torque DATSUN PICK-UP 1977 Owner's Manual
Page 131 of 537
Engine
Fuel
SERVICE
DATA
AND
SPECIFICATIONS
Airclelllcr
Ail
control
val
partially
opem
Air
ntrol
valve
fuUy
opens
Idle
ompensatoI
partially
opens
Hi
mettiNo
l
Bi
metal
No
2
Idle
ompen
tor
fully
opens
Bi
metal
No
1
Hi
metd
No
2
Fuels
Stem
Fuel
prtuure
Fuel
pump
apacHy
C
rbu
tor
C
rbu
tor
type
Carburetor
model
Oc
oF
oCe
F
oCe
F
Oc
OF
kpJcm2
poi
US
pt
min
at
rpm
Outlet
diameter
Venturi
diameter
Main
jet
Main
air
bleed
Slow
jet
Power
val
Float
level
U
fuel
preuure
rom
in
mm
in
mm
in
kg
cm2
psi
Adjustment
Engine
idling
Ignition
timing
Idle
speed
CO
at
mloro
Fuel
level
adjustment
Gap
between
Ive
stem
and
noat
at
mm
in
H
H
h
Fast
idle
adjwtmcnt
Fast
idle
earn
tint
step
Gap
between
throttle
IYe
and
carburetor
body
mm
in
Vacuum
break
adjustment
Gap
between
choke
alve
and
carburetor
body
mm
in
Choke
unloadel
adjusttncnt
Gap
between
choke
alw
and
carburetor
body
rom
in
Bi
metalsettinl
Bi
metal
resistance
at
2Ioe
700F
n
Bi
metalsettina
lnterloc
k
opcnina
of
primary
and
secondary
throtUc
valves
mmOn
Duh
pot
adjustment
without
loadin
I
m
Anti
diclClinasolenoid
valV
C
tiahtenina
torque
ka
m
in
lb
a
c
D
D
set
p
JSure
0
m
sea
level
and
760
mmHg
30
inlla
atmospheric
pressure
J
mmHa
inHg
R
C
D
D
tiahteninl
torque
kg
m
n
b
Nl
n
California
modell
Manual
transmiSsion
I
Automatic
transmission
California
modeb
Manual
transmission
I
Automatic
transmission
30
to
54
86
to
129
above
55
131
30
to
54
86
to
129
above
55
131
60
to
70
140
to
158
70
to
90
158
to
194
60
to
70
140
to
158
70
to
90
158
to
194
above
70
158
above
90
194
above
70
158
above
90
194
0
21
to
0
27
2
99
to
3
84
t
OOO
2
i
I
OOO
0
21
to
0
27
2
99
to
3
84
1
000
2
i
I
OOO
Strombcra
type
OCH340
7A
DCH340
48A
Stromt
rg
type
DCH34Q
45B
DCH340
46A
Primary
Secondary
Primary
Secondary
Primary
Secondary
Primary
Secondary
30
I8t
340
339
30
1
181
34
1
339
30
1
181
34
1
339
30
1
181
34
1
339
24
0
945
310
220
24
0
945
31
1
220
24
0
945
31
1
220
24
0
945
31
1
220
199
1160
199
1160
1101
1160
101
1160
170
160
170
160
170
60
170
1
60
148
1100
148
1100
148
1100
148
180
143
143
140
140
23
0
906
23
0
906
23
0
906
23
0
906
0
17
2
408
0
17
2
40B
0
17
2
408
0
17
2
408
1201750
rpm
CO
2
1
120
650
rpm
0
100
750rpm
C02
t
1
120
650
rpm
0
position
CO
2
t
1
position
CO
2
t
1
7
2
0
283
7
2
0
283
7
2
0
283
7
2
0
283
23
0
906
23
0
906
23
0
906
23
0
906
1
3
to
1
7
1
3
to
1
7
1
3
to
1
7
1
3
to
1
7
0
051
to
0
067
0
051
to
0
067
0
051
to
0
067
0
051
to
0
067
1
33
to
1
47
1
58
to
1
72
1
33
to
1
47
1
58
to
1
72
0
0524
to
0
0579
0
0622
to
0
0677
0
0524
to
0
0579
0
0622
to
0
0677
1
42
0
056
1
42
0
056
1
42
0
056
1
5
0
059
2
45
0
096
2
45
0
096
2
4
0
096
2
45
0
096
3
7
to
8
9
3
7
to
8
9
3
7
to
B
9
3
7
to
8
9
Center
of
the
ndex
mark
Center
of
the
index
mark
7
38
0
291
7
38
0
291
7
38
0
290
7
38
0
291
1
900
to
2
100
1
650
to
1
850
1
900
to
2
100
1
650
to
1
850
180
to
350
156
to
304
180
to
350
156
to
304
180
to
350
156
to
304
180
to
350
156
to
304
510
to
550
490
to
530
510
to
550
490
to
530
20
1
to
21
7
19
3
to
20
9
20
1
to
21
7
19
3
to
20
9
20
to
40
17
4
to
34
1
20
to
40
11
4
to
34
7
20
to
40
17
4
to
34
7
20
to
40
17
4
to
34
1
EF
35
Page 147 of 537
9
From
air
pump
l
h
1
Not
actuated
REMOVAL
AND
INSTALLATION
Air
p
mp
sir
cleaner
Remove
air
hose
then
detach
air
cleaner
from
hoodledge
Air
cleaner
element
and
Ii
r
deancr
lower
body
are
built
into
a
unit
construction
Replace
air
cleaner
clcl
nen
and
lower
body
as
an
assembly
J
J
tt
c
t
o
J
EC
323
Fig
EC
26
Replacing
oir
cleaner
element
Air
pum
Remove
air
hoses
from
air
pump
2
Loosen
air
pump
adjusting
bar
mounting
bolts
and
air
pump
mount
ing
bolts
then
remove
air
pump
drive
bell
3
Remove
air
pump
pulley
4
Remove
air
pump
from
bracket
Air
control
valve
California
models
l
Disconnect
air
hoses
and
a
vacu
um
hose
from
air
control
valve
2
Remove
air
con
trol
valve
from
bracket
E
A
R
valve
California
modela
Remove
vacuum
pipe
and
air
hose
and
dismount
E
A
R
valve
Emission
Control
System
o
jJ
To
Intake
mamfold
rF
vacuum
r
To
air
cleaner
From
air
pump
EC781
Fig
EC
27
Locotion
of
E
A
R
wive
Antl
backflravalve
Disconnect
air
hose
and
vacuum
hose
from
anti
backfire
valve
Check
valve
Disconnect
hose
and
remove
check
valve
from
air
gallery
pipe
Air
ganery
pIpe
andinJactlon
nozzles
It
is
very
difficult
to
remove
the
air
gallery
from
the
exhaust
manifold
without
bending
the
pipe
which
could
result
in
fractures
or
leakage
There
fore
removal
of
the
air
gallery
pipe
and
injection
nozzles
should
be
under
taken
only
when
they
are
damaged
I
Lubricate
around
the
connecting
portion
of
air
injection
nozzle
and
air
gallery
with
engine
oil
2
Hold
air
injection
nozzle
hexagon
head
with
a
wrench
and
unfasten
flare
screw
connecting
ait
gallery
to
injec
tion
nozzle
Remove
air
gallery
EC
14
To
intake
manifold
vaCUl
lm
r
Y
4
9
Gf
T
I
To
air
cleaner
I
Actuated
EC299
Fig
EC
25
Operation
of
air
control
value
Notes
a
Apply
engine
011
to
rews
several
times
during
above
work
b
Be
atreful
not
to
damage
other
parts
3
Unfasten
air
injection
nozzle
from
cylinder
head
applying
engine
oil
to
screwed
portion
several
times
4
Check
air
gallery
and
nozzle
for
fractures
or
leakage
Clean
air
injection
nozzle
with
a
wire
brush
5
At
time
of
installation
hold
air
injection
nozzle
hexagon
head
with
a
wrench
and
tighten
air
gallery
flange
screw
to
a
torque
of
5
0
to
5
9
kg
m
36
to
43
ft
lb
6
Check
cylinder
head
air
injection
nozzle
and
air
gallery
for
leaks
with
engine
running
Air
pump
relief
vslve
Loosen
carburetor
air
cleaner
mounting
sc
ews
and
remove
air
pump
relief
valve
InstallatIon
Install
in
the
reverse
order
of
reo
moval
DISASSEMBLY
AND
ASSEMBLY
Disassembly
of
air
pump
1
Remove
four
pulley
drive
bolts
and
remove
pulley
from
hub
2
Secure
air
pump
drive
hub
in
a
vise
as
shewn
in
Figure
EC
28
and
remove
four
end
cover
bolts
Page 149 of 537
Emission
Control
System
Assembl
of
air
pump
I
Front
bearing
Support
the
rear
end
face
of
air
pump
housing
with
RotOL
Adapter
STl9890000
Press
front
bearing
into
place
with
a
press
arid
Bearing
Ptessing
Tool
STl9940000
I
I
STl9940000
X8
03
Fig
EC
35
Pressing
ball
bearing
L
2
Bearing
cover
Torque
four
bearing
cover
securing
bolts
to
0
1
to
0
2
kg
m
0
7
to
1
4
ft
lb
3
Rotor
shaft
Support
the
inward
bottom
of
rotor
with
Rotor
Stand
STl9920000
Press
rotor
into
place
with
a
press
and
Bearing
Drive
STl9910000
until
the
stepped
portion
of
rotor
shaft
touches
front
bearing
inner
race
C
1
ST
19910000
ST19920000
I
EC3Q7
Fig
EC
36
Pressing
rotor
shaft
Notes
a
Be
sure
to
drive
front
bearing
inner
race
in
b
After
rotor
is
installed
in
place
ensure
that
the
rotor
end
is
pos
tioned
below
the
end
face
of
air
pump
housing
Position
of
rotor
end
below
air
pump
housing
0
050
to
0
150
mm
0
0020
to
0
0059
in
4
Air
pump
drive
hub
Support
the
inward
bottom
of
rotor
with
Rotor
Stand
STl9920000
EC
16
EC562
Fig
EC
34
Componenbr
of
two
vane
type
Press
drive
hub
into
place
with
a
pre
and
Bearing
Driver
STI
991
0000
until
the
end
face
of
drive
hub
touches
froE
c
ing
in
n
c
j
STt9910000
STl9920000
e
r
EC308
Fig
EC
37
Pressing
air
pump
drive
hub
5
Carbon
shoe
1
Place
air
pump
drive
hub
in
a
vise
2
Clean
carbon
dust
etc
from
shoe
grooves
3
Align
rotor
with
housing
proper
ly
Refer
to
Figure
EC
38
Then
insert
carbon
shoes
into
place
noting
their
directions
Page 150 of 537
EC540
Fig
EC
38
Install
carbon
shoe
Notes
a
Carbon
shoe
A
is
1
mm
0
039
in
wider
than
B
Do
not
confuse
them
b
If
carbon
shoes
are
exposed
beyond
the
rotor
end
face
remove
carbon
shoes
and
clean
shoe
grooves
Reassemble
carbon
shoes
6
Vane
1
Pack
vane
bearing
with
high
melting
point
grease
MIL
G
3545
A
Esso
ANDOK260
or
equivalent
and
insert
dummy
shaft
into
the
Vane
bearing
STl9900000
EC563
Fig
EC
39
Vane
assembly
2
Install
vane
in
place
on
rotor
using
Dummy
Shaft
STl9900000
as
a
guide
Note
The
vanes
may
require
6
to
16
km
4
to
10
miles
wear
in
running
time
In
the
event
a
slight
squeaking
still
remains
drive
the
car
about
64
to
80
km
h
40
to
50
MPH
In
most
cases
6
to
16
km
4
to
10
miles
will
be
sufficient
for
wear
in
7
Shoe
spring
Place
shoe
springs
in
deeper
groove
of
shoe
Emission
Control
System
i
111
11
EC123
Fig
EC
40
Installing
shoe
spring
Note
When
instaUing
a
shoe
spring
make
sure
that
the
outward
bend
ing
side
faces
in
shoe
and
that
both
ends
of
spring
face
in
the
wall
of
shoe
groove
Be
sure
to
push
spring
in
so
that
spring
end
face
is
flush
with
rotor
8
Rotor
ring
Install
rotor
ring
by
correctly
align
ing
the
rear
end
face
of
rotor
with
the
0
mark
in
rotor
ring
and
tighten
four
screws
to
the
specified
torque
with
Hexagonal
Wrench
ST19810000
Tightening
torque
0
5
to
0
7
kg
m
3
6
to
5
1
ft
lb
5T19810000
EC124
Fig
EC
41
In8talling
rotor
ring
9
Removal
of
dummy
shaft
Carefuny
withdraw
dummy
shaft
from
vane
10
Vane
shaft
Pack
rear
bearing
with
high
melting
point
grease
MIL
G
3545
A
so
ANDOK
260
or
equivalent
Apply
thin
coating
of
grease
to
vane
shaft
and
rotor
ring
and
insert
vane
shaft
into
its
bearing
EC
17
Notes
a
Do
not
apply
an
u
tue
stress
to
vane
shaft
when
inserting
b
If
two
vanes
are
dislocated
when
inserting
vane
shaft
correctly
align
vanes
by
inserting
dummy
shaft
Then
draw
out
dummy
shaft
and
insert
vane
shaft
c
When
wear
occurs
on
vane
shaft
or
when
replacement
of
rear
bearing
is
necessary
replace
rear
cover
as
sembly
Jl
End
cover
Position
end
cover
in
place
Snugly
tighten
the
bolt
close
to
the
dowel
Then
tighten
four
bolts
to
the
speci
fied
torque
Tightening
torque
0
7
to
0
9
kg
m
5
1
t06
5
ft4b
EC302
Fig
EC
42
Insla
ling
end
cover
12
Pulley
Tighten
four
pulley
securing
bolts
to
the
specified
torque
Tightening
torque
0
7
to
0
9
kg
m
5
lt06
5
ft
lb
INSPECTION
Air
InJection
system
hosas
Check
air
system
hoses
for
loose
connections
cracks
or
deterioration
Retighten
or
replace
if
necessary
Air
ystem
manifold
Check
air
gaUery
pipe
and
injection
nozzles
for
loose
connections
and
cracks
Retighten
or
replace
if
neces
sary
Page 160 of 537
REMOVAL
AND
INSPECTION
Removal
and
inspection
can
be
done
as
follows
Removal
Catalytic
converter
1
Apply
parking
brake
2
Place
wheel
lock
under
each
tire
3
Jack
up
the
vehicle
4
Remove
lower
shelter
of
catalytic
converter
5
Dismount
catalytic
converter
EC453
Fig
EC
69
Removing
catalytic
conuerter
Inspection
Preliminary
inspection
Visually
check
condition
of
all
component
parts
including
ho
s
tubes
and
wires
replace
if
necessary
Refer
to
Inspection
of
A
I
S
on
page
EC
17
Catalytic
converter
Whether
catalytic
converter
is
nor
mal
or
not
can
be
checked
by
ob
serving
variation
in
CO
percentage
The
checking
procedure
is
as
follows
Apply
parking
brake
Shift
gears
into
Neutral
for
manual
transmission
and
Neutral
or
Park
for
automatic
transmission
1
Visually
check
catalytic
converter
for
damage
or
cracks
Emission
Control
System
2
Remove
air
hose
between
5
way
connector
and
air
check
valve
Plug
the
disconnected
hose
to
prevent
dust
from
entering
Refer
to
page
ET
12
3
Check
carburetor
pipes
for
proper
connection
4
Warm
up
engine
sufficiently
5
Race
engine
1
500
to
2
000
rpm
two
or
three
times
under
no
load
then
run
engine
for
o
e
minute
at
idling
speed
6
Adjust
throttle
adjusting
screw
until
engine
attains
to
specified
speed
Refer
to
page
ET
10
7
Check
ignition
timing
If
neces
sary
adjust
it
to
specifkations
Refer
to
page
ET
10
B
Adjust
idle
adjusting
screw
until
specified
CO
percentage
is
obtained
Refer
to
page
ET
12
9
Repeat
the
adju
stment
process
as
described
in
steps
5
to
8
above
until
specified
CO
percentage
is
obtained
Note
Adjustment
in
step
9
should
be
made
ten
minutes
after
engine
has
wanned
up
10
Race
engine
1
500
to
2
000
rpm
two
or
three
times
under
no
load
and
make
sure
that
specified
CO
per
centage
is
obtained
11
Remove
cap
and
connect
air
hose
to
air
check
valve
If
idling
speed
increases
readjust
it
to
specified
speed
with
throttle
ad
justing
screw
12
WaRn
up
engine
for
about
four
minutes
at
2
000
rpm
under
no
load
13
Measure
CO
percentage
at
idling
speed
After
step
12
has
been
coin
pleted
wait
for
one
minute
before
making
CO
percentage
measurement
14
If
CO
percentage
measured
in
step
13
is
less
than
0
3
the
catalytic
converter
is
normal
15
If
CO
percentage
measured
in
step
13
is
over
0
3
recheck
A
I
S
and
replace
air
check
valve
Then
perform
inspection
steps
12
and
13
EC
27
16
If
CO
percentage
is
still
over
0
3
in
step
15
catalytic
conyerter
is
malfunctioning
Replace
catalytic
con
verter
INSTALLATION
To
install
reverse
the
removal
pro
cedure
Bolt
lightening
torque
specifications
Tightening
torque
Catalytic
converter
2
6
to
3
4
kg
m
19
to
25
ft
Ib
FLOOR
TEMPERATURE
WARNING
SYSTEM
DESCRIPTION
The
floor
temperature
warning
system
consists
of
a
floor
temperature
sensing
switch
installed
on
the
vehi
cle
s
floor
floor
temperature
relay
and
a
warning
lamp
on
the
instrument
panel
and
wires
that
connect
these
parts
When
the
floor
tempera
ture
rises
to
an
abnormal
level
the
warning
lamp
will
light
to
call
the
attention
of
the
driver
The
wiring
diagram
of
this
system
and
location
of
the
floor
temperature
sensing
switch
are
ilIus
trated
in
Figures
EC
70
and
EC
71
Page 173 of 537
OPERATION
When
the
ignition
switch
turned
fully
clockwise
to
the
START
posi
tion
battery
current
flows
through
series
and
shunt
coils
of
the
solenoid
magnetizing
the
solenoid
The
plunger
is
pulled
into
the
solenoid
so
that
it
operates
the
shift
lever
to
move
the
drive
pinion
into
the
flywheel
ring
gear
Then
the
solenoid
switch
contacts
close
after
the
drive
pinion
is
partially
engaged
with
the
ring
gear
Closing
of
the
solenoid
switch
contacts
c
uses
the
motor
to
crank
the
engine
and
also
cut
out
the
series
coil
of
the
solenoid
the
magnetic
pull
of
the
shunt
coil
being
sufficient
to
hold
the
pinion
in
mesh
after
the
shifting
has
been
performed
After
the
engine
starts
running
the
driver
releases
the
ignition
key
and
it
automatically
returns
to
the
ON
posi
tion
The
torsion
spring
then
actuates
the
shift
lever
to
pull
the
pinion
which
allows
the
solenoid
swi
tch
contacts
to
open
Consequently
the
starting
mo
tor
stops
Engine
Electrical
System
I
I
Ring
gear
2
Shift
lever
guide
3
Armature
4
Battery
5
Field
coil
6
Stationary
contact
7
Monble
contactor
More
positive
meshing
and
demeshing
of
the
pinion
and
the
ring
gear
teeth
are
secured
by
means
of
the
overrunning
clutch
The
overruIUling
clutch
employs
a
shift
lever
to
slide
the
pinion
along
the
armature
shaft
EE
6
F
l
cp
o
r
1
I
I
W
m
EE274
8
Shunt
coil
9
Plunger
10
Ignition
switch
11
Series
coil
12
Torsion
spring
13
Shift
lever
14
Pinion
Fig
EE
7
Starting
motor
circuit
into
or
out
of
mesh
with
the
ring
gear
teeth
The
overrunning
clutch
is
de
signed
to
transmit
driving
torque
from
the
motor
armature
to
the
ring
gear
but
prevent
the
armature
from
over
running
after
the
engine
has
started
Page 185 of 537
If
current
flows
in
both
positive
and
negative
directions
diode
is
short
circuited
If
current
flows
in
one
direc
tion
only
diode
is
in
good
condition
Test
probe
of
a
circuit
t
ter
e
Gl
terminal
EEl
plate
EJ
plate
terminal
terminal
e
plate
e
plate
terminal
e
plate
@
plate
Xl
plate
e
plate
INSPECTION
OF
BRUSH
Check
movement
of
brush
and
if
movement
is
not
smooth
check
brush
holder
and
clean
if
necessary
Check
brush
for
wear
If
it
is
worn
down
to
less
than
the
specified
limit
replace
brush
assembly
Check
brush
pig
tail
and
if
dam
aged
replace
Brush
wear
limiting
line
EE127
Fig
EE
41
Bnlsh
wear
limil
Engine
Electrical
System
If
there
is
a
faulty
diode
replace
all
diodes
ix
diode
as
an
assembly
See
table
below
These
diodes
are
unserviceable
Conduction
o
o
o
SPRING
PRESSURE
TEST
With
brush
projected
approximate
ly
2
mm
0
079
in
from
brush
holder
measure
brush
spring
pressure
by
the
use
of
a
pring
balance
Normally
the
rated
pressure
of
a
new
brush
spring
is
255
to
345
gr
9
0
to
12
202
Morevover
when
brush
is
worn
pressure
decrease
approximately
20
g
0
7
02
per
1
mm
0
0039
in
wear
t
m
0
079
in
or
f
EEO
9
Fig
EE
42
M
CJ
uring
pring
preaure
EE
lB
ASSEMBLY
Reassemble
alternator
in
the
reverse
sequence
of
disassembly
noting
the
following
I
When
soldering
each
stator
coil
lead
wire
to
diode
assembly
terminal
carry
out
the
operation
as
fast
as
pas
sible
2
When
installing
diode
A
terminal
install
insulating
bush
correctly
1
Imulating
bush
2
A
terminal
bolt
3
Diode
cover
4
Rear
cover
5
Diode
a
sembly
EE347
Fig
EE
43
Sectional
view
of
diode
and
A
term
inal
3
Tighten
pulley
nut
with
tighten
ing
torque
of
3
5
to
4
0
kg
m
25
3
to
29
0
ft
Ib
When
pulley
is
tightened
make
sure
that
deflection
of
V
groove
is
less
than
0
3
mm
0
01
IS
in
q
ffl
t
EE051
Fig
EE
44
Tightening
pulley
nut
Page 214 of 537
DESCRIPTION
INSPECTION
CLEANING
AND
REGAP
DESCRIPTION
The
spark
plugs
are
of
the
conven
tional
type
having
14
mm
0
551
in
threads
The
spark
plug
gaps
are
1
0
to
1
1
mm
0
039
to
0
043
in
on
Cali
fomia
models
and
0
8
to
0
9
mm
0
031
to
0
035
in
on
non
California
models
The
inspection
and
cleaning
should
be
made
every
suitable
mainte
nance
period
If
necessary
replace
Note
All
spark
plugs
installed
on
an
engine
must
be
of
the
same
brand
and
the
same
number
of
heat
range
INSPECTION
L
Remove
spark
plug
wire
by
pulling
on
boot
not
on
wire
itself
2
Remove
spark
plugs
3
Check
electrodes
and
inner
and
outer
porcelains
of
plugs
noting
the
type
of
deposits
and
the
degree
of
electrode
erosion
Refer
to
Figure
EE
96
Normal
Brown
to
grayish
tan
de
posits
and
slight
electrode
wear
indicate
correct
spark
plug
heat
range
Carbon
fouled
Dry
fluffy
carbon
deposits
on
the
insulator
and
electrode
are
usually
caused
by
slow
speed
driving
in
city
weak
ignition
too
rich
fuel
mixture
dirty
air
cleaner
etc
It
is
advisable
to
replace
with
plugs
having
hotter
heat
range
Oil
fouled
Wet
black
deposits
indi
cate
excessive
oil
entrance
into
combustion
chamber
through
worn
rings
and
pistons
or
excessive
clear
ance
between
valve
guides
and
stems
If
the
same
condition
re
mains
after
repair
use
a
hotter
plug
Engine
Electrical
System
SPARK
PLUG
CONTENTS
EE
4B
EE
47
EE
47
EE
47
SERVICE
DATA
AND
SPECIFICATIONS
TROUBLE
DIAGNOSES
AND
CORRECTIONS
EE
4B
Overheating
White
or
light
gray
in
sulator
with
black
or
gray
brown
spots
and
bluish
burnt
electrodes
indicate
engine
overheating
More
over
the
appearance
results
from
incorrect
ignition
timing
loose
Normal
Overheating
EE079
4
After
cleaning
dress
electrodes
with
a
smaU
fine
file
to
flatten
the
surfaces
of
both
center
and
side
electwdes
in
parallel
Set
spark
plug
gap
to
specification
5
InstaU
spark
plugs
and
torque
each
plug
to
L5
to
2
0
kg
m
11
to
14
ft
Ib
6
Connect
spark
plug
wires
CLEANING
AND
REGAP
Clean
spark
plugs
in
a
sand
blast
type
cleaner
Avoid
excessive
blasting
Clean
and
remove
carbon
or
oxide
deposits
but
do
not
wear
away
porcelain
If
deposits
are
too
stubborn
EE
47
spark
plugs
low
fuel
pump
pres
sure
wrong
selection
of
fuel
a
hotter
plug
etc
It
is
advisable
to
replace
with
plugs
having
colder
heat
range
Ir
i
Carbon
fould
Worn
Fig
EE
96
Spark
plug
discard
plugs
After
cleaning
spark
plugs
renew
firing
surface
of
electrodes
with
me
mentioned
aboVe
Then
gap
spark
plugs
to
specified
values
with
a
round
wire
feeler
gauge
All
spark
plugs
new
or
used
should
have
the
gap
checked
and
reset
by
bending
ground
electrode
EEOBO
Fig
EE
97
Setting
park
plug
gap
Page 215 of 537
Engine
Electrical
System
SERVICE
DATA
AND
SPECIFICATIONS
California
models
Non
California
models
For
Canada
except
for
Canada
BP6ES
ll
BP6ES
BPR6ES
Standard
L45PW
ll
L45PW
BP4E
ll
BP5ES
ll
BP4E
BP5ES
BPR4ES
Type
Hot
type
L46PW
ll
L47PW
ll
L46PW
L47PW
BPR5ES
Cold
type
BP7ES
ll
BP7ES
BPR7ES
LMPW
ll
LMPW
1
0
to
l
l
0
8
to
0
9
0
8
to
0
9
Plug
gap
mm
in
0
039
to
0
043
0
031
to
0
D35
0
031
to
0
035
Tightening
torque
kg
m
ft
Ib
I
1
5
to
2
0
11
to
14
TROUBLE
DIAGNOSES
AND
CORRECTIONS
When
engine
does
not
start
If
there
is
no
problem
in
fuel
system
ignition
system
should
be
checked
This
can
be
easily
done
by
detaching
a
high
tension
wire
from
spark
plug
starting
engine
and
ob
serving
condition
of
spark
that
occurs
between
high
tension
wire
and
spark
plug
terminal
After
checking
this
repair
as
necessary
Note
On
California
models
disc
on
nect
anti
dieseling
solenoid
valve
connector
to
cut
off
supply
of
fuel
to
engine
and
then
observe
the
condition
of
spaIks
while
starter
motor
is
in
operation
Condition
Location
Probable
cause
Corrective
action
No
spark
at
all
Distributor
Faulty
insulation
of
condenser
Non
Cali
Replace
fomia
models
Breakage
of
lead
wire
on
low
tension
side
Repair
Poor
insulation
of
cap
and
rotor
head
Replace
Seized
points
Non
California
models
Repair
Open
pick
up
coil
California
models
Replace
Air
gap
wider
than
specification
Cali
Adjust
fornia
models
Ignition
coil
Wire
breakage
or
short
circuit
of
coil
Replace
with
new
one
High
tension
wire
Wire
coming
off
Repair
Faulty
insulation
Replace
Transistor
ignition
Faulty
transistor
ignition
unit
Replace
unit
California
models
EE
4B
Page 219 of 537
Engine
Removal
Installation
ENGINE
REMOVAL
AND
INSTAllATION
REMOVAL
INSTALLATION
ENGINE
MOUNTING
INSULATORS
REMOVAL
It
is
much
easier
to
remove
engine
and
transmission
as
a
single
unit
than
to
remove
them
separately
After
re
moval
engine
can
be
separated
from
transntission
assembly
Notes
a
Be
sure
to
hoist
engine
and
jack
up
transmission
in
a
safe
manner
b
Use
fender
cove
to
protect
vehicle
body
1
Remove
battery
2
Scribe
hood
hinge
location
for
proper
reinstallation
and
remove
hood
Note
Have
an
assistant
help
you
so
as
to
prevent
damage
to
body
3
Drain
radiator
coolant
4
Disconnect
upper
and
lower
radiator
hoses
from
engine
5
Remove
two
oil
cooler
hoses
from
lower
end
of
radiator
Auto
ma
tic
transmission
models
only
6
Remove
radiator
shroud
7
Remove
four
bolts
securing
radia
tor
and
detach
radiator
Note
Always
tighten
securing
bolt
at
upper
right
hand
side
together
with
body
harness
terminal
8
Remove
carburetor
air
cleaner
as
follows
Remove
fresh
air
duct
Remove
hot
air
duct
Loosen
air
cleaner
band
bolt
and
air
cleaner
supporting
bolts
Disconnect
air
cleaner
ta
air
pump
hose
Disconnect
air
cleaner
to
rocker
cover
hose
at
rocker
cover
Disconnect
air
cleaner
to
air
control
valve
hose
California
models
only
CONTENTS
ER
2
ER
3
ER
3
FRONT
INSULATOR
REAR
INSULATOR
TIGHTENING
TORQUE
ER
4
ER
4
ER
4
Disconnect
air
deaner
to
A
B
valve
hose
Disconnect
air
cleaner
ta
vacuum
hoses
Note
Protect
carburetor
from
dust
and
foreign
matter
by
placing
cover
over
air
inlet
opening
9
Disconnect
fuel
pump
to
fuel
fdter
hose
and
return
hose
10
Disconnect
carbon
canister
hose
on
engine
side
II
Disconnect
air
pump
air
C1eaner
to
al
p
p
hose
12
Disconnect
following
cables
wires
and
hoses
Engine
ground
cable
Accelerator
wire
at
carburetor
High
tension
cable
between
ignition
coil
and
distributor
Wire
to
distributor
at
body
ter
minal
Wire
to
oil
pressure
switch
Wires
to
thermal
transmitter
Wires
to
B
C
p
D
cut
solenoid
Non
California
models
only
auto
choke
heater
and
anti
dieseling
solenoid
Wires
to
alternator
Wires
to
starter
motor
Heater
inlet
and
outlet
hoses
if
so
equipped
Vacuum
hose
of
Master
Vac
at
in
taJce
manifold
Wires
for
back
up
lamp
switch
Cable
to
speedometer
13
Remove
transmission
control
linkage
from
transmission
Manual
transmission
models
I
Detach
rubber
boot
2
Remove
E
ring
and
control
lever
pin
from
transmission
striking
rod
guide
and
remove
control
lever
ER
2
Fig
ER
l
Automatic
transmission
models
I
Disconnect
selector
range
lever
from
manual
shaft
2
Disconnect
wires
at
inhibitor
switch
and
down
shift
solenoid
14
Air
conditioner
equipped
models
need
following
procedures
1
After
removing
flexible
hose
support
remove
four
comi
ressor
se
curing
bolts
Then
move
the
com
pressor
to
battery
support
2
Remove
vacuum
hoses
of
F
LC
D
solenoid
valve
3
Remove
F
LC
D
actuator
15
Remove
two
bolts
securing
clutch
operating
cylinder
Then
dis
connect
operating
cylinder
and
flexi
ble
tube
as
an
assembly
Manual
transmission
models
only
16
Disconnect
front
exhaust
tube
from
exhaust
manifold
17
Remove
propeller
shaft
I
Disconnect
propeller
shaft
center
bearing
bracket
from
third
crossmember
2
Disconnect
propeller
shaft
from
companion
flange
of
differential
carrier
3
Remove
propeller
shaft
from
transmission
and
plug
up
rear
end
of
extension
housing
of
transmission
to
prevent
oil
leakage
18
Attach
a
suitable
wire
or
chain
to
lift
engine
19
Remove
front
engine
mounting
bolts
at
engine
mounting
front
sup
port