1977 DATSUN PICK-UP change wheel
[x] Cancel search: change wheelPage 117 of 537
Notes
a
The
idle
rpm
and
CO
vary
accord
ing
to
the
altitude
Therefore
they
should
be
properly
adjusted
when
the
position
of
the
H
L
lever
is
changed
EF729
ADJUSTMENT
AND
INSPECTION
CARBURETOR
IDLE
R
P
M
AND
MIXTURE
RATIO
Cautions
3
On
automatic
transmission
equi
ped
models
check
should
be
per
formed
in
the
0
position
Be
sure
to
engage
parking
brake
and
to
lock
both
front
and
rear
wheels
with
wheel
chocks
b
Keep
your
foot
down
on
the
brake
pedal
while
depressing
the
accelera
tor
pedal
Otherwise
vehicle
surges
forward
dangerously
Notes
a
00
not
attempt
to
screw
the
idle
adjusting
screw
down
completely
Ooing
so
could
cause
damage
to
tip
which
in
turn
will
tend
to
cause
malfunctio11ll
b
If
idle
limiter
cap
obstructs
proper
adjustment
remove
it
To
install
idle
limiter
cap
refer
to
Idle
Limiter
Cap
c
After
idle
adjustment
has
been
made
shift
the
lever
to
the
N
or
P
position
for
automatic
trans
mission
d
When
measuring
CO
percentage
in
Engine
Fuel
b
Counties
1
219
m
4
000
ft
or
more
above
sea
level
have
been
designated
by
law
as
High
Altitude
Counties
For
further
details
refer
to
1977
OATSUN
PICK
UP
Service
Bulletin
Pub
No
257
0
I
Air
cleaner
rID
mOl
If
Low
altitude
Ll
n
n
L
n
Fig
EF
34
sert
probe
into
tail
pipe
more
than
40
em
15
7
in
CO
Idle
adjustment
with
CO
meter
Idle
mixture
adjustment
requires
the
use
of
a
CO
meter
especially
for
California
models
When
preparing
to
adjust
idle
mixture
it
is
essential
to
have
the
meter
thoroughly
warmed
up
and
calibrated
I
Check
carburetor
pipes
for
proper
connection
2
Warm
up
engine
until
water
tem
perature
indicator
points
to
the
middle
of
gauge
The
procedure
to
warm
up
engine
is
not
specifically
recom
mended
Either
driving
vehicle
or
oper
ating
engine
at
no
load
will
be
good
3
Make
sure
that
water
tempera
ture
indicator
points
to
the
middle
Further
keep
engine
running
at
about
2
000
rpm
for
about
5
minutes
with
out
applying
load
to
engine
in
order
to
stabilize
engine
condition
Engine
hood
should
be
open
4
Run
engine
for
about
10
minutes
at
idling
speed
Ouring
this
10
minutes
proceed
as
described
in
steps
5
to
9
below
5
Remove
air
hose
between
3
way
connector
5
way
connector
for
Cali
fornia
models
and
air
check
valve
as
EF
21
shown
in
Figure
EF
35
Plug
the
dis
connected
hose
to
prevent
dust
from
entering
0
o
EF259
Fig
EF
35
Disconnecting
air
hose
from
air
check
valve
6
Race
engine
I
500
to
2
000
rpm
two
or
three
times
under
no
load
then
run
engine
for
one
minute
at
idling
speed
7
Adjust
throttle
adjusting
screw
until
engine
is
at
specified
speed
Engine
speed
Manual
transmission
750
rpm
Automatic
transmission
in
0
position
650
rpm
8
Check
ignition
timing
If
neces
sary
adjust
it
to
specifications
This
operation
need
not
be
carried
out
at
1
600
Ian
1
000
miles
service
Ignition
timing
Manual
transmission
120
750
rpm
Non
California
100
750
rpm
California
Automatic
transmission
in
0
position
120
650
rpm
9
At
about
10
minutes
after
engine
is
run
at
idling
speed
adjust
idle
adjusting
screw
so
that
CO
percentage
is
at
specified
level
CO
percentage
Manual
transmission
2
t
l
at
750
rpm
Automatic
transmission
in
0
position
2
t
I
at
650
rpm
10
Repeat
procedures
as
described
in
steps
6
7
and
9
above
so
that
CO
percentage
is
at
specified
level
Check
ing
idle
CO
in
step
9
can
be
carried
out
right
after
step
7
II
Race
engine
1
500
to
2
000
Page 360 of 537
Note
When
installing
fulcrum
pin
insert
it
from
rearward
of
vehicle
12
Install
tension
rod
shock
ab
sorber
I
stabilizer
torsion
bar
spring
and
knuckle
arm
referring
to
the
related
paragraphs
13
Install
brake
disc
to
knuckle
spindle
and
torque
securing
bolt
to
4
2
to
5
0
kg
m
30
to
36
ft
Ib
14
Install
wheel
and
brake
drum
as
an
assembly
and
torque
knuckle
spin
dle
nut
to
8
0
to
9
0
kg
m
58
to
65
ft
Ib
DISASSEMBLY
AND
ASSEMBLY
Upper
link
I
Detach
upper
link
spindle
from
upper
links
and
remove
clamp
dust
cover
and
dust
seal
Secure
upper
link
in
a
vise
and
loosen
screw
bushing
Assemble
link
spindle
in
reverse
sequence
to
disassembling
noting
the
following
instructions
2
Torque
screw
bushing
on
upper
link
to
3S
to
55
kg
m
253
to
398
ft
Ib
Install
new
dust
seal
and
dust
cover
and
secure
them
with
clamp
3
Coat
grease
to
screw
bushing
in
side
and
the
thread
portion
of
upper
link
spindle
liberally
Screw
front
and
rear
links
to
upper
link
spindle
in
the
same
length
so
as
to
obtain
the
speci
fied
figures
as
shown
in
Figure
FA
23
Unit
mm
in
I
44
6
1
156
FA2
Upper
link
and
upper
link
spindle
Fig
FA
23
Front
Axle
Front
Suspension
4
Make
sure
to
operate
upper
link
spindle
smoothly
after
installation
5
Replace
filler
plug
with
grease
nipple
and
pack
grease
until
grease
comes
out
from
dust
cover
Reinstall
f1ller
plug
Lower
link
When
installing
torque
arm
on
lower
link
tighten
it
to
the
following
specifications
Serration
boss
1
8
to
2
6
kg
m
13
to
19
ft
Ib
Arm
head
2
7
to
3
7
kg
m
20
to
27
ft
tb
INSPECTION
Upper
link
spindle
fulcrum
pin
and
screw
bushing
Apply
screw
bushing
to
upper
link
spindle
or
fulcrum
pin
and
measure
axial
end
play
between
them
When
the
end
play
exceeds
0
35
mm
0
0138
in
replace
upper
link
spindle
or
fulcrum
pin
together
with
screw
bushings
Condition
Vehicle
empty
no
payload
Vehicle
loaded
Notes
a
Vehicle
empty
no
payload
consists
of
the
following
conditions
I
Full
tank
of
gasoline
radiator
f1lled
and
engine
oil
level
full
2
Spare
tire
wheel
jack
and
jack
handle
in
design
position
b
Vehicle
loaded
consists
of
the
fol
lowing
conditions
For
all
models
2
persons
and
SIlO
leg
I
103lb
payload
FA
Check
the
screw
of
upper
link
spindle
fulcrum
pin
and
screw
bush
ing
and
repair
or
replace
if
necessary
Note
Discard
dust
cover
and
dust
seal
when
disassembled
ADJUSTMENT
VEHICLE
POSTURE
Vehicle
posture
may
be
incorrect
due
to
weakened
spring
or
other
faulty
condition
The
following
procedures
are
necessary
when
adjustment
is
Ie
quired
That
is
the
vehicle
posture
can
be
adjusted
by
obtaining
only
the
speci
fied
H
dimension
changing
the
length
of
anchor
bolt
I
Raise
front
of
vehicle
on
stands
2
Adjust
H
dimension
with
turn
ing
nut
adjusting
anchor
bolt
H
dimension
changes
approximately
3
5
mm
0
J38
in
vertically
when
adjust
nut
is
turned
one
complete
turn
3
To
make
the
best
vehicle
posture
H
dimension
must
be
in
the
follow
ing
range
H
dimension
mOl
in
All
models
79
to
84
3
11
to
3
31
54
5
2
15
o
i
Fig
FA
24
FA242
Dimension
for
standard
vehicle
postl4re
Page 384 of 537
After
connecting
brake
tube
be
sure
to
check
the
clearance
to
prevent
from
damage
The
clearance
at
the
following
portions
must
be
specified
distance
or
more
Tube
to
body
panel
and
frame
Over
5
mm
0
20
in
Tube
to
edge
of
each
panel
Over
10
mm
0
39
in
Tube
to
tube
Loop
pitch
OVer
5
mm
0
20
in
Between
front
tube
and
rear
tube
Over
9
mOl
0
35
in
Tube
to
moving
parts
Over
10
mm
0
39
in
Loop
tube
to
hood
ledge
panel
Over
10
mm
0
39
in
Notes
a
Brake
tubes
are
shaped
at
factory
to
secure
specified
clearance
and
may
not
require
reshaping
Discard
if
they
call
for
excessive
reshaping
b
In
reshaping
a
brake
tube
take
care
to
avoid
damaging
galvanization
or
collapsing
section
Mter
brake
lines
have
been
asssem
bled
check
to
make
sure
that
all
fittings
and
flare
nu
Is
ale
lightened
to
correct
torques
Tightenint
torque
Brake
tube
to
connector
I
Ston
kg
m
II
to
13
ft
Ib
Brake
tube
to
brake
hose
1
7
to
2
0
kg
m
12
to
14
ft
lb
Connector
and
clip
fixing
bolt
O
3S
to
O
4S
kg
m
2
5
to
3
3
ft
lb
3
way
connector
fixing
bolt
on
rear
axle
case
0
8
to
1
1
kg
m
6
to
8
ft
lb
N
L
S
V
DESCRIPTION
The
Nissan
Load
Sensing
Valve
N
L
S
V
serves
to
change
braking
power
of
the
rear
wheels
in
response
to
changes
in
the
load
and
fluid
pressure
improving
braking
stability
and
shortening
stopping
distances
Brake
System
The
N
L
S
V
is
installed
on
the
frame
being
inclined
at
10
degrees
A
summary
of
the
N
L
S
v
operation
is
given
in
Figures
BR
14
and
BR
15
r
Master
cylinder
TI
II
I
y
1
J
I
l
Attaching
angle
D
Wheel
cylinder
BR928
Fig
BR
14
Construction
of
N
L
S
V
Performance
curve
of
brake
fluid
pressure
is
as
follows
0
S
c
A
0
C
o
l
0
oadea
U1U
Front
wheel
cylinder
fluid
pressure
BR769
Perfonnance
curve
of
fluid
pressure
Fig
BR
15
N
L
S
V
TEST
the
following
occurs
When
rear
wheels
lock
stopping
distance
is
shorter
than
13
1
m
43
0
ft
whether
loaded
or
unloaded
Stopping
distance
should
be
measured
from
the
place
where
the
brake
pedal
is
first
applied
to
the
place
the
vehicle
actually
stops
Front
wheels
lock
simultaneously
with
or
ahead
of
rear
wheels
Operating
test
The
test
should
be
conducted
under
these
conditions
Drive
a
vehicle
with
pay
load
and
then
with
only
driver
on
a
dry
flat
concrete
or
asphalt
road
applying
the
brake
suddenly
at
40
km
h
25
MPH
N
L
S
V
is
functioning
normally
if
BR
9
Page 385 of 537
Ibove
mentioned
st
is
available
when
op
the
FRONT
BRAKE
Brake
System
entire
brake
system
except
N
L
S
V
is
correctly
adjusted
After
shoe
return
spring
Adjuster
assembly
8
Adjuster
head
9
Adjuster
head
shim
10
Lock
spring
11
Adjuster
housing
12
Adjuster
wheel
13
Adjuster
screw
14
Retaining
spring
15
Lock
plate
16
Adjuster
shim
17
Rubber
boot
1
Brake
disc
2
Brake
shoe
assembly
3
Wheel
cylinder
assembly
4
Brake
shoe
upper
return
spring
5
Brake
shoe
lower
return
spring
REMOVAL
I
Jack
up
front
of
vehicle
just
high
enough
to
remove
tire
and
support
it
with
safety
stands
2
Remove
wheel
and
brake
drum
If
brake
drum
cannot
be
easily
removed
return
brake
adjuster
install
two
bolts
M8
x
1
25
in
holes
on
the
flange
face
of
brake
drum
and
tighten
bolts
even
ly
until
brake
drum
is
driven
out
3
In
order
to
ease
operation
re
move
hub
assembly
from
knucRle
spindle
Refer
to
Front
Axle
4
Unhook
upper
lower
and
after
shoe
return
springs
and
then
remove
brake
shoe
assemblies
S
Disconnect
brake
hose
from
wheel
cy
linder
6
Loosen
securing
nut
and
remove
wheel
cylinder
7
Remove
rubber
boot
adjuster
shim
lock
plate
and
retaining
spring
and
then
remove
adjuster
assembly
from
brake
disc
Fig
BR
I
6
Front
brake
1
Brake
hose
2
Wheel
cylinder
attaching
bolt
BA312
3
Rubber
boot
Fig
BR
17
Removing
wheel
cylinder
DISASSEMBLY
AND
ASSEMBLY
Wheel
cylinder
@
rr
l
@
t
a
Wheel
cy
linder
housing
2
Piston
3
Piston
cup
4
Dust
cover
5
Retainer
BR649
6
Connector
7
Packings
8
Connector
bolt
9
Bleeder
screw
10
Bleeder
cap
Wheel
cylinder
can
be
disassembled
simply
by
the
following
procedures
described
below
Remove
retainer
and
dust
cover
and
take
out
piston
from
wheel
cyl
inder
Be
careful
not
to
damage
sliding
part
of
piston
and
piston
cup
Thoroughly
wa
sh
u
disassembled
parts
in
brake
fluid
or
alcohol
Note
Do
not
wash
rubber
parts
with
mineral
oil
since
they
are
deterio
rated
When
alcohol
is
used
however
do
not
immerse
rubber
parts
in
alcohol
longer
than
30
seconds
After
parts
are
cleaned
dry
them
with
com
pressed
air
Assemble
wheel
cylinder
in
reverse
sequence
of
diassembly
When
securing
connector
bolt
in
sert
its
location
tip
to
the
hole
of
wheel
cylinder
firmly
and
tighten
it
securely
Carry
out
operations
carefully
so
that
component
parts
are
not
damaged
or
no
dust
and
other
foreign
materials
enter
cylinder
Note
The
brake
wheel
cylinder
is
available
in
both
NABCO
make
and
TOKICO
make
There
is
no
inter
changeability
of
repair
kits
or
com
ponent
parts
between
NABCO
and
TOKICO
makes
When
replacing
the
repair
kit
or
ent
parts
ascertain
the
brand
of
the
brake
wheel
cylinder
body
Be
sure
to
use
parts
of
the
same
make
as
the
former
ones
INSPECTION
Brake
drum
I
Replace
brake
drum
whose
dia
meter
is
beyond
the
limit
of
1
5
mm
0
OS9
in
with
respect
to
the
standard
inner
diameter
of
2S4
0
rom
10
00
SR
tO
Fig
BR
18
Front
wheel
cylinder
in
Page 403 of 537
Center
This
wear
is
caused
by
overinflation
of
the
tire
The
inflation
pressure
must
be
kept
at
the
specified
value
Shoulder
The
wear
may
be
caused
by
under
inflation
incorrect
wheel
camber
or
continuous
high
speed
driving
on
curves
In
general
the
former
two
causes
are
common
Underinflation
wear
occurs
on
both
sides
of
treads
d
I
Ii
Toe
in
or
toe
out
wear
nf
I
Underinnation
wear
TIRE
ROTATION
Tires
wear
unevenly
and
become
unbalanced
according
to
running
dis
tance
Uneven
tire
wear
often
results
in
tire
noise
which
is
attributed
to
rear
axle
gears
bearing
etc
Meanwhile
the
front
tires
tend
to
wear
unevenly
because
of
improperly
aligned
front
wheel
Accordingly
to
equalize
tire
wear
it
is
necessary
to
rotate
tires
peri
odically
All
the
tires
including
the
spare
tire
are
of
the
same
type
Right
front
Right
rear
14
1
I
@
Spare
t
t
1
1
Left
front
Left
rear
Fig
WT
2
Tire
rotation
1
Wheel
and
Tire
and
on
the
other
hand
camber
causes
wear
only
on
one
side
of
treads
For
cornering
tread
wear
the
driver
must
operate
vehicle
slowing
down
on
curves
Uneven
Uneven
wear
is
caused
by
incorrect
camber
or
caster
malfunctioning
sus
pension
unbalanced
wheel
out
of
round
brake
drum
or
other
mechani
cal
conditions
To
repair
this
abnormal
wear
correct
the
above
faulty
parts
J
I
II
i
11
I
1
Overinllation
wear
1
I
I
t
Uneven
wear
WT007
Fig
WT
1
A
bnormal
tire
wear
The
spare
lire
has
a
different
brand
from
4
tires
on
the
vehicle
Right
front
Right
rear
I
@
Spare
x
J
r
Left
front
Left
rear
The
pare
tire
should
be
used
in
an
emergency
only
Fig
WT
3
Tire
rotation
2
The
tires
are
provided
with
tread
wear
indicator
at
six
places
around
tire
circumference
indicating
1
6
mm
J
in
tread
depth
When
the
tires
wear
and
then
the
marks
appear
re
place
them
with
new
ones
See
Figure
WT
4
WT3
Tire
tread
0E
I
Tread
wear
indicator
c
WH024
Fig
WT
4
Tread
wear
indicator
CHANGING
TIRE
To
change
tire
with
wheel
using
a
jack
in
the
safe
manner
observe
the
following
procedures
1
To
remove
spare
tire
insert
jack
rod
to
guide
and
then
turn
it
counter
clockwise
When
installing
lighten
a
little
strong
after
lifting
up
and
lock
Fig
WT
5
Removing
spare
tire
2
It
is
necessary
to
remove
wheel
cap
and
temporarily
to
loosen
wheel
nuts
before
vehicle
is
jacked
up
3
To
jack
up
front
place
jack
under
side
frame
about
S20
mOl
20
5
in
at
rear
of
front
axle
center
after
apply
ing
parking
brake
and
blocking
rear
wheels
g
1
WT012
Fig
WT
6
Jacking
up
front
side