1987 NISSAN PULSAR check oil

Rear Suspension 167

NOTE: When a wheel bearing has been
removed from the hub it must be renewed.

(5) Press the new bearing into the hub, ensuring
that pressure is not exerted on the inner race of the
bearing and that the bearin g seal is not damaged. Do
not apply grease or oil to the mating surfaces of the
bearing and the hub.

NOTE: When installing the new bearing,
the press load must not exceed 3 tonnes.

(6) Inspect the snap ring for wear or cracks and
renew as necessary. Install the snap ring into the hub
ensuring that it is secur ely located in the groove.
(7) Apply multi-purpose grease to the bearing
sealing lip and install the hub as previously described.
4. SUSPENSION UNIT

Special Equipment Required:
To Dismantle — Spring compressor
TO REMOVE AND DISMANTLE
(1) On hatchback models, remove the rear par-
cel shelf and lower the rear seat backrests. Remove the
parcel shelf side panel re taining screws and remove
the relevant side panel.
(2) On sedan models, prise out the parcel shelf
retaining buttons using a suitable instrument and
withdraw the parcel shelf from the vehicle. If the rear
radio speakers are installed, remove the speaker grille
retaining screws and separate the speaker grilles from
the speakers prior to withdrawing the parcel shelf
from the vehicle. (3) Raise the rear of the vehicle and support it
on chassis stands as describe d in the Wheels and Tires
section. Remove the rear wheel from the vehicle.

View of the suspension unit with the spring compres-
sors installed.
(4) Remove the clip securing the brake hose to
the suspension unit and disengage the hose from the
suspension unit. (5) Support the weight of the knuckle assembly
and remove the bolts and nuts securing the suspension
unit to the knuckle assembly.
(6) Remove the nuts securing the suspension
unit to the body panel and maneuver the suspension
unit from the vehicle. (7) Thoroughly clean the suspension unit and
secure it in a soft jawed vice.
(8) Remove the dust cap from the upper mount-
ing and while holding the end of the piston rod with
an adjustable spanner, loosen the upper mounting
retaining nut. Do not re move the retaining nut.
(9) Using a suitable spring compressor, com-
press the coil spring and remove the upper mounting
retaining nut and washer. (10) Remove the upper mounting, insulator and
spring seat from th e suspension unit.
(11) Withdraw the upper insulator, coil spring,
lower insulator and dust cover from the suspension
unit. (12) Check the coil spring for cracks, deformation
and damage. Compare the free length with a new coil
spring and renew as necessary.
Location of the suspension unit retaining nuts. Hatch-
back model.

168 Rear Suspension
NOTE: If a coil spring is defective it is
advisable to renew both coil springs as a
matched set.

(13) Check the spring seat for cracks, deforma-
tion or wear and renew as necessary.
(14) Check the upper mounting and the insulator
for wear, damage, signs of melting rubber or deterio-
ration. (15) Check that the piston rod is not cracked,
bent or damaged.

Dismantled view of the suspension unit.
(16 ) Check the hydraulic operation of the suspen-
sion unit. With the suspension unit vertical, move the
piston rod up and down severa l times. A firm pressure
with no slack spots should be evident in both direc-
tions. Also check the suspen sion unit for fluid leakage.
If fluid leakage is present, renew the suspension unit,
preferably in pairs.

TO ASSEMBLE AND INSTAL
Assembly is a reversal of the dismantling proce-
dure with attention to the following points:

(1) Install the coil spring and lower insulator to
the suspension unit ensuring th at the flat end of the
spring is positioned at the top and the lower end of the
spring is located correctly in the suspension unit.

(2) Install the remaining co mponents to the sus-
pension unit, ensuring that the arrow on the spring
seat will be facing the stub axle when installed.
(3) Install a new upper mounting retaining nut,
tighten to the specified tor que and remove the spring
compressor. (4) Position the suspension unit inside the rear
wheel housing and maneuver the mounting studs
into position. With the aid of an assistant, install the
suspension unit retaining nuts and tighten to the
specified torque.

View of the suspension unit removed from the vehicle.
(5) Install the bolts securin g the suspension unit
to the knuckle assembly and tighten the nuts to the
specified torque.
(6) Install the brake hose to the suspension unit
and secure with the retaining clip. (7) Install the rear wheel and lower the vehicle to
the ground. (8) On hatchback models, install the parcel shelf
side panel and the parcel shelf. (9) On sedan models, install the parcel shelf and
insert the retaining buttons firmly. If removed, install
the radio speaker grilles.

Brakes 173
Inspect the handbrake cable for chafing or fraying.
(4) Seized handbrake cables: Renew the hand-
brake cables.

NOTE: Raise the vehicle and spin the
wheels one at a time to check for binding. If
the wheels are not binding, have an assistant
apply and release the brakes. Check if the
brakes release immediately. A clogged mas-
ter cylinder port will cause binding on the
two wheels fed by that particular circuit
from the master cylinder. Open the bleeder
valve on one of the o ffending wheels to check
if pressure build up is the cause of the
binding. A seized handbrake cable will usu-
ally cause binding on a rear wheel. Discon-
nect the handbrake cable and check if the
wheel will then turn freely.

LOW SPONGY BRAKE PEDAL
(1) Incorrectly adjusted brake shoes: Check and
adjust the brake shoes.


(2) Insufficient fluid in the system: Check for
leaks, replenish the fluid to the specified level and
bleed the hydraulic system.
(3) Air in the brake hydraulic system: Bleed the
hydraulic system. (4) Master cylinder faulty: Repair or renew as
necessary.
NOTE: A spongy brake pedal in most cases
is caused by air in the hydraulic system. For
air to enter the system one or more of the
sealing rubbers or brake lines must be
sucking in air. Always rectify the cause of
the trouble before bleeding the hydraulic
system. Faulty components usually show up
as fluid leakage.

BRAKES LOCK ON APPLICATION
(1) Gummy linings or brake pads due to oil or
fluid contamination: Renew the linings or brake pads
and rectify the source of contamination. (2) Scored or eccentric brake drum or warped
disc: Check and machine or renew the drum or disc as
necessary.
(3) Incorrect or distorted linings or disc pads:
Check and renew as necessary. (4) Brake servo unit faulty: Repair or renew the
brake servo unit. (5) Broken or stretched brake shoe return
springs: Check and renew th e faulty brake springs.
(6) Faulty brake pressure proportioning valve:
Renew the brake pressure proportioning valve.
NOTE: If this condition arises, remove all
the wheels and check the condition of the
friction material for oil contamination and
excessive wear. Check the shoe return
springs for stretching by comparing their
free length with new sp rings. An eccentric-
brake drum or warped disc will be indicated
by pulsating of the brake pedal when the
brakes are lightly applied.

BRAKE PEDAL PULSATES
(1) Eccentric brake drums or warped disc: Check
and machine or renew the drum or disc as required.
(2) Loose or worn hub bearings: Renew the hub
bearings as necessary.
NOTE: Brake drums or discs that are run-
ning out must be machined. This job is best
entrusted to a brake specialist who will also
be able to determine if a new disc or drum
needs to be installed.

BRAKE FADE
(1) Incorrect shoe adjustment: Check and adjust
the shoe to drum clearance. (2) Eccentric brake drum: Check and machine or
renew the brake drum.

Check the brake hoses for deterioration, chafing and
leaks.

190
ELECTRICAL SYSTEM
CAUTION: To prevent severe electrical shock extreme care must be taken when
working on or near the electronic ignition system as dangerous high tension voltages
are produced in both the primary and secondary circuits. See the text fo\
r
precautionary notes.

SPECIFICATIONS
BATTERY
Type ..................................................12 volt lead acid
Polarity to earth .................................... Negative ( - )
Specific gravity:
Fully charged ................................... A bove 1.250
Fully discharged ................................Below 1.130
ALTERNATOR
Make .................................................Bosch or Hitachi
Maximum output .......................................... 70 amps
Polarity to earth .................................... Negative ( - )
Stator windings ......................................... Star wound
Regulator type ................................................ Integral
Brush length minimum:
Bosch ........................................................ 5.0 mm
Hitachi ............................. 6.0 mm or limit mark
STARTER MOTOR
Make .................................................Hitach i or Bosch
Type ............................ 4 pole 4 brush reduction gear
Operation control.................................. Solenoid and
overrunning clutch
Undercut of commutator (maximum):
Hitachi ...................................................... 0.8 mm
Brush length (minimum):
Bosch ........................................................ 8.0 mm
Hitachi ........................................................11 mm
Brush spring tension;
Hitachi ............................................... 15.7-19.6 N
Hitachi:
Drive pinion stopper clearance ........ 0.3-1.5 mm
Selective fit adjuster plates ........ 0.5 and 0.8 mm
IGNITION SYSTEM
The ignition system is an integral part of the
engine management system. The Specifications, testing
and overhaul procedures are fully covered in the Fuel
and Engine Management section.

TORQUE WRENCH SETTINGS
Alternator pulley retaining nut:
Bosch ......................................................... 50 Nm
Hitachi ....................................................... 59 Nm
1. BATTERY AND CHARGING SYSTEM
TROUBLE SHOOTING

BATTERY UNDERCHARGED
3. Loose or broken drive belt: Adjust or renew
the drive belt. 4. Faulty alternator regulator; Renew the regu-
lator unit.
5. Faulty battery: Install a new battery of
the
recommended type and capacity. 6. Faulty alternator: Overhaul or renew the
alternator. 7. Fault in the charging circuit wiring: Check
and repair or renew the wiring harness. 8. Faulty connections in the charging circuit:
Check and repair the connections. 9. Fusible link blown; Rectify the fault and
renew as necessary.
NOTE: Check the state of charge (specific
gravity) of the battery- as described under
the
Battery heading in this section. If the battery
is undercharged, check the possible causes in
the order given.

BATTERY OVERCHARGED
• Faulty alternator regulator unit:
Renew the
regulator unit.
• Faulty alternator: Overhaul or
renew the
alternator. • Faulty charging circuit wiring or
connec-
tions: Check and renew or repair the faulty
compo-
nents.
NOTE: An overcharged battery is indicated
by continual loss of water through boiling.

Electrical System 199


Dismantled view of the Hitachi alternator.
nuts, remove the fan guide and unsolder the diode
pack and regulator from the stator.

NOTE: When soldering or unsoldering the
stator leads or bridges from the diodes or
regulator, grip the leads with a pair of long
nosed pliers. This will safeguard the diodes
by transferring any excess heat to the jaws of
the pliers.

TO CLEAN PARTS
Do not immerse components of the alterna-
tor in cleaning solvents as damage to the windings will
result. Thoroughly clean and dry the end brackets in
a suitable solvent after they have been completely
dismantled from the unit. Compressed air can be carefully used to blow
the dust from the stator windings and the field
winding on the rotor. Slip rings that are burned or scored should be
polished using very fine glass paper. Clean the brushes and the brush holders
using a petrol dampened rag. Check and remove any
burrs from the holder. Check the rotor shaft bearings for wear and
roughness and renew as necessary.
TO CHECK AND TEST COMPONENT
PARTS

All parts being electrically tested should be resting
on a non-conductive pad.

Field Windings and Rotor Assembly
The insulation to earth test is done with an
ohmmeter. Connect one of the test prods to one of the
field wires or s l i p rings and the other test prod to one
pole piece of the rotor. If the ohmmeter shows a reading and no
visual earthing can be seen and rectified, a new rotor
assembly will have to be installed. To check for bridged or internal shorting of
the field coils, connect the te st prods of an ohmmeter
across the slip rings and check the resistance of the
rotor windings. Compare the readings with Specifica-
tions. A low reading i ndicates a bridged circuit
OHMMETER
Checking the rotor windings for shorts to earth.

Electrical System 201
nosed pliers. This will safeguard the diodes
by transferring any excess heat to the jaws of
the pliers.

Using a suitable drift, install the bearing into
the drive end bracket, install the retainer plate and
screws. Tighten the screws securely. Using a suitable press and press plates, install
the bearing to the slip ring end of the rotor shaft.
Ensure that pressure is ex erted only on the inner race
and that the stop ring groove is nearest to the sl i p
rings. Ensure that the rotor sh aft rear bearing stop
ring is positioned so that the protruding part of the
ring is located in the deepest part of the groove. Install the stator, diode pack and
regulator
assembly to the slip ring e nd bracket. Install the
retaining nuts and washers and tighten securely. Install the nut and insulator to the terminal
and tighten securely. Using a piece of wire, hold the brushes in a
retracted position. Hold the drive end bracket in a soft jawed
vice and install the rotor shaft assembly to the drive
end bracket. Install the pulley, retaining nut and washer to
the rotor shaft and tighten the retaining nut to the
specified torque. Apply a heated 200 watt soldering iron to the
slip ring end bracket at the bearing mounting boss for
3-4 minutes to heat the bracket and allow the
installation of the rotor shaft rear bearing. Aligning the marks made on dismantling and
ensuring that the rotor sh aft rear bearing retaining
ring protrusion is located in the deepest part of its
groove, install the rotor/stator assembly to the slip ring
end bracket.
Remove the brush retr acting wire from the
alternator, ensure that the alternator component
marks are aligned, install the retaining through bolts
and tighten them securely. Check the alternator rotor for smooth oper-
ation and install the al ternator to the vehicle
as
previously described.
Check the alternator operation on the vehicle
as previously described.
8. STARTER MOTOR
Special Equipment Required:
To Renew Brushes — Soldering iron
To Renew Armature Bearings — Bearing puller
DESCRIPTION
Two types of starter motors are installed to the
range of vehicles covere d by this manual, either
Hitachi or Bosch.

The starter motor is the induced pole type with
four brushes and four pole shoes with field coils.

A solenoid switch is attached to the starter drive
end bracket. The solenoid plunger is connected to
the overrunning clutch and drive pinion assembly
through a lever and pivot arrangement.

When the solenoid windings are energized, the
plunger acting on the lever and pivot engages the drive
pinion with the flywheel ri ng gear and at the same
time closes the switch supplying power from the
positive lead of the battery to the starter motor field
coils and armature to operate the motor.

As the engine fires, the over-running clutch of the
drive pinion assembly prevents high speed rotation of.
and possible damage to, the starter armature if the
solenoid windings are not immediately de-energized
by releasing the ignition key.

The starter solenoid switch windings are energized
by the ignition switch.

TO TEST ON VEHICLE
Should the starter motor fail to operate when the
ignition switch is turned to the Start position, check
the following points:

Check the battery condition and state of
charge. Refer to the Battery heading for the correct
procedure.
Clean the battery terminals, taking particular
care to remove the scale from the positive ( + )
terminal post and terminal. Check the earth connection for tightness and
cleanliness.
Switch on the headlamps and turn the igni-
tion switch to Start. If the lamps dim but the starter
motor does not operate, it could indicate that a short
circuit has developed in the starting system. Check that the engine is not seized or that the
starter motor drive pinion and ring gear are not
locked as these conditions would -give the same
indications as above.

(5) If the lamps do not dim and the starter
motor does not operate, this would indicate an open
circuit such as a broken or disconnected wire or a
switch not operating.

If the vehicle is equipped with an automatic
transaxle, turn the ignition switch to Start and move
the selector lever through all the gear selection range.
If the starter motor operates in any position other
than N or P, the neutral safety switch is faulty.

(6) Check all the external wiring to ensure that
the fault is not external. If the external circuit proves
satisfactory, indicating that the problem is in the
starter motor, the unit will have to be removed and
tested.

TO REMOVE AND INSTAL
Disconnect the negative battery terminal.
Disconnect the wiring from the starter motor
solenoid. Remove the starter motor mounting bolts,

202 Electrical System


View of the Bosch starter motor removed from the
vehicle.
noting the position of the earth cable, and maneuver
the starter motor out of the engine compartment.

Installation is a reversal of the removal procedure
with attention to the following points:

Replace the earth cable to the position noted
on removal.
Tighten the starter motor mounting bolts
securely.
HITACHI STARTER MOTOR

To Dismantle
Remove the starter motor from the vehicle
as previously described. Mount the starter motor upright in a soft
jawed vice gripping the drive end bracket. Loosen the solenoid field coil terminal nut
and disconnect the cable from the solenoid.
Scribe a line across the drive end bracket,
yoke and end cover to facilitate correct alignment
during assembly. Remove the bolts retaining the end cover
and yoke to the drive end bracket and remove the end
cover from the yoke. Remove the yoke, armature and brush
holder as an assembly from the drive end bracket.
Note the position of the O ring sealing the yoke. Release the brush spri ngs and separate the
brushes from the brush holder. Remove the brush holder from the yoke.
Separate the armature from the yoke.
Scribe a line across the solenoid and the
drive end bracket to facilitate correct alignment
during assembly. Remove the solenoid retaining bolts and lift
the solenoid, spring, lever an d rubber seal out of the
drive end bracket. Note the installed position of the
components. Mount the drive end bracket in the vice with
the pinion uppermost and Remove the screws retaining
the pinion housing to the drive end bracket. Remove the pinion housing from the drive
end bracket,
Remove the pinion assembly from the drive
end bracket, Mount the pinion in the vice, hold the collar
down and remove the snap ring from the end of the
pinion. Remove the collar and spring from the
pinion and slide the pinion out of the clutch assembly. If necessary, prise the bearings off the clutch
assembly using two screwdri vers. Note the location of
the larger bearing. If necessary, remove the bearings from the
armature using a bearing puller.
To Check and Inspect

Clean all the starter motor components thor-
oughly but do not immerse the yoke, armature or
clutch assembly in cleaning solvent.
Check the brush holder insulation using an
ohmmeter. Connect one test probe to the brush holder
positive side and the other test probe to the negative
side. If continuity exists , renew the brush holder.

Check the brushes for adequate length. Re-
new the brushes if they are worn to less than the
length listed in Specifications. The brushes should be
a free sliding fit in the brush holders. Check the brush
springs for adequate tension.
Check the field coil continuity using an
ohmmeter. Connect one test probe to the positive
brush and the other test probe to the solenoid cable
terminal. If continuity does not exist, renew the field
coils.
View of the Hitachi starter motor removed from the
vehicle
.

Electrical System 203
BRUSH HOLDER
Dismantled view of the Hitachi starter motor.
Check the field coil insulation using an
ohmmeter. Connect one test probe to the solenoid
cable terminal and the other test probe to the body of
the yoke. If continuity exists, renew the field coils. Check that the commutator is free from
pitting and burning. Clean the commutator with a
petrol moistened cloth and polish with a strip of fine
glass paper.
A badly worn commutator may be repaired by
mounting in a lathe and taking a light cut using a very
sharp tool with the lathe rotating at high speed. After
machining, undercut the insulation between the seg-
ments to Specifications. Do not machine the commu-
tator to below 29 mm diameter. Check the armature
gear teeth for wear and damage.

Check the armature for short circuit using an
ohmmeter. Place one of the test probes on the
armature shaft or core and move the other test probe
around the periphery of the commutator. If continuity
exists at any point, the armature is faulty and should
be renewed. Check the pinion for wear and damage. The
pinion should move smoothl y along the clutch assem-
bly helical splines. Check the spring, collar and snap
ring for serviceability.
Check that the clutch assembly locks in one
direction and rotates smoothly in the opposite direc-
tion. Check for wear and damage to the reduction gear
teeth on the outside of the clutch assembly.
Check that continuity exists between the
solenoid spade terminal and the solenoid body and
between the solenoid spade terminal and the solenoid
field coil terminal. Renew the solenoid if continuity
does not exist. Renew all the components found to be
unserviceable in the above checks.
To Assemble

Assembly is a reversal of the dismantling proce-
dure with attention to the following points:

(1) If removed, install new bearings to the clutch
assembly and the armature. Lubricate the armature
bearings with high temperature grease.

The sealed bearings on the clutch assembly are
lubricated during manufacture and further lubrication
is unnecessary.

Apply high temperature grease to the yoke
end cover bearing recess, the drive end bracket and
pinion housing bearing recesses, the clutch assembly
reduction gear teeth, the armature gear teeth, the
pinion helical splines, th e solenoid plunger and the
spring and lever. Install the pinion to the clutch assembly and
install the spring and collar to the pinion. Hold the collar down and install the snap ring
to the end of the pinion.
Position the collar over the snap ring. If
necessary, squeeze the snap ring into the groove using
multigrip pliers to enable the collar to be clipped over
the snap ring. Install the pinion and clutch assembly to the
drive end bracket.
Install the pinion housing to the drive end
bracket. Install and tighten the retaining screws
se-
curely. Check that the pinion rotates freely.
Assemble the lever and spring to the solenoid
in the position noted on dismantling.
Install the solenoid assembly and rubber seal
to the drive end bracket.
Install and tighten the solenoid retaining
bolts securely. Connect 12 volts between the solenoid spade
terminal and the solenoid field coil terminal and
measure the distance that the end of the pinion
protrudes from the pinion housing. Pull the pinion by hand until it contacts the stop
and measure the pinion end protrusion.

If necessary, add or subt ract shims between the
solenoid mounting face and the drive end bracket
until the difference between the above measurements
is 0.3-1.5 mm.

Install the armature to the yoke.
Install the brush holder to the yoke. Install
the
PLUNGER
O RING