light DATSUN PICK-UP 1977 User Guide
Page 112 of 537
Engine
Fuel
1
L
if
1
Pump
injector
2
Piston
3
Spring
4
Weight
5
Damper
spring
6
Piston
return
spring
7
Inlet
valve
8
Outlet
valve
EF023
Fig
EF
26
Acceleration
mechanism
Power
valve
mechanism
SECONDARY
SYSTEM
The
power
valve
mechanism
so
called
vacuum
piston
type
utilizes
the
vacuum
below
the
throttle
valve
When
the
throttle
valve
is
slightly
opened
during
light
load
running
high
vacuum
is
created
in
the
intake
mani
fold
This
vacuum
pulls
the
vacuum
piston
upward
against
the
spring
leaving
the
power
valve
closed
When
the
vacuum
below
the
throttle
valve
is
lowered
during
full
load
or
accelerat
ing
running
the
spring
pushes
the
vacuum
piston
downward
opening
the
power
valve
to
furnish
fuel
Secondary
main
lIYlltem
pulled
out
through
the
main
nozzle
into
the
small
venturi
Due
to
the
double
venturi
of
the
secondary
system
the
higher
velocity
air
current
passing
through
the
main
nozzle
promotes
the
fuel
atomization
The
structure
is
almost
the
same
as
the
primary
side
The
secondary
main
system
is
a
Stromburg
type
Fuel
air
mixture
produced
by
the
functions
of
the
main
jet
main
air
bleed
and
emulsion
tube
in
the
same
manner
as
in
the
primary
system
is
11
1
I
1
1
Primary
vacuum
port
2
Secondary
vacuum
port
3
Diaphragm
chamber
cover
of
Diaphragm
spring
S
Diaphragm
6
Secondary
throttle
valve
7
Primary
theo
nle
valve
lWll
I
1
11
l
v
1
Vacuum
piston
2
Power
valve
ET02
a
EF
512
Fig
EF
27
Sectional
view
of
po
r
valve
Fig
EF
28
Full
throttle
al
high
peed
EF
16
Page 116 of 537
ELECTRIC
AUTOMATIC
CHOKE
An
electric
heater
wanns
a
bi
metal
interconnected
to
the
choke
valve
and
controls
the
position
of
choke
valve
and
throttle
valve
in
accordance
with
the
time
elapsed
the
warm
up
condi
tion
of
the
engine
and
the
outside
ambient
temperature
When
outside
ambient
temperature
is
above
operating
temperature
the
automatic
choke
control
serves
to
fur
ther
reduce
exhaust
gasemission
during
warm
up
by
automatically
selecting
one
of
the
two
choke
opera
tion
modes
fast
acting
or
slow
acting
Slow
acting
choke
operation
When
ambient
temperature
is
low
electric
current
flows
through
the
automatic
choke
relay
to
the
P
T
C
heater
A
and
gradually
warms
the
bi
metal
This
causes
the
choke
valve
to
open
slowly
Fast
acting
choke
operation
When
ambient
temperature
is
high
the
bi
metal
switch
is
in
on
This
causes
electric
current
to
flow
through
the
automatic
choke
relay
to
the
P
T
C
heater
A
and
heater
B
result
ing
in
quick
opening
of
the
choke
valve
r
@@
r
@
Engine
Fuel
The
construction
and
function
of
each
part
of
this
carburetor
are
as
follows
l
Bi
metal
and
heater
in
choke
cover
Electric
current
flows
through
the
ttea
r
as
t
le
engine
tl
1
SI
nd
war
the
bi
metal
The
deflection
of
the
bi
metal
is
transmitted
to
the
choke
valve
through
the
choke
yalve
lever
2
Fast
idle
cam
The
fast
idle
cam
determines
the
opening
of
the
throttle
valve
so
that
the
proper
amount
of
mixture
cor
responding
to
the
opening
of
the
choke
valve
will
be
obtained
The
opening
of
the
choke
valve
is
depend
ent
upon
the
warm
up
condition
of
the
engine
3
Fast
idle
adjusting
screw
This
screw
adjusts
the
opening
of
the
throttle
valve
of
the
fast
idle
earn
4
U
nloader
When
accelerating
the
engine
during
the
warm
up
period
that
is
before
the
choke
valve
opens
sufficiently
this
unloader
forces
the
choke
valve
open
a
liUle
so
as
to
obtain
an
adequate
air
fuel
mixture
5
Vacuum
diaphragm
After
the
enginThas
been
started
by
cranking
this
diaphragm
forces
the
choke
valve
open
to
the
predetermined
extent
so
as
to
provide
the
proper
air
fuel
ratio
6
Bi
metal
case
index
mark
The
bi
metal
case
index
mark
is
used
for
setting
the
moment
of
the
D
Il
EF232
1
Alternator
2
Automatic
choke
relay
3
Automatic
choke
cover
4
P
T
C
heater
A
5
Bi
metal
switch
6
P
T
C
heater
B
7
Bi
metal
8
Choke
valve
Fig
EF
33
Schematic
drawing
of
electric
automatic
choke
heater
EF
20
bi
metal
which
controls
the
air
fuel
mixture
ratio
required
for
starting
DASH
POT
SYSTEM
These
carburetors
are
equipped
with
a
dash
pot
interl
ked
wi
h
the
primary
throttle
valve
through
a
link
mechanism
The
dash
pot
is
intended
to
prevent
engine
stall
resulting
from
quick
application
of
the
brake
or
from
the
quick
release
of
the
accele
ra
tor
pedal
after
treading
it
slightly
In
such
a
situation
a
throttle
lever
strikes
against
the
dash
pot
stem
and
makes
the
primary
throttle
valve
close
gradually
thus
keeping
the
engine
running
ALTITUDE
COMPENSATOR
California
models
The
higher
the
altitude
the
richer
the
air
fuel
mixture
ratio
and
there
fore
the
higher
exhaust
gas
emissions
even
though
the
engine
is
properly
ad
justed
for
low
altitude
driving
The
altitude
compensator
is
design
ed
to
meet
EiiriSSion
S13ndards
for
driving
in
both
low
and
high
altitudes
At
high
altitudes
additional
air
is
sup
plied
to
the
carburetor
by
the
altitude
compensator
When
the
altitude
com
pensator
lever
is
set
at
H
air
is
conducted
through
an
air
passage
to
the
carburetor
The
air
passage
is
closed
when
the
lever
is
set
at
L
H
L
Lever
When
operating
the
H
L
lever
fol
low
these
instructions
H
position
Should
be
used
for
general
driving
in
those
areas
designated
by
law
as
High
Altitude
Counties
L
position
For
use
outside
those
areas
desig
nated
as
High
Altitude
Counties
Page 145 of 537
Minimizes
exhaust
gas
tempera
lure
rise
2
Minimizes
horsepower
losses
re
suiting
from
air
injection
into
the
exhaust
system
3
Protects
pump
from
excessive
back
pressure
The
air
pump
relief
valve
is
installed
as
shown
in
Figure
EC
20
The
secondary
air
is
discharged
from
the
air
pump
relief
valve
to
the
dust
side
of
the
carburetor
air
cleaner
To
carburetor
air
cleaner
Secondary
air
To
carburetor
air
cleaner
J
erCOndary
r
r
EC294
Fig
EC
20
Air
pump
relief
valve
Emission
Control
System
Emargency
air
retial
valve
E
A
R
Valve
California
models
The
emergency
air
relief
valve
con
trols
the
quantity
of
secondary
air
fed
from
the
air
pump
according
to
load
condition
and
it
discharges
the
see
ondary
air
into
the
atmosphere
to
prevent
overheating
of
the
catalytic
converter
The
emergency
air
relief
valve
con
sists
of
a
diaphragm
a
spring
and
a
valve
which
is
coupled
to
diaphragm
1
Diaphragm
2
Val
3
Spring
4
Diaphragm
chamber
EC536
Fig
EC
21
mergency
air
relief
valve
OPERATION
As
mentioned
previously
there
are
two
types
of
Air
Injection
Systems
A
I
S
a
non
California
type
and
a
California
type
The
California
stand
ard
type
includes
a
system
which
controls
injection
of
secondary
air
so
as
to
assure
proper
function
of
the
catalytic
converter
and
a
system
which
controls
the
supply
of
second
ary
air
to
prevent
abnormal
tempera
tUfe
rise
in
the
catalytic
converter
The
A
I
S
consists
of
the
following
systems
L
A
system
which
allows
injection
of
secondary
air
into
the
exhaust
port
2
A
system
which
bypasses
sec
ondary
air
from
the
air
pump
relief
valve
to
the
carburetor
air
cleaner
during
high
speed
engine
operation
3
A
system
which
supplies
air
from
the
carburetor
air
cleaner
to
the
intake
manifold
by
means
of
the
anti
backfire
valve
so
as
to
prevent
after
fire
during
deceleration
4
A
system
which
controls
injection
of
the
secondary
air
by
means
of
the
air
control
valve
so
as
to
maintain
the
catalytic
converter
at
an
optimum
temperature
level
under
lightly
loaded
condi
tions
Califomia
type
only
5
A
system
which
controls
the
sup
ply
of
secondary
air
through
the
emer
gency
air
relief
vilve
io
pfevent
ab
normal
temperature
rise
of
the
cataly
tic
converter
California
type
only
A
I
S
operation
is
as
follows
I
I
t
1
r
9
I
Air
pump
6
Check
valve
I
0
L
2
Air
pump
air
deaner
7
Air
gallery
pipe
3
Air
relief
valve
8
Injection
non
e
r
4
Air
cleaner
9
Exhaust
manifold
5
Carburetor
10
Anti
backflIe
valve
EC179
Fig
EC
22
Non
California
type
A
I
S
EC
12
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 151 of 537
Air
pump
I
Operate
engine
until
it
reaches
normal
operating
temperature
2
Inspect
all
hose
hose
connec
tions
and
air
gallery
for
leaks
and
correct
if
necessary
before
checking
air
injection
pump
3
Check
air
injection
pump
belt
tension
and
adjust
to
specifications
if
necessary
4
Disconnect
air
supply
hose
at
check
valve
5
Disconnect
vacuum
hose
from
the
air
control
valve
California
type
only
6
Insert
open
pipe
end
of
Air
Pump
Test
Gauge
Adapter
STl9870000
in
air
supply
hose
Clamp
hose
securely
to
adapter
to
prevent
it
from
blowing
out
Position
adapter
and
test
lli
uge
so
that
air
blast
emitted
through
drilled
pipe
plug
will
be
harmlessly
dissipated
7
Install
a
tachometer
on
engine
With
engine
speed
at
2
600
rpm
ob
serve
pressure
produced
at
test
gauge
Air
pressure
should
be
100
mmHg
3
94
inHg
or
more
8
If
air
pressure
does
not
meet
above
specifications
proceed
as
fol
lows
I
Repeat
2
and
3
above
2
Disconnect
air
supply
hose
at
anti
backfire
valve
Plug
air
hose
open
ing
and
screw
with
a
clamp
Repeat
pressure
test
3
With
engine
speed
at
1
500
rpm
close
hole
of
test
gauge
with
finger
If
a
leaking
sound
is
heard
or
leaking
air
is
felt
by
ftnger
at
relief
valve
relief
valve
is
malfunctioning
Relief
valve
should
be
replaced
or
repaired
4
If
air
injection
pump
does
not
meet
minimum
requirement
of
pres
sure
test
it
should
be
replaced
Control
valve
The
following
procedures
are
reo
commended
for
checking
and
or
as
certaining
that
the
various
components
of
the
exhaust
emission
con
Irol
system
are
operating
properly
The
engine
and
all
components
must
be
at
normal
operating
tempera
tures
when
the
tests
are
performed
Prior
to
performing
any
extensive
diag
nosis
of
the
exhaust
control
system
it
Emission
Control
System
must
be
determined
that
the
engine
as
a
unit
is
functioning
properly
Check
valva
Warm
up
engine
thoroughly
2
Disconnect
hose
leading
to
check
valve
from
air
hose
COJUlector
3
Check
hose
opening
for
any
indi
cation
of
exhaust
gas
leaks
Ifleaks
are
detected
replace
check
valve
4
Race
the
engine
lightly
at
about
2
000
cpm
and
then
return
it
to
idling
VisuaDy
check
the
hose
for
any
indication
of
exhaust
gas
leaks
before
the
engine
returns
to
idling
speed
If
leaks
are
detected
replace
check
valve
EC310
Fig
EC
43
Checking
check
valve
Air
pump
raIle
valve
After
completing
inspection
of
air
pump
check
air
pump
relief
valve
in
the
following
steps
J
Disconnect
hoses
leading
to
check
valve
and
air
control
valve
from
air
hose
connector
and
install
blind
cap
to
the
connector
2
With
engine
running
at
about
3
000
rpm
under
no
load
place
your
hand
on
the
air
outlet
of
air
pump
relief
valve
to
check
for
discharged
air
If
no
air
is
felt
replace
the
air
pump
relief
valve
EC311
Fig
EC
44
Checking
air
pump
relief
valve
EC
18
Air
control
valve
C
U
ornla
models
I
Warm
up
engine
thoroughly
2
Before
checking
air
control
valve
check
all
hoses
for
loose
connection
leaks
etc
and
repair
or
correct
if
necessary
3
With
engine
idling
disconnect
the
outlet
side
hose
of
the
air
control
valve
and
place
your
hand
on
the
air
hose
outlet
to
check
for
air
If
no
air
is
felt
replace
the
air
control
valve
4
Pull
vacuum
hose
off
from
air
con
trol
valve
If
discharge
of
air
from
air
hose
stops
the
air
con
trol
valve
is
normaL
If
discharge
is
still
felt
replace
the
valve
Plug
up
the
removed
vacuum
hose
to
stabilize
engine
running
EC312
Fig
EC
45
Checking
air
control
valve
Emarsancy
air
rella
valve
E
A
R
Valve
lCalHornla
models
L
Warm
up
engine
thoroughly
2
Before
checking
air
control
valve
check
all
hoses
for
loose
connection
leaks
etc
and
repair
or
correct
if
necessary
3
Race
engine
approximately
2
000
rpm
under
no
load
Place
your
hand
on
air
outlet
of
E
A
R
valve
to
check
for
presence
of
discharged
air
If
no
air
is
felt
E
A
R
valve
is
normal
4
Disconnect
vacuum
hose
from
B
A
R
valve
as
shown
in
Figure
EC
46
Page 155 of 537
j
EC231
Thermal
vacuum
valva
o
o
m
Emission
Control
System
0
o
o
o
l
l
@
The
thermal
vacuum
valve
is
mounted
in
the
engine
thermostat
housing
It
detects
engine
coolan
t
tem
perature
by
means
of
a
built
in
bi
metal
and
opensor
closes
the
vacuum
passage
in
the
thermal
vacuum
valve
mt
li
t
00
t
EC232
Fig
EC
54
Thennal
vacuum
valve
To
E
G
R
control
valve
From
carburetor
1
Spring
2
Bi
metal
3
O
ring
E
G
R
warning
system
The
E
G
R
warning
system
install
1
Diaphragm
spring
2
Diaphragm
3
Valve
shaft
4
Valve
5
Valve
Seat
6
Valve
cham
ber
Fig
EC
53
E
G
R
control
value
When
the
vacuum
passage
is
open
the
carburetor
suction
vacuum
is
applied
to
the
diaphragm
of
the
E
G
R
con
trol
valve
to
actuate
the
taper
valve
connected
to
the
diaphragm
theconsiiiictlo
nlie
thermal
vacuum
valve
is
shown
below
ed
independently
of
the
E
G
R
con
trol
system
monitors
the
distance
the
car
has
travelled
and
indicates
when
EC
22
the
E
G
R
control
system
must
be
checked
The
E
G
R
warning
system
consists
of
an
odometer
switch
detector
drive
counter
E
G
R
warning
lamp
and
harnesses
When
the
earn
in
the
odom
eter
switch
connected
to
the
speed
ometer
turns
once
for
each
OAkm
4
mile
the
contact
point
of
the
elec
trica
circuit
closes
allowing
electric
current
to
flow
through
the
magnet
coil
of
the
detector
drive
counter
Thus
energized
the
magnet
coil
ac
Wates
the
latchet
to
turn
the
c
unter
wheel
by
one
pitch
When
the
number
of
counts
reaches
50
000
the
latchet
drops
in
a
groove
provided
on
the
periphery
of
the
counter
wheel
to
activate
the
detector
drive
counter
switch
Then
the
E
G
R
warning
lamp
comes
on
indicating
that
the
E
G
R
control
system
Should
be
checked
The
detector
drive
coun
teT
is
equip
ped
with
an
odometer
which
can
tell
when
to
service
the
E
G
R
contr0
I
system
After
completing
periodic
check
reset
the
odometer
to
zero
by
hand
proceeding
as
follows
1
Remove
grommet
installed
on
the
side
surface
of
detector
drive
counter
unit
2
insert
a
bar
or
a
screwdriver
tip
into
the
hole
from
which
grommet
has
been
removed
and
press
down
knob
provided
in
the
detector
drive
counter
for
resetting
The
E
G
R
warning
lamp
comes
on
under
the
following
circumstances
1
When
the
number
of
counts
has
reached
50
000
In
this
case
the
lamp
indicates
that
E
G
R
control
system
must
be
checked
2
When
operating
starter
motor
Notes
a
It
is
an
indication
of
problem
in
the
E
G
R
warning
lamp
or
problems
in
the
point
or
in
the
harnesses
if
the
lamp
does
not
light
at
50
000
counts
b
The
E
G
R
warning
system
is
mounted
on
all
620
models
except
those
bound
for
California
and
Canada
Page 157 of 537
4
E
G
R
warning
system
EC251
Detector
drive
counter
Detecfor
drive
counter
is
secured
on
the
top
of
R
H
hoodledge
panel
in
engine
room
To
remove
detector
drive
counter
disconnect
w
COJUlector
and
loosen
two
bolts
securing
detector
drive
counter
to
hoodledge
panel
2
E
G
R
warning
lamp
E
G
R
warning
lamp
is
mounted
at
the
top
cen
ter
of
instrument
pad
To
remove
E
G
R
warning
lamp
proceed
as
follows
1
Remove
masking
panel
On
models
equipped
with
radio
remove
warning
lamp
from
under
in
strument
panel
2
E
G
R
warning
lamp
is
a
twist
type
Remove
lamp
and
socket
as
an
assembly
Push
and
twist
lamp
off
can
EC554
Fig
EC
60
Removing
E
G
R
warning
lamp
Emission
Control
System
3
Odometer
switch
Odometer
switch
is
mounted
on
the
back
side
of
speedometer
Cam
in
the
odometer
switch
is
rotated
by
the
speedometer
To
dismount
odometer
switch
proceed
as
follows
I
Dismount
combination
meter
as
sembly
2
Remove
meter
front
cover
and
take
off
clips
and
screws
to
dismount
shadow
plate
3
Loosen
screws
securing
speed
ometer
to
printed
circuit
housing
then
remove
speedometer
4
Remove
two
screws
securing
odomete
switch
to
the
back
side
of
speedometer
and
detach
odometer
switch
EC239
Fig
EC
61
Removing
odometer
switch
InstaUatlon
To
install
reverse
the
removal
pro
cedure
EC24
V
r
CID
1
Detector
drive
counter
2
E
G
R
warning
lamp
3
Speedometer
Fig
EC
59
E
G
R
warning
y
tem
INSPECTION
Checking
E
G
R
control
system
in
its
mounted
conditionS
I
Make
a
thorough
visual
check
of
E
G
R
control
system
If
necessary
wipe
away
oil
to
facilitate
inspection
If
any
hoses
are
cracked
or
broken
replace
2
With
engine
running
check
E
G
R
warning
system
for
proper
function
Make
sure
that
E
G
R
warn
ing
lamp
lights
when
ignition
switch
is
turned
to
START
position
starter
mo
tor
runs
If
E
G
R
wanung
lamp
does
not
light
inspect
harnesses
and
con
nectors
or
replace
warning
lamp
Then
turn
ignition
switch
to
ON
position
and
check
the
following
items
I
If
odometer
of
detector
drive
counter
has
not
reached
50
000
counts
make
sure
that
E
G
R
warning
lamp
does
not
light
2
If
odomete
of
detector
drive
counter
has
attained
50
000
counts
make
sure
that
E
G
R
warning
lamp
lights
If
warning
lamp
does
not
light
check
harnesses
connectors
and
de
tector
drive
counter
replace
warning
lamp
or
detector
drive
counter
if
necessary
Notes
Operation
oC
E
G
R
warning
lamp
is
as
Collows
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 162 of 537
Floor
temparature
warning
lamp
Refer
to
Figure
EC
74
for
the
loca
tion
of
this
part
L
1t
1
RAt
Fig
EC
74
Location
of
floor
temperature
warning
lamp
INSTALLATION
To
install
reverse
the
order
of
rem
ovaL
INSPECTION
Floor
warning
temperature
system
Apply
parking
brake
Shift
gears
into
Neutral
foI
manual
transmission
and
Neutral
or
Park
for
automatic
transmission
1
Ensure
that
floor
temperature
warning
lamp
lights
when
ignition
switch
is
iumed
to
the
S
position
If
not
check
lamp
for
burned
bulbs
Replace
bulb
if
bulb
is
burned
out
If
bulb
is
not
burned
trace
wire
s
back
to
ignition
switch
Repair
or
replace
if
necessary
2
Be
sure
that
floor
temperature
is
cool
below
800C
1760Fj
before
carrying
out
the
following
procedure
I
Remove
rearseat
2
Ignition
switch
is
turned
to
the
IG
position
3
Ensure
that
floor
temperature
warning
lamp
goes
out
4
Heat
surrounding
areas
of
floor
temperature
sensing
switch
with
a
proper
heater
to
ensure
that
floor
temperature
warning
lamp
glows
when
floor
is
heated
to
the
specifications
as
shown
in
the
table
below
Emission
Control
System
Temperature
sensing
switch
Contact
close
Temperature
warning
lamp
Off
Contact
open
On
Note
Avoid
heating
floor
tempera
ture
sensing
switch
directly
If
lamp
does
not
glow
check
floor
temperature
sensing
switch
connector
for
continuity
with
a
circuit
tester
If
continuity
should
exist
after
heated
surrounding
areas
of
floor
tem
perature
sensing
switch
replace
tem
perature
sensing
switch
If
con
tinuity
does
not
exist
trace
the
wiring
back
to
relay
or
check
the
following
step
3
Repair
or
replace
wire
s
if
necessary
Note
The
floor
temperature
sensing
switch
may
be
heated
through
the
floor
by
a
proper
heater
3
Turn
ignition
switch
to
the
IG
position
and
disconnect
floor
temper
ature
sensing
connector
The
lamp
should
remain
on
If
not
check
floor
temperature
relay
for
continuity
with
2
00
r
I
141
J
To
floor
temperatwe
warning
lamp
2
From
S
position
3
From
IG
position
4
From
ignition
switch
5
To
floor
temperature
sensing
switch
O
When
floor
temperature
warning
lamp
lights
Check
floor
temperature
warning
lamp
1
Open
or
shorj
circuit
in
wiring
harness
2
Check
fuel
system
with
regard
to
the
following
items
Refer
to
Inspec
lion
of
Fuel
System
EC
29
Floor
temperature
Below
1050C
221
OF
Above
1050C
221
OF
a
circuit
tester
Referring
to
the
following
floor
temperature
relay
if
relay
is
normal
trace
wire
s
back
to
ignition
switch
Repair
faulty
wiring
Floor
temperature
relay
When
checking
floor
temperature
relay
for
unit
remove
it
and
proceed
as
follows
1
Check
for
continuity
between
@
and
ID
Continuity
should
exist
Check
for
continuity
between
CD
and@
Continuity
should
exist
Check
for
continuity
between
CD
and
@
Continuity
should
not
exist
2
Apply
a
12
volt
doc
across
@
and
ID
to
ensure
that
continuity
exists
between
CD
and
@
and
that
con
ti
nuity
does
not
between
CD
and
@
If
test
results
dn
not
satisfy
the
above
replace
the
floor
temperature
relay
EC344
Fig
EC
75
Checking
floor
temperature
relay
1
Float
level
2
Choke
3
Normal
fuel
supply
system
Prima
ry
and
secondary
4
Accelerator
pump
5
Power
valve
6
B
C
D
D
7
Fuel
strainer
8
Air
cleaner
Page 165 of 537
sufficient
delivery
of
fuel
to
engine
or
vapor
lock
It
must
therefore
be
1
3
connectur
COCk
Air
Manometer
Emission
Control
System
repaired
or
replaced
368
mmH20
14
5
inH20
LL
IPO
liqUid
epo
o
36
r
@
Carbon
canister
EC786
Fig
EC
79
Checking
evaporative
emmion
control
syatem
CARBON
CANISTER
PURGE
CONTROL
VALVE
Check
for
fuel
vapor
leakage
in
the
distributor
vacuum
line
at
diaphragm
of
carbon
canister
purge
control
valve
To
check
for
leakage
proceed
as
follows
I
Disconnect
rubber
hose
in
the
line
between
T
connector
and
carbon
canister
at
T
connector
2
Inhale
air
into
the
opening
of
rubber
hose
running
to
vacuum
hole
in
carbon
canister
and
ensure
that
there
is
no
leak
ET349
Fig
EC
so
Checking
carbon
canuter
purge
control
valve
3
If
there
is
a
leak
remove
top
cover
from
purge
control
valve
and
check
for
dislocated
or
cracked
dia
phragm
If
necessary
replace
dia
phragm
kit
which
is
made
up
of
a
retainer
a
diaphragm
and
a
spring
@
@
1
Cover
2
Diaphragm
3
Retainer
4
Spring
ET350
Fig
EC
81
Carbon
catU
ter
purge
control
valve
CARBON
CANISTER
FILTER
Check
for
a
contaminated
element
Element
can
be
removed
at
the
bottom
of
canister
installed
on
vehicle
body
EC
32
ET37Q
Fig
EC
s2
Replacing
carbon
canuter
filter
FUEL
TANK
VACUUM
RELIEF
VALVE
Remove
fuel
filler
cap
and
see
it
functions
properly
I
Wipe
clean
valve
housing
and
have
it
in
your
mouth
2
Inhale
air
A
slight
resistance
ac
companied
by
valve
indicates
that
valve
is
in
good
mechanical
condition
Note
also
that
by
further
inhaling
air
the
resistance
should
be
disappeared
with
valve
clicks
3
If
valve
is
clogged
or
if
no
resist
ance
is
felt
replace
cap
as
an
assem
bled
uni
t
l
u
ET369
Fig
EC
83
Fuel
filler
cap