install grille.
Install crankcase front cover as previously
outlined.
Install valve lifters as previously outlined.
CAMSHAFT BEARINGS
Removal
Camshaft bearings can be replaced with engine
completely or partially disassembled. To replace
bearings without complete disassembly remove the
camshaft and crankshaft leaving cylinder heads
attached and pistons in place. Before removing
crankshaft, tape threads of connecting rod bolts to
prevent damage to crankshaft. Fasten connecting rods
against sides of engine so they will not be in the way
while replacing camshaft bearings.
1. With camshaft and crankshaft removed, drive
camshaft rear plug from cylinder block.
2. Using Tool J-6098, with nut and thrust washer
installed to end of threads, index pilot in camshaft
front bearing and install puller screw through
pilot.
3. Install remover and installer tool with shoulder
toward bearing, making sure a sufficient amount
of threads are engaged.
4. Using two wrenches, hold puller screw while
turning nut. When bearing has been pulled from
Page 406 of 1825
V-8 ENGINE 6A3-27
3. When finish honing
a cylinder bore to fit a piston,
the hone should be moved up and down at a
sufficient speed to obtain very fine uniform
surface finish marks in a cross-hatch pattern of
approximately
45" to 65" included angle. The
finish marks should be clean but not sharp, free
from imbedded particles and torn or folded
metal.
4. Permanently mark
the piston for the cylinder to
which it has been fitted and proceed to hone
cylinders and fit the remaining pistons.
NOTICE: Handle the pistons with care and do not
attempt to force them through the cylinder until
the cylinder has been honed to correct size as this
type piston can be distorted through careless
handling.
5. Thoroughly
clean the bores with hot water and
detergent. Scrub well with a stiff bristle brush and
rinse thoroughly with hot water. It is extremely
essential that a good cleaning operation be
performed. If any of the abrasive material is
allowed to remain in the cylinder bores, it will
rapidly wear the new rings and cylinder bores in
addition to the bearings lubricated by the
contaminated oil, the bores should be swabbed
and then wiped with a clean dry cloth. Cylinder
should not be cleaned with kerosene or gasoline.
Clean the remainder of the cylinder block to
remove the excess material spread during the
honing operation.
Piston Selection
1. Check USED piston to cylinder bore clearance as
follows:
a. Measure
the "Cylinder Bore Diameter"
with a telescope gage
"2-1/2" (64mm) from
top of cylinder bore").
b. Measure
the
"Piston Diameter" (at skirt
across center line of piston pin).
c. Subtract
piston diameter from cylinder bore
diameter to determine "Piston to Bore
Clearance".
d. Determine if piston to bore clearance is in
the acceptable range.
2. If
used piston is not acceptable, check Piston Size
Chart and determine if a new piston can be
selected to fit cylinder bore within the acceptable
range.
3. If
cylinder bore must be reconditioned, measure
new piston diameter (across center line of piston
pin) then hone cylinder bore to correct clearance
(preferable range).
4. Mark the piston to identify the cylinder for which
it was fitted.
OIL FILTER BYPASS VALVE
Inspection and Replacement
With the oil filter removed, check the spring and
fibre valve for operation. Inspect for a cracked or
broken valve. If replacement is necessary, the oil filter
adapter and bypass valve assembly must be replaced as an
assembly. Clean valve chamber in cylinder block
thoroughly. Torque retaining screws to specifications.
ENGINE ASSEMBLY
Removal
1. Disconnect battery.
2. Remove air cleaner.
3. Remove hood.
4. Drain radiator.
5. Remove lower radiator hose.
6. Remove upper fan shroud.
7. Remove upper radiator hose and coolant
recovery hose.
8. Remove transmission cooler lines.
9. Remove radiator.
10. Remove fan assembly.
1 1. Remove heater hoses.
12. Disconnect
carburetor linkage, includes cruise
control detent cable.
13. Remove vacuum brake booster line.
14. Remove
distributor cap and lay wiring aside.
15. Disconnect necessary wires and hoses.
16. Remove power steering
pump and lay aside.
17. Raise vehicle.
18. Remove exhaust
pipes at exhaust manifold.
19. Remove dust cover.
20. Remove converter bolts.
2 1. Disconnect starter wires.
22. Remove bell housing bolts.
23. Remove
motor mount through bolts.
24. Disconnect fuel lines
at fuel pump.
25. Lower vehicle.
26. Support transmission.
27. Remove
A.I.R./Converter pipe bracket.
28. Remove engine, include removing wire
from
bracket at rear left of engine.
Installation
1. Position engine
assembly in vehicle.
2. Attach
motor mount to engine brackets and
lower engine in place.
3. Remove engine lifting device.
4. Remove transmission floor jack.
5. Raise vehicle on hoist.
6. Install mount "through" bolts. Torque to
specifications.
7. Install bell housing bolts. Torque to
specifications.
8. On vehicles with automatic transmissions, install
I
converter to flywheel attaching bolts. Torque to
specifications.
9. Install flywheel splash shield of converter
housing cover as applicable. Torque attaching
bolts to specifications.
I
10. Install starter wires.
1 1. Connect fuel lines.
12. Connect exhaust pipe at manifold.
13. Lower vehicle on hoist.
14. Reinstall power steering pump, if so equipped.
15. Connect necessary wires and hoses.
Page 432 of 1825
ENGINE FUEL BC-1
SECTION 6C
NE FUEL
CONTENTS
General Description ..................................... 6C-1 Fuel
Cap ........................................................... 6C-3
.................................................. ............................................. Alcohol-In-Fuel 6C- 1 Fuel Filter Neck 6C-3
................... ............ Fuel Metering .................................................. 6C-2 Fuel Gage Sending Unit .. 6C-4
....................... ............................... Throttle Body Injection (TBI) .... 6C-2 Diagnosis ,. 6C-4 ................... Service
Procedures ............................................. 6C-4
Port Fuel Injection ...................................... 6C-2
Pressure Relief ........................................... 6C-4
Fuel Feed and Return Pipe
............................... 6C-2
Flow Test .................................................... 6C-4
Fuel Pipes (MPFI)
.......................................... 6C-3
Pressure Test - TBI ................................... 6C-4
Fuel and Vapor Hoses
....................................... 6C-3
Pressure Test - MPFI .................................... 6C-4
Fuel Pump ........................................................ 6C-3 ...................................................... Fuel Pump Relay .............................................. 6C-3 Fuel Tank 6C-4
Fuel Filter
......................................................... 6C-3 Accelerator Controls ...................................... 6C-5
Fuel Tank
....................................................... 6C-3
All new General Motors vehicles are certified by
the United States Environmental Protection Agency as
conforming to the requirements of the regulations for
the control of air pollution from new motor vehicles.
This certification is contingent on certain adjustments
being set to factory standards. In most cases, these
adjustment points either have been permanently
sealed and/or made inaccessible to prevent
indiscriminate or routine adjustment in the field. For
this reason, the factory procedure for temporarily
removing plugs, caps, etc., for purposes of servicing the
product must be strictly followed and, wherever
practicable, returned to the original intent of the
design.
GENERAL DESCRIPTION
All gasoline engines are designed to use only
unleaded gasoline. Unleaded gasoline must be used for
proper emission control system operation. Its use will
also minimize spark plug fouling and extend engine oil
life. Using leaded gasoline can damage the emission
control system and could result in loss of emission
warranty coverage.
All cars are equipped with an Evaporative
Emission System. The purpose of the system is to
minimize the escape of fuel vapors to the atmosphere.
Information on this system will be found in Section
6E2, or 6E3.
When working on the fuel system, there are
several things to keep in mind.
@ Any time fuel system is being worked on,
disconnect the negative battery cable
except for those tests where battery
Adhere to all Notices and Cautions.
Always keep a dry chemical (Class B) fire
extinguisher near the work area.
-
Always use a backup wrench when loosening or
tightening a screw couple fitting.
The torque on a screw fitting is
30 N-m (22 lb.
ft.).
Pipe is used on all MPFI, TPI, SFI, and TBI
applications. Fittings require the use of an
"0"
Ring. Replace all pipe with the same type of pipe
and fittings that were removed.
All fuel pipes must meet GM Specification
124-M, or its equivalent.
All fuel hoses must meet GM Specification
6163-M, or its equivalent.
Do not replace fuel pipe with fuel hose.
voltage is required.
@ On MPFI, TPI, SF1 and TBI systems, always A1cohol-ln-Fuel
relieve the line pressure before servicing any fuel Certain driveability complaints such as
system components. hesitation, lack of power, stall, no start, etc., may be
@ Do not repair the fuel system until you have read caused
by an excessive amount of alcohol-in-fuel. The
the copy and checked the illustrations relating to complaints
may be due to fuel system corrosion and
that repair. subsequent
fuel filter plugging, deterioration of rubber
Page 433 of 1825
6C-2 ENGINE FUEL
components such as the accelerator pumps and/or
air-fuel mixture leaning effects.
Various types and concentrations of alcohols are
used in commercial gasoline. Some alcohols are more
detrimental to fuel system components than others. If
an excessive amount of alcohol in the fuel is suspected
as the cause of a driveability condition, the following
procedure may be used to detect the presence of
alcohol in the fuel.
In this procedure, water is used to
extract the alcohol from the fuel. However, the specific
type of alcohol is not determined.
The fuel sample should be drawn from the
bottom part of the tank so that any water, if already
present, can be detected. The sample should be bright
and clear. If the sample appears cloudy or
contaminated with water as indicated by a water layer
in the bottom part of the sample, this procedure should
not be used. The fuel system should then be cleaned
(See Fuel System Cleaning).
Testing Procedure
1. Using a 100 ml cylinder with 1 ml graduation
marks, fill with fuel to the 90 ml mark.
2. Add 10 ml of water to bring the total fluid volume
to 100 ml and install a stopper.
3. Shake vigorously for 10 to 15 seconds.
4. Carefully loosen stopper to release pressure.
5. Close the stopper and shake vigorously again for
10 to 15 seconds.
6. Carefully loosen
stopper to release pressure.
7. Put the graduated cylinder on a level surface for
approximately 5 minutes to allow adequate liquid
separation.
If alcohol is present in the fuel, the volume of the
lower layer, which would now contain alcohol and
water will be greater than 10 ml. For example, if the
volume of the lower layer is increased to 15 ml, it
would indicate at least 5 percent alcohol in fuel. The
actual amount of alcohol may be somewhat greater
because this procedure does not extract all of the
alcohol from the fuel.
FUEL METERING
Throttle Body lnjection
(TBI)
With Throttle Body Injection (TBI), an injection
unit is placed on the intake manifold where the
carburetor is normally mounted. The TBI unit is
computer controlled and supplies the correct amount
of fuel during all engine operating conditions. See
Section 6E2 for information relative to operation and
diagnosis of TBI units.
Port Fuel lnjection
The ECM is in complete control of this fuel
delivery system during all driving conditions.
The intake manifold is used only to let air into the
engine. Fuel is injected by separate injectors that are
mounted over the intake valve.
With the Port Injection System, there is no need
for a Thermac, EFE, Map Sensor, Baro Sensor, A.I.R.
System, or Dual Bed Converter. This
system provides better cold driveability,
lower exhaust emissions and better throttle response.
In Sequential Fuel Injection systems (SFI),
injectors turn on at every crankshaft revolution. The
ECM controls the injector "on" time so that the
correct amount of fuel is metered, depending on
driving conditions.
Two interchangeable
"0" rings are used on the
injector that must be inspected when the injectors are
removed. Check
"0" rings for cuts or other type of
damage and replace as necessary.
The air cleaner is remotely mounted near the
radiator. It is connected to the intake manifold by air
intake ducting.
Also, mounted between the air cleaner and
intake, are the mass air flow sensor and throttle body.
Cold driveability characteristics are greatly
improved with the aid of an engine coolant supply to
the throttle body for rapid warm up.
The throttle body design uses an integral Idle Air
Control to govern idle speed and a Throttle Position
Sensor (TPS). The IAC and TPS are both controlled
by the ECM.
A large diameter fuel rail is attached to the intake
manifold and supplies fuel to all the injectors.
A fuel pressure tap is located on the rail for quick
pressure checks.
Fuel is recirculated through the rail continually
while the engine is running. This removes air and
vapors from the fuel as well as keeping the fuel cool
during hot weather operation.
A fuel pressure regulator is mounted on the fuel
rail. It maintains a constant 36 psi pressure across the
injectors under all operating conditions. It is
accomplished by controlling the amount of fuel that is
recirculated back to the fuel tank, based on engine
demand.
The pressure regulator also uses an
"0" ring for
attachment. The
"0" ring used is the same one that is
used for the injectors.
Some engines also have an accumulator that is
located in the fuel feed line near the cowl area. It is used
to dampen the vibration that is caused by the
pressurized fuel and the pulsing of the injector.
See Section 6E3 for more information and
diagnosis.
Fuel Feed and Return Pipe
When replacing fuel feed and return pipes, always
replace them with welded steel tubing meeting GM
Specification
124M, or its equivalent. The replacement
pipe must use the same type of fittings as the original
pipes to ensure the integrity of the connection.
NOTICE: Do not replace fuel pipe with fuel hose
or any other type of tubing such as copper or
aluminum. Only tubing meeting the 124M
specification is capable of meeting all the pressure
and vibration characteristics necessary to ensure
the durability standard required.
Always check and replace any
"0" rings or
washers that appear damaged.
Page 434 of 1825
ENGINE FUEL 6C.3
a Fuel feed and return pipes are secured to the
underbody with clamps and screw assemblies.
The pipes should be inspected occasionally for
leaks, kinks or dents.
e Follow the same routing as the original pipe.
e Pipes must be properly secured to the frame to
prevent chafing. A minimum of 6 mm
(1/4")
clearance must be maintained around a pipe to
prevent contact and chafing.
MPFl Fuel Pipes
Due to the fact that fuel pipes are under high
pressure, these systems require special consideration for service.
Many feed and return pipes use screw couplings
with
"0" Rings. Any time these fittings are loosened
to service or replace components, ensure that:
a A backup wrench is used while loosening and
tightening the fitting.
e Check all "0" rings at fitting locations (if
applicable) for cuts or any damage and replace
any that appear worn or damaged.
e Use correct torque when tightening fittings.
If pipes are replaced always use original
equipment parts, or parts that meet GM
specifications.
Fuel and Vapor Hoses
NOTICE: Fuel and vapor hoses are specially
manufactured. If replacement becomes necessary,
it is important to use only replacement hoses
meeting GM Specification 6163-M. These hoses
are identified with the words "Fluoroelastomer"
on them. Hoses not so marked could cause early
failure, or fail to meet emission standards.
e Do not use rubber hose within 4" of any part of
the exhaust system, or within
10" of the catalytic
converter.
FUEL PUMP
The electric fuel pump is in the fuel tank. The
tank has an outlet for a vapor return system. Any vapor
which forms is returned to the fuel tank along with hot
fuel through a separate line. This greatly reduces any
possibility of vapor lock by keeping cool fuel from the
tank constantly circulating through the fuel pump.
FUEL PUMP RELAY
To control fuel pump operation, a fuel pump
relay is used.
When the ignition switch is turned to "RUN"
position, the fuel pump relay activates the electric fuel
pump for
1.5 to 2.0 seconds to prime the injector(s). If
the ECM does not receive reference pulses from the
distributor after this time, the ECM signals the relay
to turn off the fuel pump. The relay will once again
activate the fuel pump when the
ECM receives
distributor reference pulses.
Fuel Filter
CAUTION: To reduce the risk of fire
and personal injury, it is necessary
to
relieve the fuel system pressure
before servicing fuel system
components. (See Fuel System
Pressure Relief.)
The inline filters can be found on the rear
crossmember of the vehicle. Always use a backup
wrench any time that the fuel filter is removed or
installed. Also make sure that a good
"0" Ring is used
at all screw couple locations. Torque on fittings is
30
N-m (22 lb. ft.).
FUEL TANK
The fuel tank is usually located under the rear of
the vehicle and a number of shapes and sizes are used
depending on the application.
The tank is held in place by two metal straps,
hinged (with a bolt through the hinge) and secured at
the opposite end with a nut and bolt assembly.
Anti-squeak pieces are used on top of the tank to
reduce rattles and other annoying noises.
The fuel tank, cap and lines should be inspected
for road damage, whch could cause leakage. Inspect
fuel cap for correct sealing and indications of physical
damage. Replace any damaged or malfunctioning
parts.
Before attempting service of any type on the fuel
tank, always
(1) remove negative battery cable from
battery, (2) place "no smoking" signs near work areas,
(3) be sure to have C02 fire extinguisher handy, (4)
wear safety glasses and
(5) siphon or pump fuel into an
explosion proof container.
Fuel Filler Gap
The fuel tank filler neck is equipped with a
screw-type cap. The threaded part of the cap requires
several turns counterclockwise to remove. The long
threaded area is designed to allow any remaining fuel
tank pressure to escape while the cap is being removed.
A built-in torque-limiting device prevents
overtightening. To install, turn the cap clockwise until
a clicking noise is heard. This signals that the correct
torque has been reached and the cap is fully seated.
N OTI G E: If a fuel filler cap requires replacement,
use only a cap with the same features. Failure to
use the correct cap can result in a serious
malfunction of the system.
Available on some models is an electric locking
fuel filler cap. Information on this option will be found
in Section
9E.
FUEL TANK FILLER NECK
To help prevent refueling with leaded gasoline,
the fuel filler neck on gasoline engine cars has a built-in
restrictor and deflector. The opening in the restrictor
will only admit the smaller unleaded gas nozzle spout,
which must be fully inserted to bypass the deflector.
Attempted refueling with a leaded gas nozzle or failure
Page 435 of 1825
6C-4 ENGINE FUEL
to fully insert the unleaded gas nozzle will result in
gasoline splashing back out of the filler neck.
Fuel Gage Sending Unit
The fuel gage sending unit is attached to the top
of the fuel tank. It is held in place with a cam lock ring
and a gasket is used between the tank and sending unit.
Sending units have three hoses attached. One line
is for the fuel feed. The second line is connected to the
vapor canister, to keep fuel vapor from getting into the
air (see Section 6E). The third line is used as a fuel
return line to the tank.
On some sending units a wire is attached to the
unit. On others the connectors attach directly to the
sender.
When a fuel gage sending unit is removed always
make sure to install the gasket and any power or
ground leads that were removed.
DIAGNOSIS
Fuel system diagnostic procedures are located in
Section(s) 6E1 thru 6E3.
SERVICE PROCEDURES
If the fuel system is suspected of delivering an
improper amount of fuel, it should be inspected and
tested in the vehicle, as follows:
1. Make certain that there is fuel in the tank.
2. With the engine running, inspect for leaks at all
fuel feed pipe and hose connections from
fuel
tank to injection pump. Tighten any loose
connections. Inspect all hoses for flattening or
kinks which would restrict the flow of fuel. Air
leaks or restrictions on suction side of fuel pump
will seriously affect pump output.
FUEL SYSTEM PRESSURE RELIEF
CAUTION: To reduce risk of fire and
personal injury, it is necessary to
relieve duel system pressure before
servicing fuel system components. To
do this:
Remove "fuel pump" fuse from fuse
block in passenger compartment.
e Crank engine - engine will start and run
until fuel supply remaining in fuel lines is
consumed. Engage starter for
3.0
seconds to assure relief of any remaining
pressure.
e With ignition "OFF", replace duel pump
fuse.
Unless this procedure
is followed before
servicing fuel lines
or connections, fuel
spray could occur.
When repair to the fuel system has been
completed, start engine and check all connections that
were loosened for possible leaks.
Refer to Section 6E for additional diagnosis of
engine fuel system.
Fuel Pump Flow Test
1. Test fuel
pump by connecting hose from EFI fuel
feed line to a suitable unbreakable container.
Apply battery voltage to the fuel pump test
terminal (terminal
"G" of ALCL).
2. Fuel pump should supply
1/2 pint or more in 15
seconds.
3. If flow is below minimum, check for fuel
restriction. If there is no restriction, check pump
pressure.
Fuel System Pressure Test
This test must be performed when diagnosing the
fuel system.
CAUTION: To reduce the risk of fire
and personal injury, it is necessary to
relieve fuel system pressure before
servicing fuel system components on
the
TBI system. To do this:
s Remove "Fuel Pump" fuse from fuse block in
passenger compartment.
e Crank engine. Engine will start and run until fuel
remaining in fuel lines is consumed. Crank the
starter for three seconds to assure that any
remaining pressure is relieved.
e With the ignition off, replace the "Fuel Pump"
fuse.
1. Obtain two
sections of
3/8" steel tubing. Each
should be about 254 mm (10 inches) long.
I
Double-flare one end of each section.
2. Install a flare nut on each section. Connect each i
of the above sections of tubing into the "flare nut 1
to flare nut adapters" that are included in J-29658 i
Gage Adapters.
3. Attach the
pipe and adapter assemblies to the
J-29658 gage.
4. Hoist the car.
5. Disconnect
front fuel feed hose from the fuel pipe
on the body.
1
6. Install a
254 mm (10 inch) length of 3/8" fuel
hose onto the fuel feed pipe on the body. Attach 1
I the other end of the hose onto one of the sections
of pipe mentioned in Step 1. Secure the hose
connections with clamps.
7. Attach the front fuel feed hose onto the other
i
section of tubing mentioned in Step 1. Secure the I
hose connection with a clamp. I
8. Start
the engine and check for leaks. I 9. Observe
the fuel pressure reading. It should be 62
to 90
kPa (9 to 13 psi). If not, refer to the I
appropriate Emissions Section.
10. Depressurize
the fuel system and remove the gage I
with adapters. Reconnect the fuel feed hose to the
pipe and torque the clamp to
1.7 N.m (1 5 lb. in.).
11. Lower
the car. Start the engine and check for fuel
leaks.
Fuel System Pressure Test- MPFl
Fuel system diagnosis is in Section 6E3, Chart
A-7.
Page 436 of 1825
ENGINE FUEL CC-5
FUEL TANK
Draining Fuel Tank
1. Disconnect the negative battery cable. Also have
a dry chemical (Class B) fire extinguisher near the
work area.
2. Use a hand operated pump device when possible
to drain as much fuel through the filler tube as
possible.
3. If
a hand operated pump device cannot be used
to complete the draining process, use a siphon at
the main (not return) fuel pipe at the fuel pump
or the fuel tank gage unit.
CAUTION: Never drain or store
gasoline in an open container due to
the possibility of fire or explosion.
4. Reinstall any removed hoses, lines and cap.
Removing Fuel Tank
1. Remove all fuel, see "Draining Fuel Tank".
2. Support
fuel tank and disconnect the two fuel
tank retaining straps.
3. Lower tank enough to disconnect sending unit
wire, hoses, and ground strap, if so equipped.
4. Remove tank from vehicle.
5. Remove sending unit.
Installing Fuel Tank
1. Reverse removal procedure.
2. Always replace "0" ring when tank unit has been
removed.
3. When reinstalling fuel tank, be sure to reinstall
anti-squeak pieces on top of the tank to reduce
rattles and other annoying noises.
4. Tighten fuel tank retaining strap bolts or screws.
Fuel System Cleaning
CAUTION: This procedure will NOT
remove all fuel vapor. Do not attempt
any repair
on tank or filler neck where
heat or flame is required, as an
explosion resulting in personal injury
could occur.
If trouble is due to contaminated fuel or foreign
material that is in the tank, it can usually be cleaned.
If tank is rusted internally, it should be replaced.
1. Disconnect negative battery cable.
2. Disconnect ignition engine harness connector.
Have dry chemical (Class B) fire extinguisher
near the work area.
3. Relieve fuel system pressure.
4. Drain fuel tank (see "Draining Fuel Tank").
5. Remove fuel tank (see "Fuel Tank Removal").
6. Remove external fuel filter and inspect for
contamination. If filter is plugged, replace.
7. Locate tank away from heat, flame, or other
source of ignition. Remove fuel gage sending unit
and fuel pump assembly, if so equipped, and
inspect condition of strainer. If strainer is
contaminated, a new strainer should be installed.
8. Complete draining of tank by rocking it and
allowing fuel to run out of fuel sending unit
opening.
9. Flush fuel tank with running hot water for at least
five minutes. Pour water out of fuel sending unit
opening. (Rock tank to be sure that removal of
water is complete.)
10. Disconnect fuel feed pipe and use air pressure to
clean fuel line. Apply air pressure in the opposite
direction fuel normally flows through the line. On
vehicles equipped with a fuel return line, clean
line in similar manner. Disconnect pipe at
throttle body unit and apply air pressure to clean
return line. Reconnect and torque all pipes to 30
N-m (22 1b. ft.).
11. Use low air pressure to clean pipes on fuel gage
sending unit.
112. Install new strainer on fuel gage sending unit, if
required. Install fuel gage sending unit and fuel
pump, with new gasket, into tank and install fuel
tank. Connect fuel gage wire harness to body
harness. Connect all fuel lines except feed line to
external fuel filter.
13. Disconnect fuel feed hose to chassis pipe at front.
Connect a hose to front end of chassis fuel feed
pipe and insert other end of hose into a one gallon
fuel can.
14. Connect battery cable.
15. Put six gallons of clean fuel into fuel tank and
apply 12 volts to Terminal
"G" of ALCL to
operate fuel pump. Pump two quarts of fuel into
fuel can. This will purge fuel pump.
16. Remove hose and connect fuel hose to chassis
pipe.
17. Check all connections
for leaks; tighten all hose
clamps.
Fuel Tank Purging Procedure
The following procedure is used prior to repairing
of fuel tank.
1. Remove fuel sending unit and fuel pump and
drain all remaining fuel from tank.
2. Visually inspect interior cavity of tank. If any fuel
is evident, drain again.
3. Move tank to flushing area (wash rack).
4. Fill tank completely with tap water, agitate
vigorously and drain.
5. Add gasoline emulsifying agent to the tank, refill
with water, agitate mixture for 10 minutes, and
drain tank completely.
For correct gasoline emulsifying agent-to-water
mixture, refer to the
manufacturer's
specifications. Use an available emulsifying
agent, such as "Product-Sol No.
913", or
equivalent.
6. When empty, refill the tank to overflowing with
water. Completely flush out remaining mixture
and empty tank.
7. If available, an explosion meter should be used Lo
check for negative reading.
8. Perform required service work.
Page 438 of 1825
ENGINE FUEL 6C-7
Fig. 3 Fuel Filter Location
1. FUEL 1 2. BRACKET I
I
3. "0" RING
Fig. 4 Fuel Filter
PULSATOR
LOSE0 CELL FOAM SOUND
ISOLATOR SLEEVE
FUELLEVEL SENDER ROLLER
VANE FUEL PUMP
RUBBER SOUND INSULATOR
FILTER STRAINER FUEL GAGE SENDING UNIT WITH FUEL PUMP
Fig. 5 Fuel Pump