ignition DATSUN PICK-UP 1977 Owner's Manual
Page 96 of 537
Condition
Loss
of
water
Poor
circulation
Corrosion
Overheating
Overcooling
Cooling
System
TROUBLE
DIAGNOSES
AND
CORRECTIONS
Probable
cause
Damaged
radiator
seams
Leaks
at
heater
connections
or
plugs
Leak
at
water
temperature
gauge
Loose
joints
Damaged
cylinder
head
gasket
Cracked
cylinder
block
Cracked
cylinder
head
Loose
cylinder
head
bolts
Restriction
in
system
Insufficient
coolant
Inoperative
water
pump
Loose
fan
belt
Inoperative
thermostat
Excessive
impurity
in
water
Infrequent
flushing
and
draining
of
system
Inoperative
thermostat
Radiator
fin
choked
with
mud
chaff
etc
Incorrect
ignition
and
valve
timing
Dirty
oil
and
sludge
in
engine
Inoperative
water
pump
Loose
fan
belt
Restricted
radiator
Inaccurate
temperature
gauge
Impurity
in
water
Inoperative
thermostat
Inaccurate
temperature
gauge
CO
7
Corrective
action
Repair
Repair
Tigh
ten
Tighten
Replace
Check
engine
oil
for
contamination
and
refill
as
necessary
Replace
Check
engine
oil
in
crankcase
for
mixing
with
water
by
pulling
oil
level
gauge
Replace
Tighten
Check
hoses
for
crimps
and
clear
the
system
of
rust
and
sludge
by
flushing
radiator
Replenish
Replace
Adjust
Replace
Use
soft
clean
water
Rain
water
is
satis
factory
Cooling
system
should
be
drained
and
flushed
periodically
Permanent
anti
freeze
Ethylene
glycol
base
can
be
used
through
out
the
seasons
of
the
year
and
change
periodically
at
intervals
recommended
Replace
Clean
out
air
passage
thoroughly
by
using
air
pressure
from
engine
side
of
radiator
Adjust
Refill
Replace
Adjust
Flush
radiator
Replace
Use
soft
clean
water
Replace
Replace
Page 113 of 537
Step
system
The
construction
of
this
system
may
correspond
to
the
idling
and
slow
system
of
the
primary
system
Tlris
system
aims
at
the
proper
filling
up
of
the
gap
when
fuel
supply
is
transferred
from
the
primary
system
to
the
secondary
one
The
step
port
is
located
near
the
secondary
throttle
valve
edge
in
its
fully
closed
state
Secondary
switchover
mechanism
The
secondary
throttle
valve
is
linked
to
the
diaphragm
which
is
actuated
by
the
vacuum
created
in
the
venturi
A
vacuum
jet
is
provided
at
each
of
the
primary
and
secondary
venturies
and
the
composite
vacuum
of
these
jets
actuates
the
diaphragm
As
the
linkage
causes
the
secondary
throttle
valve
to
close
until
the
prima
ry
throttle
valve
opening
reaches
ap
proximately
500
fuel
consumption
during
normal
operation
is
not
exces
sive
During
high
speed
running
as
shown
in
Figure
EF
28
as
the
vacuum
at
the
venturi
is
increased
the
dia
phragm
is
pulled
against
the
diaphragm
spring
force
and
then
secondary
throt
tie
valve
is
opened
The
other
side
during
low
speed
running
as
the
primary
throttle
valve
opening
does
not
reach
500
the
secondary
throttle
valve
is
locked
to
close
completely
by
the
locking
arm
which
is
interlocked
with
primary
throttle
arm
by
linkage
When
the
primary
throttle
valve
opening
reaches
wider
position
than
500
the
secondary
throttle
valve
is
ready
to
open
because
the
locking
arm
revolves
and
leaves
from
the
se
condary
throttle
arm
Engine
Fuel
HI
h
speed
circuit
The
high
speed
circuit
improves
high
engine
output
performance
during
high
speed
driving
This
circuit
operates
only
when
driving
at
high
speed
It
consists
of
a
richer
jet
high
speed
enricher
air
bleed
and
richer
nozzle
When
the
velocity
of
suction
air
flowing
through
the
carburetor
secondary
bore
in
creases
additional
fuel
is
drawn
out
of
the
richer
nozzle
@
2
EF234
Secondary
I
Richer
jet
2
High
speed
enricher
air
bleed
3
Richer
nozzle
Primary
Fig
EF
29
High
speed
circuit
ANTI
DIESELlNG
SYSTEM
is
brought
into
operation
shutting
off
the
supply
of
fuel
to
the
slow
circuit
The
following
figure
shows
a
see
tiorial
view
of
this
control
The
carburetor
is
equipped
with
an
anti
dieseling
solenoid
valve
As
the
ignition
switch
is
turned
off
the
valve
EF230
@
l
CD
1
1
g
@eI
1
Anti
dieseling
solenoid
va1
2
Ignition
switch
3
Battery
Fig
EF
30
Schematic
drawing
of
anti
dieseling
sydtm
EF
17
Page 115 of 537
I
Air
jet
2
Diaphragm
II
3
Mixture
control
valve
4
Coasting
air
bleed
II
5
Mixture
air
passage
6
Secondary
baHel
7
Intake
manifold
8
Boost
passage
9
Vacuum
control
solenoid
valve
10
Vacuum
control
valve
II
Diaphragm
I
Engine
Fuel
12
Secondary
main
jet
13
Coasting
jet
14
Coasting
air
bleed
I
15
Inhibitor
switch
N
P
ON
for
automatic
transmission
16
Amplifier
1
7
Speed
de
tecting
swi
tch
below
10
M
P
H
ON
for
manual
transmission
1
W
j
I
t
i
J
l
J
18
Ignition
switch
CID
1
1
fI3
6
@
I
r
101
@
i
r
@
JJ
Note
Broken
line
applies
only
to
Automatic
Transmission
I
Ignition
switch
2
Amplifier
3
Speed
detecting
switch
below
10
M
P
H
ON
for
manual
transmission
4
Inhibitor
switch
N
p
ON
for
automatic
transmission
5
Solenoid
valve
6
Vacuum
control
valve
7
Altitude
corrector
LlJ
I
I
l
f
L8
J
l
EF231
Fig
EF
31
Schematic
drawing
of
B
C
D
D
Non
California
models
1
J
ru
I
r
lJ
i7
I
To
intake
manifold
To
air
cleaner
E
F235
Note
Broken
line
applies
only
to
Automatic
Transmission
Fig
EF
32
Schematic
drawing
of
RC
D
D
California
models
EF
19
Page 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 118 of 537
rpm
two
or
three
iimes
under
no
load
and
make
sure
that
specified
CO
per
centage
is
obtained
12
Connect
air
hose
to
air
check
valve
If
engine
speed
increases
readjust
it
to
the
specified
speed
with
throttle
adjustingsqew
CO
idle
edJustment
without
CO
meter
If
CO
meter
is
not
available
the
following
procedures
may
be
used
L
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
temperature
indicator
points
to
the
middle
Further
keep
engine
running
at
about
2
000
rpm
for
about
5
minutes
without
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
During
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
shown
in
Figure
EF
35
Plug
the
dis
connected
hose
19
prevent
dust
from
entering
6
Race
engine
1
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
so
that
engine
speeds
are
as
indicated
below
Engine
speed
Manual
transmission
815
rpm
Automatic
transmission
in
D
position
670
rpm
8
Check
ignition
timing
if
neces
sary
adjust
it
to
the
value
required
by
specifications
This
operation
need
not
be
carried
out
at
1
600
km
1
000
miles
service
9
At
about
10
minutes
after
engine
Engine
Fuel
is
run
at
idling
speed
adjust
idle
adjusting
screw
until
maximum
rpm
is
obtained
10
Repeat
procedures
as
described
in
steps
6
7
and
9
above
until
engine
speed
at
best
idle
mixture
is
815
rpm
for
manual
transmission
models
and
670
rpm
for
automatic
transmission
models
in
D
position
Adjustment
in
step
9
can
be
carried
out
right
after
step
7
11
Turn
the
idle
adjusting
screw
clockwise
until
engine
speed
drops
off
below
specified
rpm
Engine
speed
drops
off
Manual
transmission
60
to
70
rpm
Automatic
transmission
in
D
position
15
to
25
rpm
12
Connect
air
hose
to
air
check
valve
If
engine
speed
increases
readjust
it
to
the
specified
speed
with
throttle
adjusting
screw
Idle
limiter
cep
Do
not
remove
this
idle
limiter
cap
unless
necessary
If
this
unit
is
re
moved
it
must
be
readjusted
at
lime
of
installation
To
adjust
proceed
as
follows
I
After
adjusting
throttle
or
idle
speed
adjusting
screw
check
to
be
sure
that
the
amount
of
CO
contained
in
exhaust
gases
meets
the
established
standard
2
Install
idle
limiter
cap
in
position
making
sure
that
the
adjusting
screw
can
rotate
another
1
8
turn
in
the
CO
RICH
direction
Carbo
to
per
CO
rich
450
lIS
rotation
t
CO
lean
J
SQ
dl
lim
ET031
1
e
Iter
cap
Fig
EF
36
Setting
idle
limiter
cap
FUEL
LEVEL
1
Turn
down
float
chamber
to
al
low
float
to
come
into
contact
with
needle
valve
and
measure
Hu
shown
EF
22
in
Figu
re
EF
37
When
H
is
approximalely
7
mill
0
283
in
lOp
float
position
is
correct
The
top
float
position
can
be
ad
justed
by
bending
float
seat
Upon
completion
of
the
adjust
ment
check
fuel
level
wi
th
attached
level
gauge
p
j
i
I
it
I
Float
seat
2
Float
3
Float
chamber
4
Needle
valve
t
I
IIf
ET032
Fig
EF
37
Adjusting
float
level
2
Adjust
bottom
float
position
so
that
clearance
h
between
float
seat
and
needle
valve
stemis
I
3
to
L
7
mm
0
051
to
0
067
in
when
Iloat
is
fully
rals
n
Jloa
t
goppe
q
re
3
After
adjustments
in
steps
I
and
2
above
have
been
made
make
sure
that
when
fuel
is
delivered
to
the
float
chamber
the
fuel
level
is
maintained
within
the
range
of23
mm
0
91
in
as
shown
in
FigureEF
38
H
23
mm
0
91
in
EF260
Fig
EF
38
Checking
ruellevel
FAST
IDLE
I
With
carburetor
assembly
reo
moved
from
engine
measure
throttle
valve
clearance
A
with
a
wire
gauge
placing
the
upper
side
of
fast
idling
screw
on
the
first
step
on
fast
idling
cam
Page 120 of 537
ELECTRIC
AUTOMATIC
CHOKE
Checklna
automatic
choke
heater
circuit
with
function
test
connector
Caution
Do
not
altach
test
leads
of
a
circuit
tester
to
those
other
than
designated
Refer
to
figure
Ef
43
I
With
engine
not
running
check
for
continuity
between
A
and
B
as
shown
in
figure
Ef
43
If
continuity
exists
heater
is
func
tioning
properly
If
continuity
d
s
not
exist
check
for
disconnected
connector
or
open
P
T
e
heater
circuit
2
With
engine
running
at
idle
check
for
presence
of
voltage
across
A
and
B
as
shown
in
figure
EF
43
If
voltmeter
reading
is
12
volts
d
c
heater
circuit
is
functioning
properly
If
vohmeter
reading
is
zero
check
for
disconnected
connector
open
circuit
or
faulty
automatic
choke
relay
3
Replace
faulty
parts
J
j
N
j
EF710
1
ignition
key
2
Automatic
choke
relay
Engine
stop
OFF
Engine
start
ON
3
Automatic
choke
heateI
4
Function
test
connector
5
Altema
tor
Fig
EF
43
Checking
oulomalic
choke
heater
circuit
with
fu
nc
non
led
connector
Engine
Fuel
Automatic
choke
I
Before
starting
engine
fully
de
press
al
celerator
pedaJ
to
ensure
that
choke
valve
doses
properly
Push
choke
valve
with
a
finger
and
heck
for
binding
3
Check
0
be
sure
that
bi
rnetal
cover
index
mark
is
set
at
the
cen
leT
of
choke
housing
index
mark
a
s
shown
in
Figure
EF
44
Note
Do
not
set
b
metal
cover
index
mark
at
any
position
except
the
center
of
choke
housing
index
marl
tE
jL
J
Thermostat
cover
Bi
metal
chamber
2
Thermostat
housing
3
Groove
ET034
Fig
EF
44
Bi
metol
tting
4
Check
automatic
choke
heater
source
wiring
for
proper
connection
then
start
engine
5
After
warming
up
the
engine
see
that
choke
valve
is
fully
open
6
If
automatic
choke
heater
source
wiring
is
normal
and
choke
valve
does
not
operate
after
warm
up
replace
hi
metal
co
t
er
Automatic
choke
relay
I
Remove
automatic
choke
relay
Auto
choke
heater
relay
EF278
Fig
EF
45
Location
of
automatic
choke
relay
EF
24
2
Make
an
operational
check
of
automatic
choke
relay
as
shown
in
Figure
EF
46
Apply
2
volts
d
c
across
termi
nals
I
and
3
to
ensure
that
i
ontinuity
exists
between
terminals
2
and
4
Check
t
lal
continuity
does
not
exist
between
terminals
2
and
4
when
no
voltage
is
applied
across
them
If
results
satisfies
the
above
automatic
choke
relay
is
functioning
properly
if
not
replace
choke
relay
1
2
3
y
4
EF723
Fig
EF
46
Checking
automatic
choke
relay
Automatic
choke
heater
I
Measure
resistance
of
choke
heater
as
shown
in
figure
EF
47
spe
ified
re
s
an
ce
is
3
7
to
8
9
ohms
F
EF261
Fig
EF
47
Automatic
choke
heater
check
2
If
measured
value
is
not
within
the
specification
replace
bi
metal
cover
INTERLOCK
OPENING
OF
PRIMARY
AND
SECONDARY
THROTnE
VALVE
Figure
EF
48
shows
primary
throt
tie
valve
opened
SO
When
primary
throtlle
valve
is
opened
50
the
adjust
plate
integrated
with
throttle
valve
is
in
contact
with
return
plate
at
A
Page 121 of 537
When
throttle
valve
is
opened
fur
ther
locking
arm
is
detached
from
secondary
throttle
arm
permitting
see
ondary
system
to
start
operation
Linkage
between
primary
and
see
ondary
throttles
will
function
properly
if
distance
between
throttle
valve
and
inner
wall
of
throttle
chamber
is
74
mm
0
291
in
Adjustment
is
made
by
bending
connecting
link
I
L
l
1
4
CAl
Secondary
prm
ary
I
Jl
I
7
t
@
1
Roller
4
Adjust
plate
2
Connecting
lever
5
Throttle
c
amber
3
Return
plate
6
Throttle
valve
Fig
EF
48
Adjusting
interlock
opening
DASH
POT
1
Idling
speed
of
engine
and
mix
ture
must
be
well
tuned
up
and
engine
sufficiently
warm
2
Turn
throttle
valve
by
hand
and
read
engine
speed
when
dash
pot
just
touches
stopper
lever
3
Adjust
position
of
dash
pot
by
turning
nut
until
engine
speed
is
in
the
specified
range
Specified
engine
speed
Manual
transmission
1
900
to
2
100
rpm
Automatic
transmission
1
650
to
1
850
rpm
4
Tighten
lock
nuts
5
Make
sure
that
engine
speed
drops
smoothly
from
2
000
to
1
000
rpm
in
about
three
seconds
Engine
Fuel
Fig
EF
49
Adjusting
dash
pot
ACCELERATING
PUMP
I
Visually
inspect
accelerating
pump
cover
for
any
sign
of
fuel
leaks
2
If
fuel
leaks
are
found
check
gasket
and
replace
if
necessary
ANTI
DIESELING
SOLENOID
VALVE
If
engine
does
not
stop
when
igni
tion
switch
is
turned
off
this
indicates
that
a
striking
closed
solenoid
valve
is
shutting
off
supply
of
fuel
to
engine
If
harness
is
in
good
condition
replace
solencid
valve
as
a
unit
Notes
a
Tightening
torque
is
1
8
to
3
5
kg
m
13
to
25
ft
Ib
b
After
replacement
star
engine
and
check
to
be
sure
that
fuel
is
not
leaking
and
that
anti
dieseling
sol
noid
is
in
good
condition
B
C
D
D
CIRCUIT
WITH
FUNCTION
TEST
CONNECTOR
Caution
Do
not
attach
test
leads
of
a
circuit
tester
to
those
other
than
designated
Refer
to
Figure
EF
50
Menuel
trensmlsslon
models
I
Check
for
continuity
between
A
and
B
when
vehicle
is
brought
to
a
complete
stop
Refer
to
Figure
EF
50
B
C
D
D
circuit
is
functioning
properly
if
continuity
exists
and
volt
meter
reading
is
0
volt
d
c
in
step
2
below
If
continuity
does
not
exist
check
for
disconnected
connector
and
or
faulty
amplifier
speed
detecting
switch
or
B
C
D
D
solenoid
valve
2
Check
for
presence
of
voltage
across
A
and
B
at
a
speed
of
more
than
16
km
h
10
MPH
Refer
to
Figure
EF
50
Conduct
this
test
by
one
of
the
following
two
methods
I
Raising
up
rear
axle
housing
with
stand
2
Chassis
dynamometer
test
If
voltmeter
reading
is
0
volt
at
a
speed
of
more
than
16
km
h
10
MPH
circuit
is
functioning
prop
erly
If
voltmeter
reading
is
not
0
volt
check
for
disconnected
connector
burned
fuse
faulty
amplifier
B
C
D
D
solenoid
valve
or
speed
detecting
switch
3
If
by
above
checks
faulty
part
or
unit
is
located
it
should
be
removed
and
tested
again
If
necessary
replace
1
P4
11
0
8
l
1
Ignition
Icey
2
Fuse
3
Amplifier
4
Speed
detecting
switch
Above
10
mph
OFF
Below
10
mph
ON
5
Function
test
connector
6
B
C
D
D
solenoid
valve
EF711
Fig
EF
50
Checking
B
C
D
D
circuit
with
function
test
connector
for
manual
transmission
EF
25
Page 122 of 537
AUtomatic
trailamlsalon
modela
I
With
inhibitor
switch
ON
UN
or
P
position
check
for
presence
of
voltage
across
A
and
B
Refer
to
Figure
EF
51
If
voltmeter
ading
is
12
volts
d
c
B
C
D
O
circuit
is
func
tioning
properly
If
vol
tmeter
ading
is
zero
check
for
disconnected
connector
faulty
solenoid
valve
m
inhibitor
switch
2
With
inhibitor
switch
OFF
HI
2
IY
or
oR
position
Engine
Fuel
check
for
resistance
between
A
and
B
Refer
to
Figure
EF
51
If
ohmmeter
reading
is
25
ohms
or
below
circuit
is
functioning
prop
erly
If
ohmmeter
reading
is
32
ohms
or
above
check
for
poor
connection
of
connec
or
faulty
B
C
D
D
sole
noid
valve
or
inhibitor
relay
3
If
by
above
checks
faulty
part
or
unit
is
located
it
should
be
moved
and
tested
again
If
necessary
replace
yu
@
@
1
Ignition
key
2
Inhibit
T
switch
N
P
positions
ON
I
2
D
R
positions
OFF
3
D
C
D
D
solenoid
valve
4
Function
test
connector
5
Inhibitor
relay
EF712
Fig
EF
51
Checking
B
C
D
D
circuit
with
unction
t
st
connector
for
automatic
transmi
sion
Set
pressure
of
Boost
Controlled
Deceleration
Device
B
C
D
O
Generally
it
is
unnecessary
to
ad
just
the
B
CD
D
however
if
it
should
become
necessary
to
adjust
it
the
procedure
is
3S
follows
Prepare
the
foUowing
tool
I
Tachometer
to
measure
the
en
gine
speed
while
idling
and
a
screw
driver
2
A
vacuum
gauge
and
connecting
pipe
Note
A
quick
response
type
hoost
gauge
such
as
Bourdon
s
type
is
recommended
a
mercury
type
manometer
should
not
be
used
To
properly
set
the
B
C
D
D
set
pressure
proceed
as
follows
I
Remove
the
harness
of
solenoid
valve
To
B
D
D
solenoid
valve
1
B
C
D
D
olenoid
valve
harness
EF262
Fig
EF
52
Removing
harness
of
solenoid
valve
2
Connect
rubber
hose
between
vacuum
gauge
and
intake
manifold
as
shown
Fig
EF
53
Connecting
vacuum
gauge
EF
26
3
Warm
up
the
engine
until
it
is
heated
to
operating
temperature
Then
adjust
the
engine
at
nunnal
idling
setting
Refer
to
the
item
Idling
Adjustmenl
in
page
EF
21
Idling
engine
speed
Manual
transmission
750
rpm
Automatic
transmission
in
D
position
650
rpm
4
Run
the
engine
under
no
load
Increase
engine
speed
to
3
000
to
3
500
rpm
then
quickly
close
throttle
valve
5
At
the
time
the
manifold
vacuum
p
ssure
increases
abruptly
to
600
mmHg
23
62
inHg
or
above
and
then
graduaUy
decreases
to
the
level
set
at
idling
6
Check
that
the
B
C
D
D
set
pres
sure
is
within
the
specified
pressure
Specified
pressure
0
m
sea
level
and
760
mmHg
30
inHg
atmos
pheric
pressu
Manual
transmission
510
to
550
mmHg
20
1
to
21
7
inHg
Automatic
transmission
490
to
530
mmHg
19Tto
20
9
inHg
Notes
a
When
atmospheric
pressure
is
known
operating
pressure
will
be
found
by
tracing
the
arrow
line
A
See
Figure
EF
56
When
alti
tude
is
known
operating
pressure
will
be
found
by
tracing
the
arrow
line
B
See
Figu
EF
56
b
When
checking
the
set
pressu
of
B
CD
D
find
the
specified
set
pressu
in
Figure
EF
56
from
the
atmospheric
pressure
and
altitude
of
the
given
location
For
example
if
an
automatic
trans
mission
model
vehicle
is
located
at
an
altitude
of
1
000
m
3
280
ft
the
specified
set
p
ssu
for
B
C
D
D
is
445
mmHg
17
5
inHg
7
If
it
is
higher
than
the
set
level
turn
the
adjusting
screw
or
nut
until
correct
adjustment
is
made
Page 125 of 537
I
Set
circuit
tester
in
d
c
ampere
range
IA
min
fuU
scale
connect
test
probes
of
tester
as
shown
in
Figure
EF
58
Do
not
confuse
positive
line
with
negative
line
2
Turn
ignition
key
to
ON
posi
tion
I
t
EF264
1
Ignition
key
2
Amplifier
3
Speed
detecting
switch
4
B
C
D
D
solenoid
valve
Inhibitor
switch
Automatic
transmission
models
Refer
to
the
AT
section
Inhibitor
relay
Automatic
transmission
models
Inhibitor
relay
EF724
Fig
EF
59
Location
of
inhibitor
relay
2
Make
an
inhibitor
relay
check
as
shown
in
Figure
EF
60
Apply
12
volts
d
c
across
termi
nals
1
and
4
to
ensure
that
continuity
exists
between
terminals
2
and
3
Check
that
continuity
does
not
exist
between
terminals
2
and
3
when
no
voltage
is
applied
across
them
Engine
Fuel
3
Ensure
that
tester
pointer
deflects
when
ignition
key
is
turned
on
4
If
tester
pointer
does
not
deflect
when
solenoid
valve
and
speed
detect
ing
switch
circuits
are
functioning
properly
amplifier
is
faulty
Fig
EF
58
Checking
amplifier
If
results
satisfy
the
above
inhi
bitor
relay
is
functioning
properly
if
not
replace
inhibitor
relay
it
@
j
l
j
4
L
I
44
11
oJ
EF287
Fig
EF
60
Checking
inhibitor
relay
ALTITUDE
COMPENSATOR
California
models
Make
sure
that
altitude
com
pensator
to
carburetor
hoses
are
con
nected
properly
and
that
they
are
not
cracked
and
obstructed
2
Check
that
altitude
compensator
is
properly
set
At
low
altitudes
At
high
altitudes
Notes
a
The
idle
Pm
and
CO
vary
accord
ing
to
the
altitude
Therefore
they
should
be
properly
adjusted
when
the
position
of
the
H
L
lever
is
changed
Close
Open
EF
29
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
DATSUN
PICK
UP
Service
BuUetin
Pub
No
257
Q0
1
v
EF733
Fig
EF
61
Checking
altitude
compensator
MAJOR
SERVICE
OPERATION
The
perfectly
adjusted
carburetor
delivers
the
proper
fuel
and
air
ratios
at
all
speeds
for
the
particular
engine
for
which
it
was
designed
By
com
pletely
disassembling
which
will
allow
deaning
of
all
parts
and
passages
the
carburetor
can
be
maintained
its
origi
nal
condition
and
will
continue
to
deliver
the
proper
ratios
To
maintain
accurate
carburetion
of
passages
and
discharge
holes
ex
treme
care
must
be
taken
in
cleaning
Use
only
carburetor
solvent
and
compressed
air
to
clean
all
passages
and
discharge
holes
Never
use
wire
or
other
pointed
instrument
to
clean
or
carburetor
calibration
will
be
affected
REMOVAL
Remove
carburetor
from
engine
taking
sufficient
care
to
the
following
Precautions
a
When
disconnecting
fuel
lines
do
not
spill
fuel
from
fuel
pipe
b
When
removing
carburetor
do
not
drop
any
nut
or
bolt
into
intake
manifold
c
Be
careful
not
to
bend
or
scratch
any
part
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