1969 DATSUN 610 stop start
[x] Cancel search: stop startPage 36 of 171
and
seats
or
a
weak
diaphragm
return
spring
A
pressure
above
the
specified
figure
may
be
due
to
an
excessively
strong
and
tight
diaphragm
Capacity
test
The
capacity
test
can
be
carried
out
when
the
static
pressure
has
been
tested
and
conforms
with
the
specified
figure
of
0
18
kg
sq
cm
2
6Ib
sq
inJ
Disconnect
the
fuel
line
at
the
carburettor
and
place
a
container
under
the
end
of
the
pipe
to
act
as
a
fuel
sump
Start
the
engine
and
run
it
at
a
speed
of
1000
Lp
m
The
amount
of
fuel
delivered
from
the
pump
in
one
minutc
should
be
1000
cc
2
1
US
pt
If
petrol
does
not
flow
from
the
opcned
end
of
the
pipe
at
the
correct
rate
then
either
the
fuel
pipe
is
clogged
or
the
pump
is
not
operating
correctly
If
the
latter
cause
is
suspected
the
pump
must
be
removed
and
inspected
as
described
below
FUEL
PUMP
Removing
and
Dismantling
Before
removing
the
pump
take
off
the
petrol
tank
cap
and
disconnect
the
pump
inlet
and
outlet
pipes
Blow
through
the
pipes
with
compressed
air
to
make
sure
that
they
are
not
clogged
Remove
the
pump
retaining
nuts
withdraw
the
pump
and
dismantle
it
in
the
following
order
Referring
to
Fig
D
l
Take
out
the
screws
holding
the
two
body
halves
together
and
scparate
the
upper
body
from
the
lower
body
2
Remove
the
cap
and
cap
gasket
3
Unscrew
the
eI
bow
and
connector
4
Take
off
the
valve
retainer
and
remove
the
two
valves
5
To
remove
the
diaphragm
diaphragm
spring
and
lower
body
sealing
washer
press
the
diaphragm
down
against
the
force
of
the
spring
and
tilt
the
diaphragm
at
the
same
time
so
that
the
pull
rod
can
be
unhooked
from
the
rocker
arm
link
Fig
D
7
The
rocker
arm
pin
can
be
driven
out
with
a
suitable
drift
FUEL
PUMP
Inspection
and
Assembly
Check
the
uppcr
and
lower
body
halves
for
cracks
Inspect
the
valve
and
valve
spring
assembly
for
signs
of
wear
and
make
sure
that
the
diaphragm
is
not
holed
or
cracked
also
make
sure
that
the
rocker
arm
is
not
worn
at
the
point
of
contact
with
the
camshaft
The
rocker
arm
pin
may
cause
oil
leakage
if
worn
and
should
be
renewed
Assembly
is
a
reversal
of
the
dismantling
procedure
noting
the
following
points
Fit
new
gaskets
and
lubricate
the
rocker
arm
link
and
the
rocker
arm
pin
before
installing
The
pump
can
be
tested
by
holding
it
approximately
I
metre
3
feet
above
the
level
of
fuel
and
with
a
pipe
connected
between
the
pump
and
fuel
strainer
Operate
the
rocker
ann
by
hand
the
pump
is
operating
correctly
if
fuel
is
drawn
up
soon
after
the
rocker
ann
is
released
CARBURETTOR
IDLING
ADJUSTMENT
The
idling
speed
cannot
be
adjusted
satisfactorily
if
the
ignition
timing
is
incorrect
if
the
spark
plugs
are
dirty
or
if
the
valve
clearances
are
not
correctly
adjusted
Before
adjusting
the
idling
speed
set
the
hot
valve
clearances
t
o
0
25
mm
0
0098
in
for
the
intake
valves
and
0
30
mm
0
0118
in
for
the
exhaust
valves
as
described
in
the
ENGINE
section
Idling
adjustment
is
carried
out
with
the
throttle
stop
screw
in
conjunction
with
the
idling
adjustment
screw
See
Fig
D
8
Run
the
engine
until
it
attains
its
normal
operating
temperature
and
then
switch
off
Starting
from
the
fully
closed
position
unscrew
the
idling
adjustment
screw
by
approximately
three
turns
Screw
the
throttle
stop
screw
in
by
two
or
tftr
e
turns
and
start
th
engine
Unscrew
the
throttle
stop
screw
until
the
engine
commences
to
run
unevenly
then
screw
in
the
idling
adjustment
screw
so
that
the
engine
runs
smoothly
at
the
highest
speed
Readjust
the
throttle
stop
screw
to
drop
the
engine
speed
of
approximately
600
r
p
m
is
obtained
WARNING
Do
not
attempt
to
screw
the
idling
adjustment
screw
down
completely
or
the
tip
of
the
screw
may
be
damaged
FAST
IDLE
OPENING
ADJUSTMENT
The
choke
valve
is
synchronized
with
the
throttle
valve
and
connected
to
it
by
levers
as
shown
in
Fig
D
9
The
fast
idle
opening
can
be
check
by
fully
closing
the
choke
valve
and
measuring
the
clearance
between
the
primary
throttle
valve
and
the
wall
of
the
throttle
chamber
This
clearance
being
shown
as
A
in
the
illustration
The
clearance
for
the
carburettor
types
is
as
follows
Carburettor
type
Throttle
opening
angle
180
180
190
Dimension
A
213304
361
13304
4
I
13282
331
1
55mm
0
06lin
1
55mm
0
06Iin
1
3
mm
0
051
in
35
Page 40 of 171
FLOAT
LEVEL
Adjustment
A
constant
fuel
level
in
the
float
chamber
is
maintained
by
the
float
and
ball
valve
Fig
D
12
If
the
fuel
level
is
not
in
accordance
with
the
level
gauge
line
it
will
be
necessary
to
care
fully
bend
the
float
seat
until
the
float
upper
position
is
correctly
set
Fig
D
13
The
clearance
H
between
the
valve
stem
and
float
seat
should
be
1
0
mm
0
039
in
with
the
float
fully
lifted
as
shown
Adjustment
can
be
carried
out
by
carefully
bending
the
float
stopper
Fig
D
14
until
the
required
clearance
is
obtained
SU
TWIN
CARBURETTORS
Adjustments
It
is
essential
that
the
two
carburettors
are
correctly
adjusted
if
peak
m3l1ce
and
economical
fuel
consumption
is
to
be
realized
Incorrect
carburettor
a
ljustment
will
have
an
adverse
affect
during
idling
and
on
acceleration
etc
Carburettor
synchronization
and
idling
adjustment
Run
the
engine
until
it
reaches
its
normal
operating
temperature
remove
the
air
cleaner
and
slacken
the
front
and
rear
throttle
adjusting
screws
the
balance
screw
and
the
fast
idling
setting
screw
Make
sure
that
the
front
and
rear
throttle
shafts
are
not
connected
Fully
tighten
the
idling
adjustment
nuts
of
the
front
and
rear
carburettors
Fig
D
15
the
back
off
each
nut
by
an
equal
amount
and
by
one
and
a
half
to
two
tUrns
Screw
in
the
front
and
rear
throttle
adjusting
screws
by
a
few
turns
and
start
the
engine
Allow
the
engine
to
reach
its
normal
operating
temperature
before
proceding
to
the
next
stage
Adjust
the
front
and
rear
throttle
adjusting
screws
until
the
engine
speed
is
reduced
to
approximately
600
700
r
p
m
The
engine
should
turn
over
smoothly
and
consistently
Apply
a
flow
meter
to
the
front
carburettor
air
cleaner
flange
and
turn
the
adjustment
screw
on
the
flow
meter
so
that
the
upper
end
of
the
float
in
the
glass
tube
is
in
line
with
the
scale
Uft
off
the
flow
meter
and
apply
it
to
the
rear
carburettor
air
cleaner
flange
without
altering
the
setting
of
the
flow
meter
adjusting
screw
If
the
position
of
the
flow
meter
float
is
not
aligned
with
the
scale
adjust
the
rear
carburettor
throttle
adjusting
screw
to
align
the
float
with
the
mark
on
the
scale
With
the
carburettor
flow
correctly
adjusted
turn
the
idling
adjustment
nuts
of
both
carburettors
approximately
1
8
of
a
turn
either
way
to
obtain
a
fast
and
stable
engine
speed
Both
nuts
must
be
turned
by
an
equal
amount
Back
off
the
front
and
rear
throttle
adjusting
screws
and
adjust
the
engine
speed
to
the
specified
value
of
650
r
p
m
for
the
standard
engine
or
700
r
p
m
with
vehicles
fitted
with
automatic
transmission
Make
sure
that
the
air
flow
of
both
carburettors
remains
unchanged
Screw
in
the
balance
screw
until
the
screw
head
contacts
the
throttle
shafts
without
changing
the
idling
speed
setting
Move
the
throttle
connecting
shaft
and
accelerate
the
engine
a
few
times
then
check
that
the
idling
speed
is
unchanged
Turn
the
fast
idle
setting
screw
to
increase
the
engine
speed
to
approximately
1500
r
p
m
and
recheck
with
the
flow
meter
that
the
air
flow
for
both
carburettors
is
correctly
matched
If
the
air
flow
is
uneven
it
will
be
necessary
to
readjust
the
balance
screw
Finally
back
off
the
fast
idle
setting
screw
Fig
D
16
and
decrease
the
engine
speed
Apply
the
flow
meter
to
the
carburettors
to
confirm
that
the
float
positions
are
even
Re
adjust
if
necessary
by
means
of
the
throttle
adjusting
screws
Stop
the
engine
and
fit
the
air
cleaner
SU
TWIN
CARBURETTOR
Dismantling
Piston
and
suction
chamber
Dismantling
Unscrew
the
plug
and
withdraw
the
piston
damper
Fig
D
17
Remove
the
four
set
screws
and
lift
out
the
suction
chamber
withdraw
the
spring
nylon
washer
and
the
piston
Take
care
not
the
damage
the
jet
needle
and
the
interior
of
the
suction
chamber
Do
not
remove
the
jet
needle
from
the
piston
unless
absolutely
necessary
If
a
replacement
is
to
be
fitted
ensure
that
the
shoulder
of
the
needle
is
flush
with
the
lower
face
of
the
piston
This
operation
can
be
accomplished
by
holding
a
strai
edge
over
the
shoulder
of
the
needle
and
then
tightening
the
set
screw
as
shown
in
Fig
D
18
Wash
the
suction
chamber
and
piston
with
dean
solvent
and
dry
with
compressed
air
Lubricate
the
piston
rod
with
a
light
oil
Do
NOT
lubricate
the
large
end
of
the
piston
or
the
interior
of
the
suction
chamber
NOZZLE
Dismantling
The
nozzle
See
Fig
D
19
can
be
removed
quite
easily
but
should
not
be
dismantled
unless
absolutely
necessary
as
reassembly
of
the
nozzle
sleeve
washer
and
nozzle
sleeve
set
screw
is
an
extremely
intricate
operation
To
remove
the
nozzle
detach
the
connecting
plate
from
the
nozzle
head
pulling
lightly
on
the
starter
lever
to
ease
the
operation
Loosen
the
retaining
clip
take
off
the
fuel
line
and
remove
the
nozzle
Be
careful
not
to
damage
either
the
jet
needle
oc
the
nozzle
Remove
the
idle
adjusting
nut
and
spring
The
nozzle
sleeve
can
be
removed
if
necessary
by
taking
out
the
set
screw
but
as
previously
stated
should
not
be
dismantled
unless
absolutely
necessary
SU
TWIN
CARBUREfTOR
Assembly
Assemble
the
piston
assembly
into
position
but
do
not
fill
with
damper
oil
Assemble
the
nozzle
sleeve
washec
and
set
screw
by
temporarily
tightening
the
set
screw
Set
the
piston
to
its
fully
closed
position
and
insert
the
nozzle
until
it
contacts
the
nozzle
sleeve
When
the
nozzle
jet
contacts
the
jet
needle
the
nozzle
sleeve
must
be
slightly
adjusted
so
that
it
is
at
right
angles
to
the
centre
axis
and
positioned
to
leave
the
nozzle
jet
clear
of
the
jet
needle
Raise
the
piston
without
disturbing
the
setting
and
allow
it
to
drop
The
piston
should
drop
smoothly
until
the
stop
pin
strikes
the
venturi
with
a
liaht
metallic
click
See
below
under
Centering
the
jet
Tighten
the
nozzle
sleeve
set
screw
remove
the
nozzle
install
the
idle
adjustinJ
spring
and
adjusting
nut
on
the
nozzle
sleeve
and
refit
the
nozzle
39
Page 42 of 171
1
Oil
cap
nut
2
Suction
chomber
3
Suction
piston
4
Li
tingpin
S
Stop
pin
6
Oil
dDmper
7
Plunger
3
j
I
r
L
2
1
Fig
0
17
Inspecting
the
suction
piston
STlq
O
OO
Fig
D
20
Checking
the
float
level
SU
twin
carburettors
q
J
iT
j
I
@
@
J
1
Conn
ctingrod
2
Wi
guard
3
Choke
lever
4
Connecting
plate
7
S
Thrott
adjusting
SC
Tt
W
6
Fast
id
lever
7
Throttle
adjusting
p1at
8
Throttle
valv
9
Throttlevalv
cletlran
B
Fig
D
22
Adjusting
the
starting
interlock
opening
inteN
lli
i
D
U
I
i
n
1
Jet
n
edle
2
Set
screw
Fig
D
18
Installing
the
jet
needle
1
Nozzle
sleeve
2
Wa
sher
3
Nozz
det
V
d
C1e
W
4
Ad
u
ting
him
5
dlingadjustment
spring
6
Idling
adjustment
nut
Z
Nozz
c
J
Fig
D
l9
Dismantling
the
nozzle
assembly
3
I
Float
lever
2
Bend
here
loadju5t
dimension
H
3
Va
veslem
r
F
Fig
D
21
Adjusting
the
float
level
SU
twin
carburettors
Fig
D
23
Checking
the
damper
oil
41
Page 109 of 171
interQ
8
j
@W
2
m
tV
r
ReJld
cop
level
th
elk
FIg
M
I
llIecking
the
specific
gra
ity
of
the
battery
electrolyte
I
Thermal
u
e
Hydrometer
f
j
0
l
Q
I
iJ
Qy@
I
@
@
@
ti
II
@
@
Fig
M
3
Brush
cover
removed
j
i
Fill
M
2
Starter
motor
components
1
L
u
uJIner
pin
2
Drive
mil
Nack
t
3
Dult
COPD
4
E
mmtle
r
5
Aut
mzl
6
Solmoid
mlch
7
Arm
zturr
8
Thnut
9
IJriv
mil
blllck
t
bush
10
17uust
WdSMr
11
Stop
washer
12
CiTc
ip
13
PirUon
srap
collar
14
Pinion
IS
IWfni1l6
clutch
16
Field
coil
17
Yok
18
Politive
brwh
19
N
J1iP
bnuh
20
Bnuh
rprinK
21
Brullr
holder
22
Bearing
bwh
23
Rmr
COJIU
24
Through
botrr
@
FIg
M
5
Yoke
assembly
removed
Fill
M
4
Solenoid
switch
1
108
Fig
M
6
Annatore
assembly
and
engagemenr
lever
removed
Page 110 of 171
ElectrIcal
EquIpment
DESCRIPTION
BATTERY
Maintenance
STARTER
MOTOR
Removal
and
Dismantling
STARTER
MOTOR
Testing
STARTER
MOTOR
Assembly
and
Installation
ALTERNATOR
Removal
Dismantling
and
Inspection
DESCRIPTION
A
12
volt
negative
earth
electrical
system
is
used
in
which
the
battery
is
charged
by
an
alternator
In
the
alternator
a
magnetic
field
is
produced
by
the
rotor
which
consists
of
the
alternator
shaft
field
coil
p
le
pieces
and
slip
rings
Output
current
is
generated
in
the
armature
coils
located
in
the
stator
Six
silicon
diodes
are
incorporated
in
the
alternator
caSing
to
rectify
the
alternating
current
supply
A
voltage
regulator
and
pilot
lamp
relay
are
built
in
the
regulator
box
which
nonnally
does
not
give
trouble
or
require
attention
The
starter
motor
is
a
brush
type
series
wound
motor
in
which
positive
meshing
of
the
pinion
and
ring
gear
teeth
are
secured
by
means
of
an
overrunning
clutch
BATTERY
Maintenance
The
battery
should
be
maintained
in
a
clean
and
dry
condition
at
all
times
or
a
current
leakage
may
occur
between
the
terminals
If
frequent
topping
up
is
required
it
is
an
indication
of
overcharging
or
deterioration
of
the
battery
When
refitting
the
cables
clean
them
thoroughly
and
coat
their
terminals
and
the
terminal
posts
with
petroleum
jelly
Check
the
level
of
the
electrolyte
in
the
battery
at
frequent
intervals
and
top
up
if
necessary
to
the
level
mark
on
the
battery
case
with
distilled
water
A
hydrometer
test
should
be
carried
out
to
determine
the
state
of
charge
of
the
battery
by
measuring
the
specific
gravity
of
the
electrolyte
It
should
be
pointed
out
that
the
addition
of
sulphuric
acid
will
not
normally
be
necessary
and
should
only
be
carried
out
by
an
expert
when
required
The
specific
gravity
of
the
electrolyte
should
be
ascertained
with
the
battery
fully
charged
at
an
electrolyte
temperature
of
200C
680F
The
specific
gravity
of
the
electrolyte
decreases
or
increases
by
0
0007
when
its
temperature
rises
or
falls
by
10C
1
80F
respectively
The
temperature
referred
to
is
that
of
the
electrolyte
and
not
the
ambient
temperature
to
correct
a
reading
for
an
air
temperature
it
will
be
necessary
to
add
0
0035
to
the
reading
for
every
50C
above
200C
Conversely
0
0035
must
be
deducted
for
every
SOC
below
200C
Test
each
cell
separately
and
draw
the
liquid
into
the
hydrometer
several
times
if
a
built
in
thermometer
type
is
used
The
correct
specific
gravity
readings
should
be
as
follows
ALTERNATOR
Assembly
and
Installation
HEAD
LAMPS
Replacing
HORN
INSTRUMENT
PANEL
Removal
WINDSCREEN
WIPERS
WINDSCREEN
WASHERS
IGNITION
SWITCH
AND
STEERING
LOCK
Cold
climates
Temperature
climates
Tropical
climates
Permissible
value
Over
1
22
Over
1
20
Over
1
18
Fully
charged
at
200C
680F
1
28
1
26
1
23
The
battery
should
be
recharged
if
a
low
specific
gravity
reading
is
indicated
Always
disconnect
both
terminals
of
the
battery
when
charging
and
clean
the
terminal
posts
with
a
soda
solution
Remove
the
vent
plugs
and
keep
the
electrolyte
temperature
below
450C
l130F
during
charging
Check
the
specific
gravity
after
charging
and
if
it
is
above
1
260
at
200C
680C
add
distilled
water
STARTER
MOTOR
Removal
and
Dismantling
As
previously
stated
the
starter
motor
is
brush
type
series
wound
motor
in
which
the
positive
meshing
of
the
pinion
and
ring
gear
teeth
are
secured
by
an
overrunning
clutch
The
over
running
clutch
employs
a
shift
lever
to
slide
the
pinion
into
mesh
with
the
flywheel
ring
gear
teeth
when
the
starter
is
operated
When
the
engine
starts
the
pL
lion
is
permitted
to
overrun
the
clutch
and
armature
but
is
held
in
mesh
until
the
shift
lever
is
released
An
exploded
view
of
the
starter
is
shown
in
Fig
M
2
To
remove
the
starter
motor
proceed
as
follows
Disconnect
the
battery
earth
cable
2
Disconnect
the
black
and
yellow
wire
from
the
solenoid
terminal
and
the
black
cable
from
the
battery
terminal
3
Remove
the
two
bolts
securing
the
starter
motor
to
the
clutch
housing
Pull
the
starter
motor
assembly
forwards
and
withdraw
it
from
the
v
hicle
To
dismantle
the
starter
motor
ftrst
remove
the
brush
cover
and
lift
out
the
brushes
as
shown
in
Fig
M
3
Loosen
the
nut
securing
the
connecting
plate
to
the
solenoid
M
terminal
Remove
the
solenoid
retaining
screws
take
out
the
cotter
pin
and
withdraw
the
shift
lever
pin
Remove
the
solenoid
assembly
as
shown
in
Fig
M
4
Remove
the
two
through
bolts
and
rear
cover
assembly
then
remove
the
yoke
assembly
by
lightly
tapping
it
with
a
wooden
mallet
Fig
M
S
Withdraw
the
armature
and
shift
lever
Fig
M
6
Remove
the
pinion
stopper
from
the
armature
shaft
by
removing
the
stopper
washer
pushing
the
109
Page 112 of 171
stopper
to
the
overrunning
clutch
side
and
removing
the
stopper
clip
Remove
the
stopper
and
overrunning
clutch
as
shown
inFig
M
7
Oean
the
dismantled
components
and
check
them
for
wear
or
damage
Cbeck
the
brushes
and
renew
them
if
worn
below
6
5mm
0
257
in
Fit
new
brushes
if
the
brush
contact
is
loose
Cbeck
the
brush
holders
and
spring
clips
and
make
sure
that
they
are
not
bent
or
distorted
The
brushes
should
move
freely
in
their
housings
and
can
be
eased
with
a
file
if
necessary
The
brush
spring
tension
should
be
approximately
0
8kg
1
76Ib
and
can
be
checked
with
a
spring
balance
as
shown
in
Fig
M
S
Armature
assembly
Make
sure
that
the
surface
of
the
commutator
is
not
rough
or
pitted
Oean
and
lightly
polish
with
a
No
500
emery
cloth
if
necessary
If
the
commutator
is
badly
worn
or
pitted
it
should
be
skimmed
in
a
lathe
only
a
light
cut
must
be
taken
to
remove
the
minimum
amount
of
metal
If
the
commutator
diameter
wear
limit
of
0
2mm
0
OS
in
is
exceeded
the
assembly
must
be
renewed
Undercut
the
mica
between
the
commutator
segments
when
the
depth
of
mica
from
the
surface
of
the
segment
is
less
than
0
2mm
0
08
in
The
depth
should
be
between
0
5
0
8mm
0
0197
0
0315
in
as
shown
in
Fig
M
9
The
armature
shaft
should
be
checked
for
straightness
by
mounting
between
the
centres
of
lathe
and
positioning
a
dial
gauge
as
shown
in
Fig
M
I
O
Renew
the
armature
if
the
bend
of
the
shaft
exceeds
0
08mm
0
0031
in
Field
coils
testing
Test
the
field
coils
for
continuity
by
connecting
a
circuit
tester
between
the
positive
terminal
of
the
field
coil
and
the
positive
terminal
of
the
brush
holder
as
shown
in
Fig
M
I
I
If
a
reading
is
not
obtained
the
field
circuit
or
coil
is
open
Cbnnect
the
tester
to
the
yoke
and
field
coil
positive
teoninal
as
shown
in
Fig
M
12
to
check
the
field
coils
for
earthing
Unsolder
the
connected
part
of
each
coil
and
check
the
circuit
for
earthing
in
a
similar
manner
Renew
the
field
coils
if
they
are
open
earthed
or
short
circuited
Outch
assembly
The
overrunning
clutch
must
be
replaced
if
it
is
slipping
or
dragging
Examine
the
pinion
and
sleeve
making
sure
that
the
sleeve
is
able
to
slide
freely
along
the
armature
shaft
spline
Inspect
the
pinion
teeth
for
signs
of
rubbing
and
check
the
fly
wheel
ring
gear
for
damage
or
wear
Bearings
Inspect
the
metal
bearing
bushes
for
wear
and
side
play
The
bushes
must
be
renewed
if
the
clearance
between
the
bearing
bush
and
armature
shaft
is
in
excess
of
0
02mm
0
008
in
New
bearing
bushes
must
be
pressed
in
so
that
they
are
flush
with
the
end
of
the
case
and
reamed
ou
t
to
give
a
clearance
of
0
03
0
10
mm
0
0012
0
0039
in
H
Solenoid
assembly
Inspect
the
solenoid
contact
surface
and
replace
if
showing
signs
of
wear
or
roughness
Replace
the
pinion
sleeve
spring
if
weakened
Check
the
series
coil
by
connecting
an
8
12
volt
supply
between
the
Sand
M
terminals
as
shown
in
Fig
M
13
The
series
coil
is
normal
if
the
plunger
operates
Test
the
shunt
coil
by
connecting
the
S
terminal
the
M
terminal
and
the
solenoid
body
as
shown
in
the
lower
illustration
of
Fig
M
13
Open
the
M
terminal
when
the
plunger
is
operated
the
shunt
coil
is
satisfactory
if
the
plunger
stays
in
the
operated
position
Measure
the
length
L
between
theylonger
adjusting
nut
and
solenoid
cover
Press
the
plunger
against
a
firm
surface
as
shown
in
Fig
M
14
and
check
that
the
dimension
is
within
the
figures
given
Turn
the
adjusting
nut
if
necessary
until
the
required
dimension
is
obtained
STARTER
MOTOR
Assembly
and
Installation
The
assembly
and
installation
procedures
are
a
reversal
of
the
removal
and
dismantling
operations
When
assembling
the
starter
smear
the
armature
shaft
spline
with
grease
and
lightly
oil
the
bearing
bushes
and
pinion
ALTERNATOR
The
alternator
is
driven
by
the
fan
belt
and
has
an
advant
age
over
a
dynamo
in
that
it
provides
current
at
low
engine
speeds
thereby
avoiding
battery
drain
Maintenance
is
not
normally
required
but
the
tension
of
the
fan
belt
should
be
checked
and
adjusted
if
necessary
as
described
in
the
section
COOLING
SYSTEM
Care
must
be
taken
not
to
overtighten
the
fan
belt
or
the
alternator
bearings
will
be
overloaded
The
alternator
output
can
be
checked
with
the
alternator
in
the
vehicle
by
carrying
out
the
following
test
Ensure
that
the
battery
is
fully
charged
Withdraw
the
connectors
from
the
alternator
F
and
N
terminals
and
connect
a
jumper
lead
between
the
F
and
A
terminals
Connect
a
voltmeter
to
the
E
and
A
alternator
terminals
with
the
negative
lead
to
terminal
E
and
the
positive
lead
to
the
terminal
A
as
shown
in
Fig
M
IS
Switch
the
headlamps
on
to
full
beam
and
start
the
engine
Increase
the
engine
speed
gradually
and
note
the
reading
on
the
voltmeter
when
the
engine
reaches
a
speed
of
approximately
lOaD
rpm
The
alternator
is
operating
satisfactorily
if
the
voltmeter
shows
a
reading
above
12
5
volts
If
the
reading
is
below
12
5
volts
the
alternator
is
defective
and
should
be
removed
for
inspection
ALTERNATOR
Removal
Disconnect
the
negative
lead
from
the
battery
and
the
two
lead
wires
and
connector
from
the
alternator
Slacken
the
alter
nator
mounting
bolts
and
take
off
the
fan
belt
Take
out
the
mounting
bolts
and
withdraw
the
alternator
from
the
vehicle
III
Page 118 of 171
4
Remove
the
shell
covers
from
the
steering
column
slacken
the
screws
securing
the
meter
housing
and
withdraw
the
panel
from
the
facia
Fig
M
33
5
Pull
out
the
12
pole
round
shaped
connector
and
remove
the
speedometer
cable
union
nut
then
remove
the
instru
ment
panel
completely
WINDSCREEN
WIPERS
A
two
speed
wiper
motor
is
fitted
The
motor
has
an
auto
stop
mechanism
and
drives
the
wiper
arms
through
a
link
mechanism
located
behind
the
instrument
panel
If
the
wiper
system
does
not
operate
check
the
fuses
connectors
control
switch
and
motor
If
the
wiper
speed
does
not
change
the
switch
must
be
repaired
or
replaced
If
the
wiper
motor
becomes
unserviceable
it
can
be
removed
from
the
vehicle
in
the
fOllowing
manner
I
Remove
the
connector
plug
from
the
motor
See
Fig
M
34
2
Working
from
the
passenger
compartment
side
of
the
dash
panel
remove
the
nut
connecting
the
wiper
motor
worm
wheel
shaft
to
the
connecting
rod
3
Remove
the
three
bolts
securing
the
wiper
motor
to
the
cowl
and
lift
out
the
motor
Battery
Starter
motor
Type
Output
No
load
Terminal
voltage
Current
Revolution
Load
Terminal
voltage
Current
Torque
Brushes
Brush
length
Wear
limit
Spring
tension
Commutator
Standard
outer
diameter
Wear
limit
Depth
of
nuca
Repair
limit
Repair
accuracy
Qearance
between
armature
shaft
and
bushing
Repair
liinit
Repair
accuracy
Armature
shaft
ou
ter
diameter
Pinion
side
Rear
end
Wear
limit
Bend
limit
The
wiper
arms
can
be
removed
quite
easily
by
taking
off
the
attachment
bolt
as
shown
in
Fig
M
J
5
and
then
pullin
the
wiper
arm
from
the
pivot
shaft
When
installing
the
wiper
arm
make
sure
that
the
blade
is
positioned
approximately
27mm
1
06
in
away
from
the
bottom
of
the
windscreen
and
tighten
the
wiper
arm
attachment
bolt
WINDSCREEN
WASHERS
The
windscreen
washer
SWItch
and
wiper
switch
are
com
bined
in
a
single
unit
See
Fig
M
36
the
washers
can
be
operated
by
turning
the
switch
in
the
appropriate
direction
It
should
be
pointed
out
that
it
is
inadvisable
to
operate
the
washers
for
more
than
30
seconds
at
a
time
If
the
washers
are
operated
in
short
spells
of
approximately
10
seconds
duration
their
working
efficiency
will
remain
unimpaired
for
a
considerable
length
of
time
IGNITION
SWITCH
AND
STEERING
LOCK
The
steering
lock
is
built
in
to
the
goition
switch
When
the
key
is
turned
to
the
LOCK
position
and
then
removed
the
steering
system
is
automatically
locked
by
the
steering
lock
spindle
which
engages
in
a
notch
in
the
collar
on
the
steering
shaft
See
Fig
M
37
The
heads
of
the
screws
are
sheared
off
on
installation
so
that
the
steering
lock
system
cannot
be
tampered
with
If
the
steering
lock
is
to
be
replaced
it
will
be
necessary
to
remove
the
two
securing
screws
8
and
then
drill
out
the
self
shearing
screws
7
When
installing
a
new
steering
lock
tighten
the
new
self
shearing
screws
until
the
heads
shear
TechnICal
Data
12
volt
HITACHI
S114
87M
1
0KW
12
volts
Less
than
60
amperes
More
than
7000
r
p
m
6
3
volts
Less
than
420
amperes
More
than
0
9
mkg
6
5
lb
ft
16
mm
0
630
in
6
5mm
0
256
in
0
8
kg
1
8
lb
33mm
1
299
in
2mm
0
078
in
0
2mm
0
008
in
0
5
0
8mm
0
0197
0
0315
in
0
2mm
0
008
in
0
03
O
lmm
0
0012
0
0039
in
13mm
0
512
in
11
5
mm
0
453
in
O
lmm
0
0039
in
0
08
mm
0
0031
in
Oearance
between
pinion
and
stopper
0
3
1
5mm
0
0118
0
0591
in
ALTERNATOR
Type
HITACHI
LTl25
06
HITACHI
LTl33
05
USA
Canada
More
than
18
amps
at
14
volts
2500
r
p
m
More
than
25
amps
at
14
volts
5000
r
p
m
Output
current
LTl25
06
Output
current
LT
133
05
More
than
24
amps
at
14
volts
2500
r
p
m
More
than
33
amps
at
14
volts
5000
r
p
m
Brushes
Lengtb
Wear
limit
Spring
pressure
14
5mm
0
571
In
7mm
0
2756
in
0
25
0
35
kg
0
55
0
771b
Slip
ring
Outer
diameter
Reduction
limit
Repair
limit
Repair
accuracy
31
mm
1
220
in
I
mm
0
039
in
O
3mm
0
0118
in
0
05
mm
0
0197
in
VOLTAGE
REGULATOR
Type
Regulating
voltage
HITACHI
TL
lZ
37
14
3
15
3
volts
at
200C
680F
117
Page 136 of 171
ENGINE
Dismantling
Remove
the
engine
from
the
vehicle
as
previously
described
and
carefully
clean
the
exterior
surfaces
The
alternator
distribu
tor
and
starter
motor
should
be
removed
before
washing
Plug
the
carhurettor
air
horn
to
prevent
the
ingress
of
foreign
matter
Place
the
engine
and
transmission
on
the
engine
carrier
ST4797
0000
if
available
and
dismantle
as
follows
Remove
the
gearbox
from
the
engine
Disconnect
the
intake
manifold
water
hose
the
vacuum
hose
and
the
intake
manifold
to
oil
separator
hose
Remove
the
intake
manifold
with
the
carburettor
Fit
the
engine
attachment
ST3720OG18
to
the
cylin
der
block
and
place
tre
engine
on
the
stand
ST371
00000
Remove
the
clutch
@
Ssembly
as
described
in
the
section
CLUTCH
Remove
the
exhaust
manifold
and
heat
baffle
plate
Take
off
the
fan
blades
and
remove
the
water
pump
pulley
and
fan
belt
Remove
the
rocker
cover
hose
manifold
heat
hose
and
by
pass
hoses
Remove
the
generator
bracket
and
the
oil
fIlter
Extract
the
engine
breather
assembly
from
above
Note
that
the
breather
is
fitted
to
the
guide
and
is
installed
with
a
O
ring
which
is
pressed
into
the
cylinder
block
Flatten
the
10ckwasher
and
unscrew
the
crankshaft
pulley
nut
Withdraw
the
pulley
with
the
puller
ST44820000
if
available
but
do
not
hook
it
in
the
V
groove
of
the
pulley
Remove
the
rocker
cover
and
take
off
the
rubber
plug
located
on
the
front
of
the
cylinder
head
Straighten
the
lock
ing
washer
and
remove
the
bolt
securing
the
distributor
drive
gear
and
camshaft
sprocket
to
the
camshaft
Remove
the
drive
gear
and
take
off
the
sprocket
See
Fig
A
3
Remove
the
cylinder
head
bolts
in
reverse
order
to
the
tightening
sequence
sOOwn
in
Fig
A
18
and
lift
off
the
cylinder
head
as
an
assembly
See
Fig
A
4
Note
that
in
addition
to
the
ten
cylinder
head
bolts
there
are
also
two
bolts
securing
the
chain
cover
to
the
head
Invert
the
engine
and
remove
the
oil
sump
Remove
the
chain
cover
and
oil
flinger
Take
off
the
nut
securing
the
oil
pump
sprocket
and
withdraw
the
sprocket
with
the
chain
in
position
as
shown
in
Fig
A5
Remove
the
oil
pump
and
stramer
Note
that
two
of
the
pump
mounting
bolts
are
pipe
guides
Remove
the
timing
chain
crankshaft
sprocket
chain
ten
sioner
and
chain
stop
Remove
the
connecting
rod
caps
and
push
the
piston
and
connecting
rod
assemblies
through
the
tops
of
the
bores
Keep
all
parts
in
order
so
they
can
be
assembled
in
their
original
posi
tions
Take
out
the
flywheel
retaining
bolts
and
withdraw
the
flywheel
Remove
the
main
bearing
caps
but
take
care
not
to
damage
the
pipe
guides
Lift
out
the
crankshaft
and
main
bear
ings
noting
that
the
bearings
must
be
reassembled
in
their
original
positions
Remove
the
piston
rings
with
a
suitable
expander
and
take
off
the
gudgeon
pin
clips
The
piston
should
be
heated
to
a
temperature
of
50
to
600
122
to
1400F
before
extracting
the
gudgeon
pin
Keep
the
dismantled
parts
in
order
so
they
can
be
reassembled
in
their
original
positions
Remove
the
camshaft
rocker
ann
shaft
and
rocker
ann
assemblies
from
the
head
by
taking
off
the
cam
bracket
clamp
ing
nuts
It
is
advisable
to
insert
disused
bolts
in
the
No
1
and
No
5
bracket
holes
as
the
cam
bracket
will
fall
from
the
rocker
ann
shaft
when
it
is
removed
Remove
the
valve
cotters
using
the
special
tool
ST47450000
and
dismantle
the
valve
assemblies
Keep
the
parts
together
so
they
can
be
installed
in
their
original
order
ENGINE
Inspection
and
Overhaul
Cylinder
head
and
valves
Inspection
and
overhaul
procedures
can
be
carried
out
by
following
the
instructions
previously
given
for
the
L14
LI6
and
LIB
engines
noting
the
following
points
Measure
the
joint
face
of
the
cylinder
head
using
a
straight
edge
and
feeler
gauge
The
permissible
amount
of
distortion
is
0
03
mm
0
0012
in
or
less
The
surface
of
the
head
must
be
reground
if
the
maximum
limit
of
0
1
mm
0
0039
in
is
exceeded
Oean
each
valve
by
washing
in
petrol
then
carefully
examine
the
stems
and
heads
Discard
any
valves
with
worn
or
damaged
stems
Use
a
micrometer
to
check
the
diameter
of
the
stems
which
should
be
8
0
mm
0
315
in
for
both
intake
and
exhaust
valves
If
the
seating
face
of
the
valve
is
excessively
burned
damaged
or
distorted
the
valve
must
be
discarded
The
valve
seating
face
and
valve
tip
can
be
refaced
if
necessary
but
only
the
minimum
amount
of
metal
should
be
removed
Check
the
free
length
and
tension
of
each
valve
spring
and
compare
the
figures
obtained
with
those
given
in
Technical
Data
at
the
end
of
this
section
Use
a
square
to
check
the
springs
for
deformation
and
replace
any
spring
with
a
deflection
of
1
6
mm
0
0630
in
or
more
Valve
guides
Measure
the
clearance
between
the
valve
guide
and
valve
stern
The
stem
to
guide
clearance
should
be
0
025
0
055
mm
0
0010
0
0022
in
for
the
intake
valves
and
0
04
0
077
mm
0
0016
0
0030
in
for
the
exhaust
valves
The
maximum
clear
ance
limit
is
0
1
mm
0
0039
in
The
valve
guides
are
held
in
position
with
an
interference
fit
of
0
040
0
069
mm
0
0016
0
0027
in
and
can
be
removed
using
a
press
and
valve
guide
replacer
set
ST49730000
under
2
ton
pressure
This
operation
can
be
carried
out
at
room
temperature
but
will
be
more
effec
tively
performed
at
a
higher
temperature
Valve
guides
are
available
with
oversize
diameters
of
0
2
mm
0
0079
in
The
cylinder
head
guide
bore
must
be
reamed
out
at
normal
room
temperature
and
the
new
guides
pressed
in
after
heating
the
cylinder
head
to
a
temperature
of
approximately
800
C
1760F
The
standard
valve
guide
requires
a
bore
of
14
0
14
018
mm
0
551
0
552
in
and
the
oversize
valve
guide
a
bore
of
14
2
14
218
mm
0
559
0
560
in
Ream
out
the
bore
of
the
guides
to
obtain
the
desired
finish
and
clearance
Use
the
reamer
set
ST49710000
to
ream
the
bore
to
8
000
8
015
mm
0
3150
0
3156
in
The
valve
seat
surface
must
be
concentric
with
the
guide
bore
and
must
be
corrected
if
necessary
using
the
new
valve
guide
as
axis
Valve
seat
inserts
Check
the
valve
seat
inserts
for
signs
of
pitting
The
inserts
cannot
be
replaced
but
may
be
corrected
if
necessary
using
a
valve
seat
cutter
ST49720000
Scrape
the
seat
with
the
450
cutter
then
reduce
the
width
of
the
contacting
faces
using
the
150
and
600
cutters
for
the
intake
valve
inserts
and
150
cutter
for
the
exhaust
valve
inserts
Seat
correction
dimensions
are
shown
in
millimeters
in
Fig
A
6
Lap
each
valve
into
its
seat
after
correcting
the
seat
inserts
Place
a
small
quantity
of
fme
grinding
paste
on
the
seating
face
of
the
valve
and
lap
in
as
previously
described
for
the
Ll4
LI6
and
L
18
engines
S5