steering DATSUN 610 1969 User Guide
Page 93 of 171
inte
r
E
lliIl
@
Pl
r
I
I
ill
i
1
Steeri
K
wh
l
2
Column
clamp
3
Steerinx
column
4
LoWf
T
moun
ins
f
Jurge
5
Rubber
coupling
6
St
ring
galf
7
Drop
arm
8
Centre
tie
rod
9
Outer
tie
rod
10
Idler
ann
fit
@
@
Fig
K
l
The
steering
system
components
Fig
K
3
Removing
the
steering
wheel
nut
FIg
K
S
Steering
column
cover
plate
92
y
AA
11
N
E
l
@
@
@I
@
@
J
Drop
Urn
2
Centre
tie
rod
J
Outer
tie
rod
4
Tie
rod
outer
ocket
5
Ti
rod
inner
rocket
6
ldkr
arm
auembly
Fig
K
2
The
steering
linkage
component
Fig
KA
Steering
column
upper
attachment
bolts
Fig
K
6
Removing
the
steering
gear
mounting
bolts
Page 94 of 171
STEERING
GEAR
Inspection
and
Adjustment
Thoroughly
clean
all
parts
and
examine
them
for
signs
of
wear
or
damage
Replace
any
comIK
nent
found
to
be
un
satisfactory
It
is
advisable
to
renew
the
assemblies
if
the
steering
column
or
ball
nut
assembly
is
defective
as
the
adjustment
procedures
required
to
overhaul
the
units
are
rather
involved
The
dismantling
and
adjustment
procedures
for
the
ball
nut
assembly
can
be
carried
out
in
the
following
manner
if
it
is
decided
that
overhaul
procedures
are
to
be
carried
out
Ball
nut
Remove
the
ball
guide
tube
clamp
withdraw
the
guide
tubes
from
the
ball
nut
and
collect
the
steel
balls
Turn
the
nut
upside
down
and
rotate
the
steering
column
backwards
and
forwards
until
all
36
steel
balls
have
dropped
out
of
the
ball
nut
Pull
the
ball
nut
from
the
column
Inspect
the
ball
guide
tubes
and
make
sure
that
they
are
not
damaged
Pay
particular
attention
to
the
ends
of
the
tubes
that
pick
up
the
balls
from
the
helical
path
Renew
the
tubes
if
they
are
unsatisfactory
Check
the
steel
balls
and
the
ball
nut
for
wear
and
replace
the
complete
unit
if
necessary
Assemble
the
ball
nut
on
the
worm
with
the
ball
guide
holes
upwards
Drop
18
balls
into
each
of
the
two
holes
on
the
same
side
of
the
ball
nut
until
all
36
balls
are
installed
The
column
should
be
gradually
turned
away
from
the
hole
being
filled
and
if
the
balls
are
stopped
by
the
end
of
the
column
hold
down
those
already
installed
with
a
clean
rod
or
punch
while
turning
the
column
several
times
in
the
reverse
direction
The
filling
of
the
circuit
can
then
be
continued
but
it
may
be
necessary
to
turn
the
column
backwards
and
forwards
holding
the
balls
down
first
in
one
hole
and
then
the
other
to
close
the
spaces
and
completely
fill
the
circuit
Place
the
remaining
22
balls
in
the
ball
guide
halves
11
balls
for
each
half
Fit
the
other
half
of
the
guide
tube
to
each
f11led
half
hold
the
two
halves
together
a
ld
plug
each
open
end
with
vaseline
to
prevent
the
balls
falling
out
Push
the
guide
tubes
into
the
ball
nut
guide
holes
and
assemble
the
guide
tube
clamp
Inspection
Oteck
the
axial
clearance
between
the
ball
nut
and
the
balls
If
the
clearance
exceeds
0
08
mrn
0
003
in
the
complete
unit
must
be
replaced
Inspect
the
gear
teeth
of
the
sector
shaft
for
wear
or
damage
Replace
any
worn
or
imperfect
bearings
Examine
the
steering
column
shaft
for
straightness
and
check
that
the
maximum
deflection
does
not
exceed
0
2mm
0
008
in
at
point
C
in
Fig
K
9
when
the
shaft
is
supported
at
points
A
and
B
Check
the
sector
shaft
and
steering
column
shaft
serrations
for
wear
Renew
the
parts
as
necessary
STEERING
GEAR
Assembly
and
Adjustment
Grease
the
lip
of
the
oil
seal
and
press
it
into
the
housing
Insert
the
column
assembly
into
the
column
jacket
and
fit
the
worm
bearing
shims
to
the
gear
housing
Install
the
flange
securing
bolts
and
tighten
them
to
a
torque
reading
of
1
8
2
5
kgm
13
18lb
ft
If
a
new
column
bearing
assembly
is
fitted
it
must
be
filled
with
bearing
grease
and
cemented
to
the
column
The
preload
of
the
worm
bearing
can
be
adjusted
by
altering
the
thickness
of
the
worm
bearing
shim
Four
shim
thicknesses
are
available
in
sizes
of
0
76
0
254
0
127
0
050mm
0
0300
0
100
0
005
in
0
002
in
This
adjustment
check
is
carried
out
without
the
sector
shaft
fitted
and
with
the
worm
bearings
oiled
Install
the
steering
wheel
as
shown
in
Fig
K
9
use
a
spring
balance
as
indicated
to
check
that
the
force
required
to
turn
the
wheel
is
between
4
0
8
0
kg
cm
56
l120z
inch
Select
a
suitable
shim
from
the
sizes
given
Assemble
the
selector
shaft
adjuster
with
a
shim
into
the
sector
shaft
Measure
the
end
clearance
of
the
adjuster
with
a
feeler
gauge
as
shown
in
Fig
K
1
O
The
correct
clearance
is
0
01
0
03mm
0
0004
O
0012in
and
can
be
adjusted
by
varying
the
thickness
of
shim
Four
thicknesses
of
shim
are
available
as
follows
1
57
mm
0
0618
in
1
55
mm
0
0610
in
1
52
mm
0
0598
in
1
50
mm
0
0591
in
To
assemble
the
sector
shaft
into
the
gear
housing
rotate
the
column
by
hand
until
the
ball
nut
is
at
the
central
position
of
its
travel
so
that
the
centre
tooth
of
the
sector
shaft
enters
the
centre
tooth
space
of
the
ball
nut
Fit
a
new
gasket
and
push
the
sector
shaft
cover
and
sector
shaft
into
place
Ensure
that
a
certain
amount
of
play
is
present
between
the
rack
and
sector
teeth
before
tightening
the
cover
bolts
to
a
torque
reading
of
1
5
2
5
kgm
10
9
18
llb
ft
Temporarily
lock
the
adjusting
screw
with
the
locknut
Move
the
sector
shaft
several
times
from
the
pitman
arm
side
to
make
sure
that
it
turns
smoothly
Connect
the
pitman
arm
to
the
sector
shaft
taking
care
that
the
alignment
marks
on
the
arm
and
shaft
coincide
Adjust
the
backlash
with
the
steering
in
the
central
position
using
a
dial
gauge
as
shown
in
Fig
K
II
Turn
the
adjusting
screw
with
a
screwdriver
until
the
amount
of
free
movement
at
the
top
of
the
pitman
arm
is
within
O
lmm
0
0039
in
at
a
radius
of
127
mm
5
0
in
Lock
the
adjusting
screw
with
the
locknut
Fig
K
12
and
recheck
the
free
move
ment
Fill
the
steering
gear
housing
with
the
correct
amount
of
recommended
lubricant
Refit
the
steering
gear
to
the
vehicle
as
previously
described
Make
sure
that
the
steering
wheel
is
correctly
aligned
and
that
93
Page 95 of 171
inter
r
u
If@fjV
Ftg
K
7
Removing
the
sector
shaft
cover
Fig
K
8
Removing
the
steering
column
assembly
from
the
gear
housing
mtl
fOJf
ch
mm
1
9685
in
f
1
l
Fig
K
9
Checking
the
column
shaft
for
serviceability
see
text
Fl
K
IO
OIecking
end
float
between
adjusting
screw
and
sector
shaft
F
8
K
13
The
coUapsible
steering
assembly
1
Upper
bmrins
7
Lower
jacket
tube
2
UPIX
jacket
shaft
8
Lower
jacket
tu
flange
3
Steering
post
clamp
9
Lower
aring
4
Upper
jacket
tube
J
0
Rubber
coupling
5
Sled
ball
II
blumn
dU31
cover
6
LoWf
1
jacket
shaft
ig
K
ll
Checking
the
steering
gear
baclda
h
Fig
K
12
Adjusting
the
steering
gear
baclda
h
l7
h
2
6
5
I
J
r
j
1
L1lI11
T1
e
tQj
L
J
II
tL
L
I
D
111lllJl
DCr
8
L
l
3
B
I
Column
cbmp
i
Block
3
Jacket
ubt
Fl
K
14
The
column
clamp
94
Page 96 of 171
the
system
operates
smoothly
COLLAPSIBLE
STEERING
The
collapsible
steering
column
is
designed
so
that
compression
occurs
when
the
vehicle
is
involved
in
a
head
on
collision
See
Fig
K
13
Two
forces
can
be
considered
when
a
collision
of
this
type
takes
place
These
being
the
primary
force
in
which
the
forward
motion
of
the
car
is
suddenly
halted
and
the
secondary
force
as
the
driver
continues
in
a
forward
direction
onto
the
steering
wheel
and
column
The
collapsible
column
is
designed
so
that
it
does
not
move
to
the
rear
i
e
into
the
driving
com
partment
when
the
primary
force
or
forward
motion
of
the
car
is
suddenly
halted
When
the
secondary
force
takes
place
as
the
driver
is
thrown
forward
the
column
jacket
gradually
collapses
and
partially
absorbs
the
amount
of
impact
The
collapsible
type
of
column
is
no
more
susceptible
to
damage
than
an
ordinary
column
when
it
is
installed
in
the
vehicle
however
when
a
collapsible
column
is
removed
it
must
be
carefully
handled
A
sharp
blow
on
the
end
of
the
shaft
or
gear
change
levers
dropping
or
leaning
on
the
assembly
can
cause
the
column
jacket
to
bend
particularly
at
the
bellows
part
which
absorbs
the
shock
The
steering
movement
is
transmitted
by
the
lower
shaft
and
upper
tube
The
lower
shaft
exterior
and
upper
tube
interior
are
tightly
fitted
together
with
four
plastic
pins
com
pletely
eliminating
any
gap
When
a
collision
occurs
the
plastic
pins
shear
and
the
lower
shaft
enters
the
upper
tube
this
action
will
cause
the
shaft
end
to
spread
and
the
lower
shaft
cannot
then
be
withdrawn
unless
an
extremely
high
load
is
applied
The
shaft
is
prevented
from
moving
towards
the
drivers
compartment
when
the
primary
force
takes
place
i
e
when
the
forward
motion
of
the
vehicle
is
suddenly
halted
by
the
three
stoppers
on
the
jacket
tube
The
steering
lock
collar
mounted
to
the
shaft
contacts
the
stoppers
and
prevents
a
rear
ward
movement
A
part
of
the
jacket
tube
is
specially
formed
to
act
as
an
energy
absorbing
part
of
the
collapsible
steering
The
upper
and
lower
guide
tubes
joined
with
polyacetal
resin
are
inserted
into
the
mesh
tube
so
that
energy
generated
by
a
collision
can
be
absorbed
as
smoothly
as
possible
with
a
low
load
The
steering
column
clamp
shown
in
Fig
K
14
is
secured
to
the
jacket
tube
and
body
by
bolts
with
two
aluminium
slidings
blocks
set
to
the
body
by
plastic
pins
An
impact
from
the
drivers
side
causes
the
plastic
pins
to
shear
and
leave
the
sliding
block
in
the
column
clamp
side
allowing
the
clamp
to
move
with
the
jacket
as
it
collapses
COLLAPSffiLE
STEERING
Removal
and
Inspection
Steering
Wheel
I
Disconnect
the
battery
earth
cable
2
Disconnect
the
horn
wiring
and
remove
the
horn
pad
3
Remove
the
steering
wheel
nut
using
the
special
puller
ST
27180000
Eig
K
15
Remove
the
column
shell
covers
Fig
K
16
and
the
turn
signal
switch
assembly
Column
shaft
4
Remove
the
cotter
pin
and
detach
the
shift
rod
Automatic
Transmission
Remove
the
bolt
securing
the
worm
shaft
and
coupling
Fig
K
17
5
Take
out
the
bolts
securing
the
column
tube
flange
to
the
dash
panel
and
the
bolts
securing
the
column
clamp
With
draw
the
steering
column
shaft
towards
the
car
interior
A
careful
check
should
be
made
to
ensure
that
the
assembly
is
not
damaged
in
any
way
Pull
out
the
lower
shaft
tap
the
column
clamp
towards
the
steering
wheel
end
and
remove
the
screws
securing
the
upper
and
lower
tubes
Separate
the
upper
and
lower
tubes
Remove
the
snap
ring
from
the
upper
end
of
the
column
pull
the
upper
jacket
down
and
separate
it
from
the
upper
jacket
tube
Take
care
not
to
damage
the
bearing
Remove
the
plain
washer
and
spring
from
the
upper
shaft
Check
the
column
bearings
for
damage
and
lack
of
smooth
ness
Apply
multi
purpose
grease
to
the
bearing
if
necessary
Inspect
the
jacket
tubes
for
signs
of
deformation
renew
the
tubes
if
necessary
Check
the
dimension
A
in
Fig
K
1B
to
make
SUfe
that
the
jacket
has
not
been
crushed
Check
the
dimension
B
Fig
K
14
COLLAPSffiLE
STEERING
Assembly
and
Installation
Assembly
is
a
reversal
of
the
dismantling
procedure
noting
the
following
points
Lubricate
the
column
bearing
the
spring
and
dust
seal
sliding
parts
Ensure
that
the
upper
shaft
steering
lock
hole
and
the
steering
lock
are
correctly
positioned
Fig
K
19
When
assembling
the
lower
shaft
take
care
to
coincide
the
notch
on
the
universal
joint
with
the
punched
mark
on
the
shaft
Coat
the
upper
and
lower
shaft
serrations
with
multi
purpose
grease
Set
the
steering
in
the
straight
ahead
position
and
fit
the
column
shaft
to
the
steering
gear
See
Fig
K
20
Insert
the
column
through
the
dash
board
and
install
it
to
the
gear
so
that
the
punch
mark
at
the
top
of
the
shaft
is
forced
upwards
Slide
the
universal
joint
to
the
steering
gear
and
temporarily
install
the
column
clamp
6
Fit
the
lower
cover
flange
7
and
tighten
the
column
clamp
bolts
Check
the
steering
wheel
alignment
with
the
wheels
in
the
straight
ahead
position
If
the
steering
wheel
and
steering
lock
are
misaligned
by
more
than
35
mm
I
4
in
from
the
vertical
position
femove
the
steering
wheel
and
re
centre
it
STEERING
LINKAGE
Removal
Jack
up
the
front
of
the
vehicle
and
support
it
on
stands
2
Remove
the
cotterpins
and
castle
nuts
fastening
the
tie
rod
ball
joints
to
the
knuckle
arms
95
Page 97 of 171
I
Fig
K
16
Removing
the
column
sheD
covers
inter
i
mj
rD
1
f
1
A
iJI1i
j
j
r
I
I
s
Ii
i
FIg
K
15
Removing
the
steering
wheel
Fig
K
l7
Removing
the
rubber
coupling
securing
bolt
1
bclttt
ube
2
Column
clamp
Fig
K
19
Steering
lock
installation
Fig
K
18
The
standard
dimension
between
coluDDl
clamp
and
lower
jacket
J
A
6
c
V
1
Rubbt
r
coupling
2
Steen
column
3
Worm
1
4
Dash
ptmd
5
ColUmrl
3hDf
6
Colli
clamp
7
Lowt
r
jacket
flangt
FIg
K
20
Installing
tbe
steering
column
assembly
96
f
ftb
Fig
K
21
The
outer
tie
rod
ball
joint
I
I
t
I
Fig
K
22
The
centre
tie
rod
ball
joint
Page 98 of 171
3
Free
the
ball
studs
from
the
knuckle
arms
by
placing
a
hammer
behind
the
boss
and
striking
the
opposite
side
with
another
hammer
4
Remove
the
centre
tie
rod
ball
studs
in
a
similar
manner
to
that
described
above
and
remove
the
centre
tie
rod
and
outer
tie
rods
as
an
assembly
5
Remove
the
idler
assembly
from
the
side
member
by
with
drawing
the
retaining
bolts
SfEERING
LINKAGE
Dismantling
Disconnect
the
tie
rods
from
the
centre
rod
Loosen
the
clamp
bolts
unscrew
the
socket
assembly
and
remove
the
socket
from
the
tie
rods
Remove
the
idler
arm
nut
and
dismantle
the
idler
assembly
Check
the
idler
arm
rubber
bushing
for
signs
of
damage
wear
or
play
and
replace
the
bushing
if
necessary
Oteck
the
centre
and
outer
tie
rod
for
damage
or
bending
Inspect
the
ball
joints
and
replace
them
i
the
amount
of
play
is
excessive
or
if
the
dust
cover
is
cracked
Further
infor
mation
can
be
found
in
the
section
FRONT
SUSPENSION
See
also
Figs
K
21
and
K
22
STEERING
LINKAGE
Assembly
and
Installation
Assembly
is
a
reversal
of
the
removal
procedure
noting
the
following
points
To
assembly
the
idler
arm
assembly
coat
the
outer
dia
meter
of
the
bushing
with
soapy
water
and
press
the
bushing
into
the
idler
arm
until
the
bushing
protrudes
equally
at
both
sides
Fit
the
idler
arm
body
in
the
rubber
bushing
Ensure
that
the
centre
line
of
the
idler
arm
is
parallel
with
the
centre
line
of
the
chassis
Installation
is
a
reversal
of
the
removal
procedure
The
outer
tie
rods
must
be
set
so
that
the
lengths
between
the
ball
stud
centres
are
309
5
mm
12
18
in
for
the
1400
and
1600cc
models
and
313
2
mm
12
33
in
for
the
1800cc
models
Tighten
the
ball
stud
nut
to
a
torque
reading
of
5
5
7
6
kgm
39
8
55Ib
ft
the
idler
ann
nut
to
5
5
7
6
kgm
39
8
55Ib
ft
and
the
pitman
arm
nut
to
14
kgm
lOllb
ft
The
front
wheel
alignment
toe
in
and
steering
angle
should
be
checked
and
adjusted
as
described
in
the
section
FRONT
SUSPENSION
TechnIcal
Data
Steering
type
Gear
ratio
Steering
angle
Inner
wheel
l800cc
Outer
wheel
1800
cc
Inner
wheel
1400
and
1600cc
Saloon
1400
and
1600cc
Estate
Outer
wheel
1400
and
1600cc
Saloon
1400
and
1600cc
Estate
Steering
wheel
play
1400
and
1600cc
Steering
wheel
play
1800cc
Standard
total
thickness
of
worm
bearing
shims
End
play
between
sector
shaft
and
adjusting
screw
Initial
turning
torque
of
worm
bearing
l800cc
models
1400
and
1600cc
models
Worm
and
recirculating
ball
15
0
I
370
380
30040
32040
380
380
30
31020
330
25
30mm
0
98
1
18
in
less
than
35mm
1
378
in
at
outer
rim
of
steering
wheel
1
5
mm
0
059
in
0
0
I
0
03mm
0
0004
0
0012
in
4
0
6
0
kg
cm
55
6
83
4
in
oz
4
0
8
0
kg
cm
55
6
112
in
oz
97
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 117 of 171
inter
@IP
Fig
M
33
Removing
the
instrument
panel
h
J
I
II
VI
BATTERY
FUSIBLE
LINK
0
3
Br
WASHER
MOTOR
I
ILR
rj
WIPER
MOTO
R
ILR
lity
111
W
J
9P
l
l
0
0
IGNITION
SWITCH
FUSE
BOX
IDA
0
W
ACC
r
WIPER
SWITCH
P
I
2
W
I
X
9
LWI
t
j
LR
Fig
M
36
Circuit
diagram
for
the
windshield
wipers
and
washer
Fig
M
35
Removing
the
wiper
arm
116
Fig
M
34
Wiper
motor
and
linkage
1
Wiper
arm
2
Pivot
3
Wiper
ann
4
Pirot
5
WiTNr
motor
f
Fig
M
37
Steering
lock
installation
1
Steering
lode
cwmp
2
Self
hear
ty
screw
3
Ignition
switch
4
SUmng
lock
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 128 of 171
Clutch
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10
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