stop start DATSUN 210 1979 User Guide

REMOVAL
AND

INSTALLATION

Disconnect

battery
ground
cable

Disconnect
harness

connector
and

battery
cable

at

magnetic
switch

2
Remove

bolts

securing
starting

motor
to
transmission

case
Pull

start

iog
motor

forward
and

remove
it

3
Inst
1I

starting
motor
in

reverse

order
of

removal

DISASSEMBLY

NON
REDUCTION
GEAR

TYPE

I
Disconnect

connecting
plate
from

M

terminal
of

magnetic
switch
Re

move
two

screws

securing
magnetic

switch
and
remove

magnetic
switch

assembly

2
Remove

dust
cover
E

ring
and

thrust
washer
s

EE311
@@

O

Fig
EE

8
Removing
DUll
Cover

E

ring
and
ThrUJJt

Washer

3
Remove
two
screws

securing

brush
holder

assembly

EE318

Fig
EE

9
Removing
Bru
h
Hold

Setacrews
Engine
Electrical

ystem

4
Remove
two
ihrough
bolts
and

rear
cover

5
Remove

brushes
from
their

hold

er

by
moving
each
brush

spring
away

from
brush
with
a
hook

Remove

brush
holder

6
Remove

yoke
assembly
and
with

draw

armature
assembly
and
shift

lever

7
Remove

pinion
stopper
located
at

the
end
of
armature
shaft
To
remove

stopper
first
move

stopper
toward

pinion
and
after

removing
stopper
clip

remove

stopper
with

overruniling

clutch
assembly
from
armature
shaft

EE271

Fig
EE

lg
Rf

moving
Pinion

Stopper

REDUCTION
GEAR
TYPE

1

Disconnect

connecting
plate
from

M
terminal
of

magnetic
switch
Re

move
two
screws

securing
magnetic

switch
and
remove

magnetic
switch

assembly

Note

Torsion

spring
can
be

pulled
off

magnetic
switch

2
Remove

through
baIts
and
rea

cover

Note

Rear
cover
can
be

pried
off
with

a
f1at
blade
screwdriver
inserted
be

tween
it

and

yoke
Be

careful
not

to
damage

packing
while

removing

reaf
cover

3
Remove

yoke
armature
and

brush
holder
as

an
assembly
from

center

housing

CAUTION

When

removing
be
careful
not
to

knock
brush
commutator
or
coil

against
any
adjacent
part

EE
6
o

7

EE615

Fig
EE
ll

Removing
Yo
and

Armature

4
To

remove
brush
holders

proceed

as
follows

I
Remove

brush
on

positive
side

from
its
holder

Note
Brush
on

positive
side
differs
in

that
it
is
isolated
from
brush
holder

and
its

lead
wire
is
connected
to

field
coil

2

Carefully
lifting
brush
on

nega

tive
side

away
from
commutator
sur

face
remove
it

from
brush
holder

EE616

Fig
EE
12

Removing
Br
h

5
Remove
bolts

securing
center

housing
to

gear
case
and
detach
center

housing

6
Remove

pinion

gear

CLEANING
AND

INSPECTION

Clean

all
disassembled

parts
but
do

not
use

grease
dissolving
solvents
for

cleaning
overrunning
clutch
armature

assembly
magnetic
switch

assembly

and
field
coils
since
such
a

solvent

would
dissolve

grease
packed
in
clutch

mechanism
and
would

damage
coils
or

other
insulators

Check
them
for
excessive

damage

or
wear
and

replace
if

necessary

Starting
motor

S

DIAGNOSES
OF
TEST

I
Low

speed
with
no
load
and

high

current
draw

may
result
from
the

following

I
Tight
dirty
or
worn

bearings

2
Bent

armature
shaft
or

loosened

field

probe

3
Shorted
armature

Check
armature
further

4
A

grounded
armature
or
field

a
Remove

input
terminal

b
Raise
two

negative
side
brushes

from
commutator

c

Using
a
circuit

tester

place
one

probe
onto

input
terminal
and
the

other

onto

yoke

d
If

tester
indicates

continuity

raise

the
other
two
brushes
and
check

field

and
armature

separately
to
deter

mine

whether
field
or

armature
is

grounded

2
Failure
to

operate
with

high
cur

rent

draw
may
be

caused

by
the

following

I
A

grounded
or

open
field
coil

Inspect
the
connection
and

trace

circuit

with
a
circuit
tester

2
Armature
coil
does
not

operate

Inspect
commutator
for
excessive

burning
In
this

case
arc

may
occur
on

damaged
commutator
when
motor
is

operated
with
no
load

3

Burned
out

commutator
bar

Weak

brush

spring
tension
broken
Engine
Electrical

System

Switch

Battery

Vultmeter
Ammeter

EE738

Fig
EE

22
No
load

Testing

brush

spring
rubber
bush
thrust
out

of
mica

in

commuta
tor
or
a

loose

contact
between
brush
and

conunuta

tor
would
cause
commutator
bar

to

burn

3
Low
current

draw
and
low

no

load

speed
would

cause

high
internal

resistance
due
to
loose

connections

damaged
leads

dirty
commutator
and

causes
listed
on
item
2
3

MAGNETIC

SWITCH

ASSEMBLY
TEST

Switch

2

1
6

11

p
IB
b

I

Battery
Starter
motor

EE351

Fig
EE

23
Circuit

of
Magnetic

Switch

Assembly
Test

If
the

starting
motor

check
is

OK
check

magnetic
switch
assem

bly
Connect

cables
between

negative

battery
terminal

and
start

ing
motor
M

terminal

positive

battery
terminal

and

starting
motor

8
terminal

connecting
a

switch
in

series

as
shown
above

EE
9
Non
reduction

gear
type

With
the
switch

on

push
pinion

back
to
remove
all

slack
and
measure

the
clearance
between

pinion

front

edge
and

pinion
stopper

Clearance
L

0
3

to
2
5
mm

0
012
to
0

098
in

EE644

Fig
EE
24

Measuring
Clearance

l

Reduction

gear
type

Compare
difference
2
in

height

of

pinion
when
it
is

pushed
out

with

magnetic
switch
energized
and
when
it

is

pulled
out

by
hand
until
it
touches

stopper

Difference

L

0
3

to
1
5

mm

0
012
to
0
059
in

Pull

out

by

hand
until

pinion
stops
Push
out

1

1

n

11

r

L

Difference
EE688

Fig
EE
25

Measuri
g
Difference
L

If

necessary

adjust
it

by

changing

or

adding

adjusting
washer
s

Adjust

ing
washers
are
available

into

two

different
sizes
0
5

mm
0

020
in
and

0

8
mm
0
031

in

Engine
Electrical

System

STARTING
MOTOR

Type
S1I4
160B

I
Sl14
163E

S114
253

Outer
diameter
of
commutator

mm
in
More
than
32
1
26
More
than

29
L14

Minimum

length
of
brush
mm
in
12

0
47
II

0
43

Brush

spring
tension

kg
Ib
1
4

to
1
8

3
1
to
4

0
1
6to
2
0

3
5
to
4
4

Clearance
between

bearing
metal
and

armature
shaft
mm

in
Less
than
0
2

0
008

Clearance
R
between

pinion
front

edge
and

pinioIl
stopper
mm
in
0
3
to

2
5
0
012
to

0
098

Difference
T
in

height
of

pinion

nun
in
0
3
to

1
5

0
012
to
0
059

ALTERNATOR

Type
LRI5049

Minimum

length
of

brush
mm

in
More
than
7
5

0
295

Brush

spring
pressure

gr
oz
255
to
345
8
99
to
12
17

Slip

ring
outer
diameter
nun
in

More
than
30
1
18

DISTRIBUTOR

Air

gap
mm
in
D4K8
19

I
D4K8
l3

I
D4K8
18

I
D4K8
02
D4K8
15

I
D4K8
16

0
3

to
0
5
0

012
to
0
020
Type

Cap
il1s
ation
resistance

M
1
More
than
50

Rotor
head
insulation

resistance
Mil
More
than
50

Cap
carbon

point
length

mm
in
10
0
39

Vacuum
advance
0
105
4
13

0
170
6
69
0
80

3
15
0
105
4
13

0
70
2

76
0
170
6
69

Distributor
degree
distributor
9

250
3

225
12
265
9
300
15

300
6
5
300

mmHg
inHg
9
84
8
86
10
43
11
81
11

81

11
81

Centrifugal
advance

0
550
6
550
0
550
0
550
0
750

0
750

Distributor

degree
distributor

14
2
300
14
2

300
13
5
2
400
13
5

2
400
10
2
400
10
2
400

rpm

EE

32

Condition

Clutch

slips

Clutch

drags
Clutch

TROUBLE

DIAGNOSES
AND

CORRECTIONS

Probable

cause
and

testing
Corrective
action

Slipping
of
clutch

may
be
noticeable

when

any
of
the

following
symptoms
is

encountered

during
operation

I
Car
will
not

respond
to

erigine
speed
during
acceleration

2
Insufficient

car

speed

3
Lack
of

power

during
uphill

driving

Some
of
the

above
conditions

may
also
be
attributable
to

engine
problem
First
determine

whether

engine
or
clutch
is

causing
the

problem

If

slipping
clutch
is

left
unheeded
wear

and
or

overheating
will
occur
on
clutch

facing
to
such

an
extent
that
it
is

no

longer
serviceable

TO

TEST
FOR
SLIPPING
CLurCH

proceed
as
follows

During
upgrade
havelling
run

engine
at

about
40
to
50

km
h
25
to
31
MPH

with

gear
shift

lever
in

3rd
speed
position
shift
into

highest

gear
and
t
the
same
time

rev

up
engine
If
clutch

is

slipping
car
willnot

readily
respond
to

depression
of
accelerator

pedal

Clutch

facing
warn

excessively

Oil
or

grease
on
clutch

facing

Warped
clutch

cover
or

pressure
plate
Replace

Replace

Repair
or

replace

Dragging
clu

tch
is

particularly
noticeable

when

shifting

gears
especially
into

low

gear

TO
TEST
FOR

DRAGGING
CLurCH

proceed
as
follows

I
Start

engine

Disengage
clutch
Shift
into

reverse

gear
and
then
into
Neutral

Gradually

increase

engine

speed
and

again
shift
into
reverse

gear
If
clutch
is

dragging
gear
grating

is
heard
when

shifting

gears
from
Neutral
into

Reverse

2

Stop
engine
and
shift

gears
Conduct
this
test
at
each

gear
position

3
In

step
2

gears
are
shifted

smoothly

except
1st

speed
position
at

idling

a
If

dragging
is

encountered

at
the
end
of

shifting
check
condition
of

synchro

mechanism
in

transmission

b
If

dragging
is
encountered
at
the

beginning
of

shifting
proceed
to

step
4

below

4

Push

change
lever
toward
Reverse
ide

depress
pedal
to
check
for
free

travel
of

pedal

a
If

pedal
can
be

depressed
further
check
clutch
for

condition

b
If

pedal
cannot
be

depressed
further

proceed
to

step
5

below

5
Check

clutch
control

pedal
height
pedal
free

play
free

travel
withdrawal
lever

play
etc

If

any
abnormal

condition
does
not
exist
and
if

pedal
cannot
be

depressed
further
check

clutch
for

condition

Clutch
disc

runout
or

warped

Wear
or
rust

on
hub

splines
in

clutch

disc

Diaphragm
spring
toe

height
out
of

adjustment
or
toe

tip
worn

Worn

or

improperly
installed

parts
Replace

Clean
and
lubricate

with

grease
or

replace

Adjust
or
replace

Repair
or

replace

CL12

TIGHTENING

TORQUE

Ball

pin

Striking
lever

lock
nut

S
llft
arm
bracket

Mainshaft

bearing
retainer

screw

Mainshaft

lock
nut

Rear
extension

installation
bolt

Stopper

pin
bolt

Front

cover
installation

bolt

Speedometer
sleeve
lock

ing
plate
bolt

Top
detecting
switch

Reverse

lamp
switch

Neutral
switch

Return

spring
plug

Gear
oil

filler

plug

Gear
oil
drain

plug

Transmission
to

engine

installation
bolt

Tr

msmissiori
to

engihe

rear

plate
installation
bolt

Transmission

to

gusset

installation
bolt

Starting
motor
to

trans

inissi
n
installation
bolt

Rear

mounting
insulator
to

transmission
installation
bolt

Crossmember

mounting

bolt

Rear

engine
mount

installation
bolt

Clutch

operating
cylinder

installation
bolt

Propeller
shaft
to

differential
carrier

Control
lever

pin

installation
nut

Exhaust

mounting
bracket

to
exhaust
front
tube

FU
model

only
Manual
Transmission

F4W60L

2
0
to
3
0

14
to
22

0
9

to
1
2

6
5
to
8
7

0
7
to

1
0
5
1
to
7
2

1
6
to
2
2
12
to
16

0
5
to
0

8
3
6
to
5
8

1
0

to
1

6
7

to
12

0
3
to
0
5
2
2
to

3
6

2
0
to
3
5
14
to
25

2

0
to

3
5
14
to
25

0
5
to

1
0
3
6
to
7
2

2
5
to

4
0
18
to

29

2
5

to
4

0

18
to

29

1

6
to
2
2

12Jo
16

1

6
to
2
2
12

t
16

4
6
to

6
1
33

to
44

3

0
to
4
0
22
to
29

0
9

to
1

2
6
5
to
8
7

3
2

to
4
3
23

to
31

0
9

to
1
2
6
5
to

8
7

3
1

to
4
1

22
to
30

2
4

to
3
3

17
to
24

1
3

to
1
7
9

to
12

3
2

to
4
3
23
to
31

MT33
Unit

kg
m
ft
lb

FS5W60L

2
0

to
3

0
14
to
22

0
9
to

1
2
6
5
to
8
7

8
2

to
10

0
59
to

72

0
8
to
1
3
5
8
to
9

4

10
0

to
11
0
72
to
80

1
6
to
2
2
12
to
16

1

0
to
1

6
7
to
12

0
3
to
0
5
2
2
to
3

6

2

0
to

3
5
14
to
25

2
0

to
3
5

14
to
25

2
0

to
3
5

14
to
25

0
5
to
1
0
3
6
to
7
2

2
5
to
4
0
18
to
29

i
5
to
4

0

18
to
29

1

6
to
2
2
12
to
16

1

6
to
2

2
12
to
16

4

6
to
6
1
33
to
44

3
0

to
4

0
22
to
29

0
9
to
1
2
6
5
to
8
7

3
2
to
4
3

23
to
31

0

9
to
1
2

6
5
to
8
7

3
1
to
4
1
22
to
30

2
4
to

3
3
17
to
24

1
3
to
1
7
9
to

12

3
2
to

4
3
23
to
31

with
the

pin
hole
of
the
internal

rotor

combined
with
the
manual

shaft
and

check
their

alignment
by

inserting
a

1
5
mm
0
059
in
diameter

pin
into

the

holes
If
the

alignment
is

correct

fasten
the
switch

body
with
the
bolts

pull
out
the

pin
tighten
up
the
screw

in

the
hole
and
fasten

the
selector

lever
as
before
Check

the

continuity

pin
with
the
lesler
If

Ihe
malfunc

tion
still
remains

replace
the
inhibitor

switch

STALL
TEST

The

purpose
of
this
test
is
to
check

the
transmission
and

engine
for
trou

ble

by
measuring
the
maximum
num

bers
of
revoiutions
o
the

cngine
while

vehicle
is
held
in

a
stalled

condition

The
carburetor
is
in

fullthrollle

opera

tion
with
the
selector
lever
in

ranges

1
2
and
I

respectively
Com

pale
the
measured

results
with
the

standard

values

Components
to
be
tested
and

test
itelJUl

I

Clutches
brake
and
band
in
trans

mission
for

slipping

2

Torque
converter
for

proper
func

tioning

3

Engine
for
overall

properly

STAU

TEST
PROCEDURES

Before

testing
check
the

engine
oil

and

torque
converter

oil
warm

up
the

engine

cooling
w

ter
to

suitable
tem

perature
by

running
at
1
200

rpm
with

the

selector
lever
in
the

range
P

for

sevcral
minutes

Warm

up
the

torque

converter
oil

to
suitable

temperature

60
to
lOOoC

140
to
2120F

I

Mount
the

engine

tachometer
at
a

location
that

allows

good
visibility

from

the
driver

s
seat
and

put
a
mark

on

specified
revolutions

on
the

meter

2

Secure
the
front
and
rear
wheels

with
chocks

and

apply
the
hand

brake

Be
SIIre

to

depress
the
brake

pedal

firmly
with
the
left
foot
before
de

pressing
the

accelerator

pedal

3
Throw
the

selector
lever
into
the

range
11

4

Slowly

depress
the

accelerator

pedal
until
the

throttle
valvc
is

fully
Automatic

Transmission

opened
Quickly
read
and

record

the

engine
revolution

when
the

engine

begins
to
rotate

steadily
and
then

release
the
accelerator

pedal

5
Shift
the
selector
lever

to
N

and

operate
the

engine
at

approxi

mately
1
200
rpm
for
more
than
one

minute
to
cool

down
the

torque
con

verter
oil
and
coolant

6
Make
similar
staU
tests
in

ranges

2
I
and
R

CAUTION

The

dill
test

operstion
81

specified
in

i18m
4

should
be

I118de
within

fiv

lIeonds

If
it
tBkes
too

long
the

oil

If

and
the
cluti
hn
blllke

and
b
nd

elll

ly
I
Suf

ficient

cooling
time
should

be

given

r

eech
test
for
the
four

IlInges

0
Z
1
end
R

JUDGEMENT

High
stall
revolution

more
than

staitdard
revolution

If
the

engine
levolulion
in

stall

condi
ion
is

higher
than
the
standard

values
it
indicates

that
onc
or
more

clutches
in
the

transmission
are

slipping
and
therefore
no

further
test

is

required

For
the

following
abnormalities

the

respective
causes
are

presumed

High
rpm
in

all

ranges
low
line

pr
ssure

High
rpm
in
0

2
and
I

and

normal

rpm
in
6R

Rear
clutch

slipping

High
rpm
in
D

and
2
and

normal

rpm
in

One

way

clutch

slipping

High
Ipm
in
R

only
Front

clutch
or
low

and
reverse
brake

slipping

To

determine
which
is

slipping

front

clutch
or
low
and
reverse

brake

a
road

test
is

needed

If
while

coasting
after

starting

with
the
levcr
in
I

range
engine

braking
does
not

work

properly
the

low

and
reverse
brake
is

slipping

Otherwise
the
front
clutch
is

slipping

Slipping
of
the
band
brake
is
diffi

cuJt
to
ascertain

However
jf
it

occurs

with

the
lever
in
1

range
engine

AT
41
revolution
increases

up
to
the
same

level

as
in
1st

range
It

is

impossible

to

check
it
in
the

stall
test

2
Standard
stall
rnoluiion

If
the

engine
revoluiion
in

stall

ondition
is
within

he
standard

values
the
control
elements
are

nOf

mally

operating
in

the

ranges
D

2n
I

and
R

Also
the

engine
and
one

way

clutch
of
the

torque
converter
are

norinal
in

performance
and

operation

The

one

way
clutch

of
the

torque

converter

however
sometimes

sticks

This
is
determined

in
the
road

test

3

Lower

stall
revolution
than
lIand

ard

revolution

If

the

engine
revolution
in

stall

condition
is

lower
than
the

standard

values
it

indicates
that
the

engine
is
in

abnormal

condition
or
the

torque
con

verter
s
one

way
clutch
is

slipping

4
O
hers

I
If

the

accelerating
performance

is

poor
until
vehicle

speed
of

approxi

mately
SO

kmfh
30
MPH
is
attained

and
then
normal

beyond
that

speed
it

can
be

judged
that
the

torque
con

verte
c

s
one

way
clutch
is

slipping

2

If
the

torque
converter

sane

way
dutch
sticks

vehicle

speed
can

not

exceed

approximately
80

kmfh

SO
MPH
in
the

road
tesl

In
such

a

case
the

torque
converter

oil
tem

perature
rises

abnormally
and
so

special
care
is

required

3
If
the

transmission
does
not

op

erate

properly
at
all
vehicle

speeds
it

indicates

poor
engine
performance

ROAD

TEST

An

accurate

knowledge
of
the
au
to

matic

transmission
is

required
for
an

exact

diagnosis

II
is

recommended
that
a

diagnosis

guide
chart
with
the
standard

vehicle

speeds
for
each

stage
of

the

up
and

down

shiftings
be

prepared
Measured

vehicle

speeds
are
to

be
filled
in

the

adjoining
column
after
each

testing

Also
it

is
advisable
to

mount

a

stopper
for

positioning
the
throttle

opening

BRAKE

BOOSTE
R

INSPECTION
OF

OPERATION

Checking
vecuum

pressure

I

Connect
a

vacuum

gauge
in
the

tine
between
check
velve

and
brake

booster

1
Check
valVe

2

Vacuum
gauge

BA942

Fig
BR
26
Air

Tighte
Te
Set

Up

Probable
cause

Air

leakage
at

check
valve

2
Air

leakage
at

push
rod

seal

3
Air

leakage
between
valve

body
and

seal

4
Air

leakage
at
valve

plunger
seat

5

Damaged
piping
or

joints

Air

tight
test
Under
loed

Fifteen

seconds
after

engine
is

stopped
and

brake

fully

applied
ob

serve
the
rate

of

drop
in
air

pressure

registered
by
vacuum

gauge
If

vacuum

Probable
cause

Air

leakage
at
check
valve

2

Damaged
diaphragm

3
Reaction

disc

dropped
off

4

Air

leakage
at

poppet
assembly
seat

and
valve

body

Inspec
tinK
chec
k
valve

Remove

clip
and
disconnect
hoses
Brake

System

2
Start

engine
end
merease

engine

speed
Stop

engine
when

vacuum

gauge
indicates
500

mmHg
l9
69

inHg

Air

tiKht
test

No
load

Fifteen
seconds
after

engine
is

stopped
observe
the
rate

of

drop
in
air

pressure
registered
by
vacuum

gauge

If
vacuum

pressure
drop
below
the

specified
value
refer
to

the

following

chart
to
determine
the

cause
of

failure

Maximum
vacuum

leakage

25

mmHg
0
98

inHgl

Corrective
action

Replace
check
valve

Replace
brake
booster
as
an

assembly

Repair
or

replace

pressure
drops
below
the

specified

value
refer
to
the

following
chart

to
determine
the
cause
of
failure

Maximum

vacuum

leakage

25
mmHg
0
98

inHgl

Corrective
action

Replace
check
valve

Replace
brake
booster
as
an

assembly

at
connections
The
check
valve
can

now
be
removed

BR
12
JQeL

i
l
f

BR119A

Fis
BR
27
Location

of
Check
Valllt

2

Using
a
brake

booster
testel

apply
a
vacuum

pressure
of
500

mmHg

19
69

inHg
to
the

port
of
check

valve
on
the
brake
booster
side
If

vacuum

pressure
drops
below
the

specified
value
in
15

seconds

replace

check
valve
with
a
new
one

Maximum

vacuum

leakage

01
eheck
valn

10

mmHg
0
39

inHgl

3
When

pressure
is

applied
to
the

b

rake
booster
side
of
check
valve
and

valve
does
not

open
replace
check

valve
with
a

new
one

I

0

tLLiJ

Manifold
side
Brake
booster
side

1

Spring

2

Valve
BR963

Fig
BR
28

Check
Value

4
When

installing
check

valve
be

careful
to
avoid

incorrect
connectiolU

See

Fig
DR
28

Operetlns
test

1
Connect

an
oil

pressure
gauge
to

brake

ine
at
connection

on
master

cylinder

2
Install

a

pedal
force

gauge
on

brake

pedal

3
Start

engine
end

increase

engine

speed
until
a
vacuum

pressure
of

500

mmHg

19
69

inHg
is

registered
on

vacuum

pressure
gauge
With

a

steady

vacuum

pressure
of
500

mmHg
19
69

inHg
measure
oil

pressure
with
res

pect
to
each

pedal

operating
force

Engine
Control
Fuel
Exhaust

SYlltems

ENGINE
CONTROL
SYSTEM

ACCELERATOR
CONTROL
SYSTEM

@

s

1

Acce
i
ator

pedal

2
Accelerator

pedal
arm

3

Stopper
bolt

4

Stopper
lock
nut

S

Kickdown
switch
striker

Automatic
transmission

models

only

6
Accelerator
wire
outer
case

1
Accelerator
wire
socket

8
Accelerator

inner
wire

9

Accelerator

pedal
bracket

and
return

spring

10
Kickdown
switch

11
Accelerator

pedal
stopper
rubber

12
Accelerator

pedal
stopper
bracket

H

109
mm
4
29
in

REMOVAL
AND

INSTALLATION

Accelerator
wI
e

I
Disconnect
accelerator
wire
from

carburetor

2
Remove

snap
pin
from

tip
of

pedal
arm
then
disconnect
wire

from

accelerator

pedal
arm

3
Remove

accelerator

pedal

stopper

bracket
from
dash

panel
and

pull
into

driver

compartment

4

To
install
reverse
order
of
Ie

moval

Accelerator

pedal
a

embly

I

Disconnect
accelerator
wire
at

tip

of
accelerator

pedal
arm

2

Remove
screws

securing
accel

erator

pedal
bracket

to

body

3

Remove
accelerator

pedal
from

dash

panel

4

To
install

reverse
order
of
re

moval
I
IJ

1

II

I

V

J

v

I

@

INSPECTION

I
Check

accelerator

pedal
return

spring
for
rust

fatigue
or

damage

Replace
if

necessary

2

Check

accelerator
wire

cases

socket
and

fastening
locations
for
rust

damage
or
looseness

Repair
or

replace

if

necessary

ADJUSTMENT

Accelerator
IInka
e

I
Connect
accelerator
wire
to
car

buretor
and
accelerator

pedal
arm

2

Adjust
dilnension
H
with

stop

per
bolt

as
shown
in

Fig
FE
I

Dimension
H

109mm
4
29
in

FE
2
F
E558

Fig
FE
I

Accelerator
Control

System

Note
After

adjustment
securely

tighten

stopper
bolt
lock
nut

3
Pull

outer
case
to
uP
direction

making
sure
that

throttle
lever
is
re

turned
to

idle

position
Move
back

outer
case
I

mm
0
04
in
from

a

position
where
throttle

lever
starts

moving
and
fasten

outer
case

securely

with

clamp

Q4t

1

Clamp

2
Outer
case

FE1
1

Fig
FE
2

Adju

ting
Accolerator

Linkage

Enr
in
e

Control
Fuel

l
c

I
xhaust

System
i

SEALING
COMPOuND

If
exhaust
tubes
are

separated
at

connection
to
renew
muffler
assembly

etc
use
the
Genuine
Nissan
Sealant

Exhaust
Sealant
Kit

20720
N2225

to
eliminate

gas
leakage
past
the

joint

Be
sure
to
observe

following
proce

dures
ee

Fig

FJ
r21

I

Wipe
clean
all

the
oontact

por

tions

of
tube

joints
allow
them
to

dry

thoroughly

2

Temporarily
mount
in

place
muf

fler

assembly
and
or
exhaust
tube

as

an
assembled
unit

on
the
car

i
Insert
the
male
tube
into

the

female

tube

fully
until
the
front

end

of

the
female

tube
touches
the

stopper

on
the
male

tube

A
55mm
2
17in

B

t
Smm
0
59i

AI
B

Il

L

l

F

E574

Fig
FE
19
Ex
unut

Tube
Connection

4

Torque
exhaust
tube

clip
securing

bolt
and
exhaust
tube

mounting
bolt

to

specifications

liJ

Tightening
torque

Exhaust
tube

clip
bolt

0
8
to
1
2

kg
m

15
8

to
8
7
h

bl

5

Squeeze
5

to
6

cc
0
31
to
0
37

cu
in
of
sealant

into

injector
from
the

sealant
tube

Be

sure
to

place
the

cap
back
to
the

sealant

tube
since

sealant
will

dry

Sealant
tube

A

5
to
6
cc

0
31
toO
37cuin

FEltl

Fig
FE
20

Squeezing
Senlant
to

Injector
6

Position
the
nozzle
of

injector
to

the

guide
and

press
it
there

firmly

Inject
sealant

slowly
until

sealant
be

gins
to
flow
out
of
the
slit
of
the
tube

This
indicates
that
the
bead

requires

no

further
sealant
Excessive
sealant

can

cause
a

clogged
tube
See

Fig

FE
22

After

injecting
wash

injector
thor

oughly
in
clean
water
to
remove
all

FE

12
FE109

Fig
FE
21
Exhaust
Sealant
Kit

traces
of
sealant

7
Start

the

engine
and

let
it

idle

slowly
for
ten
minutes
minilnum

to

harden
sealant
with
the
heat
of
ex

haust

gas

8
Check
the
oondition
of
sealant

before

driving
the
car
It
is
also

essen

tial
that
the

car
should
not

be
accel

erated

sharply
for
20

to
30
minutes

subsequent
to

this

operation

FE568

Fig
FE
22

Injecting
Seatant

DATSUN
210
Model
8310
Series

SECTIONBE

BODY
ELECTRICAL
SYSTEM

CONTENTS

BODY
ELECTRICAL
WIRING

DESCRIPTION

FUSE
AND
FUSIBLE
LINK

WIRING

WIRING
HARNESS

LOCATION
OF
ELECTRICAL
UNIT

ELECTRICAL
UNIT
OF

LIGHTING
SYSTEM

BULB
SPECIFICATIONS

REMOVAL
AND
INSTALLATION

For

lamp

IGNITION
SWITCH

COMBINATION
SWITCH

ILLUMINATION
CONTROL
UNIT

AIMING
ADJUSTMENT

ELECTRICAL
UNIT
OF

SIGNAL
SYSTEM
BE
12

TURN
SIGNAL
SWITCH
BE
12

HORN
RELAY
BE
12

HAZARD
SWITCH
BE
12

STOP
LAMP
SWITCH
BE
12

BACK
UP
LAMP
SWITCH
BE
12

DOOR
SWITCH
BE
12

METERS
AND
GAUGES
BE
13

COMBINATION
METER
BE
13

TACHOMETER
BE
14

FUEL
LEVEL
AND
WATER
TEMPERATURE

INDICATOR

SYSTEM
BE
14

WARNING
SYSTEM
BE
15

CHARGE
WARNING
SYSTEM
BE
15

BRAKE
WARNING
SYSTEM
BE
15
BE
2

BE
2

BE
2

BE
4

BE
5

BE
8

BE
9

BE
9

BE
10

BE
10

BE
10

BE
11

BE
11
OIL
PRESSURE
WARNING
SYSTEM

SEAT
BELT
WARNING
SYSTEM

ELECTRICAL
ACCESSORIES

WINDSHIELD

WIPER
AND
WASHER

REAR
WINDOW
WIPER

AND
WASHER

CIGARETTE
LIGHTER

RADIO

CLOCK

REAR
WINDOW
DEFOGGER

STARTING
SYSTEM
For
automatic

transmission
models

HEATER

DESCRIPTION

AIR
FLOW

REMOVAL
AND
INSTALLATION

ADJUSTING
HEATER
CONTROL

DISASSEMBLY
AND
ASSEMBLY
OF

HEATER
UNIT

INSPECTION

WIRING
DIAGRAMS
AND

TROUBLE
DIAGNOSES

ELECTRICAL
SYSTEM
BLOCK

DIAGRAM

FUSE
BLOCK
CIRCUIT

SUPPLY

ROUTING

LIGHTING
SYSTEM

SIGNAL
SYSTEM

METERS
AND
GAUGES

WARNING

SYSTEM

ELECTRICAL
ACCESSORY
SYSTEM

HEATER
BE
15

BE
15

BE
17

BE
17

BE
18

BE
20

BE
20

BE
21

BE
21

BE
23

BE
23

BE
23

BE
24

BE
26

BE
27

BE
27

BE
28

BE
29

BE
29

BE
30

BE
31

BE

36

BE
41

BE
44

BE
4B

BE
55