coolant temperature DATSUN PICK-UP 1977 Service Manual
Page 20 of 537
r
ManifolJ
nuts
I
2
to
1
6
kg
m
8
7
to
I
6
ft
lb
Carburelor
nuls
0
5
to
1
0
kg
m
3
6
to
7
2
fl
tb
Fig
ET
7
Tightening
s
quence
CHECKING
ENGINE
OIL
Check
if
oil
is
diluled
with
water
or
gasoline
Drain
and
refill
oil
if
necessary
Notes
a
A
milky
oil
indicates
the
presence
of
cooling
water
Isolate
the
cause
and
take
corrective
measure
b
An
oil
with
extremely
low
viscosity
indicates
dilution
with
gasoline
2
Check
oil
level
If
below
the
specified
level
raise
it
up
10
the
H
level
Engine
oil
capacity
including
oil
filter
Maximum
H
leven
4
3
liters
4
MUS
qt
3
Y
Imp
qt
Minimum
L
level
3
3
liters
3
f
US
qt
2
U
Imp
ql
REPLACING
OIL
FILTER
The
oil
mter
is
a
cartridge
type
and
can
be
removed
using
Oil
Filter
Wrench
STI9320000
I
Check
for
oil
leaks
past
gasketed
flange
If
leakage
is
found
retighten
just
enough
to
stop
leakage
If
retight
ening
is
no
longer
effective
replace
mter
as
an
assembly
Engine
Tune
up
2
When
installing
oil
filter
tighlen
by
hand
Note
Do
not
overtighten
oil
flIt
lest
leakage
should
occur
CHANGING
ENGINE
COOLANT
PERMANENT
ANTI
FREEZE
COOLANT
Permanent
anti
freeze
coolant
is
an
ethylene
glycol
base
producl
conlain
ing
chemical
inhibilors
10
protect
the
cooling
system
against
corrosion
The
anti
freeze
does
not
contain
any
glycerine
ethyl
or
methyl
alcohol
It
will
not
evaporate
or
boil
away
and
can
be
used
with
either
high
or
low
temperaturethennoslat
It
flows
freely
transfers
heat
effi
ciently
and
will
not
clog
passages
in
the
cooling
system
The
anti
freeze
must
not
be
mixed
with
other
products
This
coolant
can
be
used
through
out
the
seasons
of
the
year
Whenever
coolant
is
changed
the
cooling
syslem
should
be
flushed
and
refilled
with
a
new
coolant
Check
the
level
See
the
instruc
lions
furnished
by
the
manufacturer
for
the
mixture
ratio
of
anti
freeze
10
water
CHECKING
COOLING
SYSTEM
HOSES
AND
CONNECTIONS
Check
hoses
and
fittings
for
loose
connections
or
deterioration
Re
tighten
or
replace
if
necessary
INSPECTION
OF
RADIATOR
CAP
Apply
reference
pressure
0
9
kg
cm2
13
psi
1
to
radiator
cap
by
means
of
a
cap
tester
to
see
if
it
is
satisfactory
Replace
cap
assembly
if
necessary
ET
8
Fig
ET
fJ
Teltill
l
rod
ioto
cop
COOLNG
SYSTEM
PRESSURE
TEST
With
radiator
cap
removed
apply
reference
pressure
1
6
kg
cm2
23
psi
to
the
cooling
system
by
means
of
a
lesler
to
detect
any
leakage
Water
capacity
Without
heater
7
4
liters
7
U
US
qt
6
f
Imp
qt
With
heater
8
0
liters
8
f
US
qt
7
Imp
qt
CHECKING
VACUUM
FITTINGS
HOSES
AND
CONNECTIONS
Check
the
condition
of
filtings
and
hoses
Retighten
or
replace
if
neces
sary
All
vacuum
hoses
can
be
identified
by
colors
White
line
Vacuwn
tube
to
carburetor
E
G
R
Tube
Vacuum
tube
to
thermal
vacuum
valve
Thennal
vacuum
valve
to
E
G
R
control
valve
Page 34 of 537
r
EC350
Fig
ET
43
Cleanill
l
E
G
R
control
lJ
Jlue
Thermal
VBCuum
valve
Dismount
thermal
vacuum
valve
from
engine
Note
Before
dismounting
drain
e
gine
coolant
from
engine
Apply
vacuum
to
thermal
vacuum
valve
and
check
to
be
sure
that
ther
mal
vacuum
valve
opens
or
closes
in
response
to
engine
coolant
tempera
lurt
i1
i
iYCl
lt
lt
U
Thermal
vacuum
valve
should
open
at
a
temperature
of
57
to
630C
134
to
1450F
completing
the
vacuum
passage
Note
Do
not
aUow
water
to
get
inside
the
thermal
vacuum
valve
EC
242
Fig
ET
44
Checkill
lthermallXlCuum
valve
Engine
Tune
up
CHECKING
EVAPORATIVE
EMISSION
CONTROL
SYSTEM
Vapor
Rnes
and
fuel
vepor
control
valve
Checking
fuel
tank
vapor
liquid
separator
and
vapor
vent
line
I
Check
all
hoses
and
fuel
tank
roler
cap
2
Disconnect
the
vapor
vent
line
connecting
carbon
canister
to
vapor
liquid
separator
3
Connect
a
3
way
connector
a
manometer
and
a
cock
or
an
equiva
lent
3
way
charge
cock
to
the
end
of
the
vent
line
4
Supply
fresh
air
into
the
vapor
vent
line
through
the
cock
little
by
little
until
pressure
becomes
368
mmH20
14
5
inH20
5
Shut
the
cock
completely
and
leave
it
unattended
6
After
2
5
minutes
measure
the
height
of
the
liquid
in
the
manometer
7
Variation
of
height
should
remain
with
25
mm
l20
0
98
inH20
8
When
filler
cap
does
not
close
completely
the
height
should
drop
to
zero
in
a
short
time
9
I
f
the
height
does
not
drop
to
zero
in
a
short
time
when
filler
cap
is
removed
it
is
the
cause
of
a
stuffy
hose
Note
In
case
the
vent
line
is
stuffy
the
breathing
in
fuel
tank
is
not
thoroughly
made
thl
causing
in
suffICient
delivery
of
fuel
to
engine
or
vapor
lock
It
must
therefore
be
repaired
or
replaced
3
way
connectoT
36
mmH20
14
5
inH20
c
s
I
W
@
Carbon
canister
r
EC786
Fig
ET
45
Checking
evaporative
emission
control
By
tem
Checking
carbon
canister
purge
control
valve
Check
for
fuel
vapor
leakage
in
the
distributor
VC
line
at
diaphragm
of
carhon
canister
purge
control
valve
To
check
for
leakage
proceed
as
follows
1
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
VC
hole
in
carbon
canister
and
ensure
that
there
is
no
leak
ET
22
I
I
L
I
ET349
Fig
ET
46
Checking
carbon
cani
ter
purge
control
valve
Page 49 of 537
r
I
I
PRELIMINARY
CLEANING
AND
INSPECTION
DISASSEMBL
Y
PRELIMINARY
CLEANING
AND
INSt
ECTION
Before
disassembling
engine
note
the
following
I
Fuel
oil
or
water
may
leak
past
cylinder
head
and
block
Prior
to
disassembling
check
cylinder
head
1
1ltermal
vacuum
valve
2
Check
valve
3
Altitude
compensator
in
air
cleaner
4
Air
gallery
pipe
S
Auto
choke
6
Automatic
temperature
control
air
cleaner
7
Anti
8ackfire
valve
A
B
valve
8
Boost
Controlled
Deceleration
Device
Bee
D
D
9
P
c
v
valve
to
Air
relief
valve
11
E
G
R
control
valve
12
B
C
D
D
control
valve
and
solenoid
valve
13
Emergency
air
relief
valve
14
Air
pump
air
cleaner
IS
Carbon
canister
16
Air
control
valve
11
Air
pump
Engine
Mechanical
ENGINE
DISASSEMBLY
CONTENTS
EM
4
EM
4
PISTONS
AND
CONNECTING
RODS
CYLINDER
HE
AD
EM
7
EM
7
front
chain
cover
oil
pan
and
oil
filter
gaskets
lInd
crankshaft
and
water
pump
seals
for
signs
of
leakage
past
their
gasketed
surfaces
2
Check
carburetor
and
fuel
pump
for
condition
fuel
hoses
for
deteriora
tion
cracks
or
leakage
of
fuel
past
their
jointed
or
connected
surfaces
Fig
EM
0
Emiuion
control
devic
s
California
mod
18
E
T366
3
Remove
carburetor
air
cleaner
Remove
fresh
air
duct
Disconnect
hot
air
duct
from
air
cleaner
Disconnect
air
cleaner
to
air
pump
hose
at
air
cleaner
Disconnect
air
cleanef
to
rocker
cover
hose
at
rocker
cover
Disconnect
air
cIeaner
to
air
con
trol
valve
hose
at
air
cleaner
Cali
fornia
models
only
Disconnect
air
cleaner
to
A
B
valve
hose
at
air
cleaner
Disconnect
air
cleaner
to
related
part
vacuum
hoses
at
air
cleaner
Loosen
air
cleaner
band
bolt
and
remove
carburetor
air
cleaner
as
sembly
from
carburetor
4
Plug
up
carburetor
air
horn
to
prevent
entry
of
foreign
matter
5
Remove
alternator
drive
belt
alternator
and
alternator
bracket
EM
4
6
Remove
air
pump
drive
belt
cool
er
compressor
and
idler
pulley
if
so
equipped
7
Remove
starter
motor
from
trans
mission
8
Visually
inspect
cylinder
head
cylinder
block
rocker
C
Ner
front
chain
cover
oil
pan
and
all
other
outer
parts
for
oil
water
and
fuel
leaks
breakage
or
missing
parts
such
as
bolts
and
nuts
9
Check
piping
and
electrical
cir
cuits
for
deterioration
breakage
fit
tings
discontinuity
or
insulation
DISASSEMBLY
To
remove
engine
from
vehicle
refer
to
the
instructions
under
the
Engine
Removal
and
Installation
ER
section
I
Remove
transmission
from
en
gine
2
Remove
clutch
assembly
from
flywheeL
3
Thoroughly
drain
engine
oil
and
coolan
t
by
removing
drain
plugs
Store
engine
oil
and
coolant
if
they
are
to
be
used
again
4
Place
engine
assembly
on
engine
stand
I
Remove
cooling
fan
2
Remove
right
engine
mounting
bracket
3
Remove
oil
filter
with
Oil
Filter
Wrench
STI9320000
4
Remove
oil
pressure
swi
tch
5
Install
engine
attachment
to
cylinder
block
utilizing
bolt
holes
in
alternator
bracket
and
water
drain
hole
6
Set
engine
on
stand
Engine
Attachment
ST05260001
Engine
Stand
ST050I
SOOO
Page 91 of 537
DESCRIPTION
COOLANT
LEVEL
DRAINING
AND
FLUSHING
THE
COOLING
SYSTEM
WATER
PUMP
REMOVAL
AND
INSTALLATION
DISASSEMBLY
INSPECTION
AND
ADJUSTMENT
TORQUE
COUPLING
REMOVAL
AND
INSTALLATION
DESCRIPTION
The
cooling
system
is
of
the
con
ventional
pressure
type
A
centrifugal
pump
installed
on
the
timing
chain
cover
serves
to
circulate
the
coolant
The
pressure
type
radiator
filler
cap
installed
on
the
radiator
operates
the
cooling
system
at
higher
than
atmos
pheric
pressure
The
higher
pressure
raises
the
boiling
point
of
the
coolant
and
in
Cooling
System
COOLING
SYSTEM
CONTENTS
CO
2
CO
2
OISASSEMBL
Y
INSPECTION
TEM
COUPLlNG
INSPECTION
THERMOSTAT
REMOVAL
AND
INSTALLATION
INSPECTION
RADIATOR
REMOVAL
AND
INSTALLATION
INSPECTION
CO
2
CO
2
CO
3
CO
3
CO
3
CO
3
CO
4
creases
the
cooling
efficiency
of
the
radiator
When
the
thermostat
is
closed
the
coolant
remains
in
the
cylinder
head
and
block
for
swift
warming
up
of
the
engine
After
it
reaches
normal
oper
ating
temperature
the
coolant
circu
lates
through
the
radiator
The
cooling
fan
drive
is
of
a
coupling
type
COOLANT
LEVEL
The
coolant
level
should
be
check
ed
and
maintained
at
SO
mm
1
97
in
below
the
upper
face
of
filler
neck
when
the
engine
is
cold
C0055
Fig
CO
I
Cooling
ry
lem
Caution
To
avoid
serious
personal
injury
never
remove
I3diator
cap
quickly
when
engine
is
hot
Sudden
release
of
cooling
system
pressure
is
very
dangerous
CO
2
CO
4
CO
4
CO
4
CO
5
CO
5
CO
5
CO
5
CO
5
CO
5
CO
6
If
it
is
necessary
to
remove
radiator
cap
wben
radiator
is
hot
turn
cap
slowly
counterclockwise
to
the
r
step
After
all
pressure
in
the
cool
ing
system
is
released
tom
cap
passing
the
stop
and
remove
it
DRAINING
AND
FLUSHING
THE
COOLING
SYSTEM
To
drain
the
cooling
system
re
move
radiator
cap
release
drain
cock
at
the
bottom
of
radiator
and
drain
plug
on
the
right
side
of
cylinder
block
If
the
heater
system
is
installed
set
heater
temperature
control
valve
to
open
position
After
the
coolant
is
drained
completely
close
drain
cock
and
plug
and
refill
the
system
with
clean
soft
water
WATER
PUMP
The
water
pump
cooling
fan
pulley
and
torque
coupling
are
a
unitized
construction
The
water
pump
is
of
a
centrifugal
type
which
is
mounted
on
the
engine
front
cover
Page 93 of 537
REMOVAL
AND
INSTALLATION
To
replace
the
torque
coupling
follow
the
same
procedure
as
in
the
water
pump
The
torque
coupling
can
not
be
separated
from
the
water
pump
Cooling
System
DISASSEMBLY
The
torque
coupling
is
so
designed
that
it
can
not
be
disassembled
INSPECTION
Inspect
torque
coupling
for
oil
leakage
If
necessary
replace
TEM
COUPLl
G
For
air
conditioner
equipped
models
Tem
coupling
is
a
type
of
fan
coupling
which
is
provided
with
a
temperature
control
system
The
conventional
coupling
always
slips
the
fan
at
a
high
speed
under
a
constant
ratio
regardless
of
the
engine
cooling
requirement
The
slipping
ratio
of
the
Tern
coupling
however
is
properly
changed
with
the
cooling
requirement
ON
denotes
that
cooling
is
re
quired
and
the
fan
operates
up
to
about
2
150
rpm
When
high
cooling
is
not
required
during
cold
season
with
the
engine
warmed
up
etc
the
oper
w
6
I
1
Bi
metal
thermostat
2
Slide
valve
3
Reserve
chamber
for
OFF
4
Bearing
5
Driving
chamber
for
ON
6
ouplingpart
labyrinth
coon
Fig
CO
5
CrQM
sectional
view
of
Tem
coupling
ation
is
placed
under
OFF
condition
and
the
fan
slips
at
about
1
650
rpm
The
coiled
bimetal
thermostat
installed
on
the
front
center
portion
of
the
Tem
coupling
detects
temperature
of
air
passing
through
the
radiator
The
air
temperature
is
directly
relative
to
the
engine
coolant
tempera
ture
and
the
inside
slide
valve
is
opened
or
closed
as
required
and
thus
the
ON
OFF
control
is
performed
When
the
air
temperature
rises
the
bimetal
is
expanded
and
the
valve
is
opened
silicon
oil
is
forwarded
to
the
groove
that
transmits
torque
and
the
CO
4
system
is
placed
under
ON
con
dition
When
the
valve
closes
silicone
oil
is
not
supplied
to
the
driving
chamber
oil
in
the
driving
chamber
is
accumu
lated
on
periphery
due
to
the
centrif
ugal
force
and
led
into
the
reserve
chamber
Now
oil
is
eliminated
from
the
driving
chamber
and
the
system
is
placed
under
OFF
condition
With
this
system
when
fan
cooling
is
not
required
the
output
loss
is
minimized
and
noise
can
be
far
reduced
Page 94 of 537
Conventional
COUplin9
WATER
PUMP
SPEED
F
Z
Tern
coupling
WATER
PUMP
SPEED
C0029
Fig
CO
6
Characteristic
of
Tern
coupling
INSPECTION
Check
Tem
coupling
for
oil
leakage
or
bend
of
bimetal
If
the
above
symptoms
are
found
replace
it
with
a
new
one
as
an
assembly
THERMOSTAT
A
wax
pellet
type
thermostat
is
mounted
in
the
thermostat
housing
at
the
cylinder
head
water
outlet
The
function
of
the
thermostat
is
to
control
the
flow
of
coolant
facili
tating
fast
engine
warm
up
and
regu
lating
coolant
temperature
The
ther
mostat
is
designed
to
open
and
close
at
predetermined
temperatures
and
if
not
operating
properly
should
be
re
moved
and
tested
as
described
below
REMOVAL
AND
INSTALLATION
I
Drain
coolant
partially
2
Disconnect
upper
radiator
hose
at
water
outlet
3
Remove
bolts
and
remove
water
outlet
gasket
and
thermostat
from
thermostat
housing
Fig
CO
7
Removing
therm06t
t
Cooling
System
4
After
checking
thermostat
re
install
with
a
new
housing
gasket
in
place
5
Reinstall
water
outlet
6
Replenish
coolant
and
check
for
leaks
INSPECTION
A
sticking
thermostat
will
prevent
the
cooling
system
from
functioning
properly
If
the
thermostat
sticks
in
the
open
position
the
engine
warms
up
very
slowly
If
the
thermostat
sticks
in
the
closed
position
over
heating
will
result
Therefore
the
ther
mostat
should
be
inspected
to
make
sure
that
it
is
in
good
condition
1
Measure
coolant
temperature
when
thermostat
valve
starts
to
open
2
Measure
the
maximum
lift
of
thermostat
valve
Fig
CO
S
Impecting
therm06t
t
Temperate
Frigid
Tropical
type
type
iype
Valve
opening
80
5
to
83
5
86
5
to
89
5
75
to
78
temperature
177
to
183
187
to
193
167
to
172
oC
OF
Maximum
valve
lift
8
95
8
1
00
8
90
mm
oC
in
F
0
31
203
0
31
212
0
31
194
If
thermostat
does
not
operate
at
the
above
specified
temperature
it
must
be
replaced
because
it
cannot
be
repaired
RADIATOR
The
radiator
is
a
conventional
down
flow
type
having
top
and
bottom
tanks
to
distribute
the
coolant
flow
uniformly
through
the
vertical
tube
of
radiator
core
The
radiator
filler
cap
is
designed
to
maintain
a
pre
set
pressure
0
9
kg
cm2
13
psi
above
atmospheric
pressure
The
relief
valve
consisting
of
a
blow
off
valve
and
a
vacuum
valve
helps
to
prevent
the
coolant
from
boiling
by
giving
pressure
to
it
How
ever
when
the
pressure
is
reduced
below
atmospheric
pressure
the
vacu
um
valve
allows
air
to
re
enter
the
radiator
preventing
the
formation
of
a
vacuum
in
the
cooling
system
CO
5
On
models
equipped
with
auto
matic
transmission
the
oil
cooler
is
combined
with
the
radiator
to
cool
transmission
fluid
REMOVAL
AND
INSTALLATION
Drain
coolant
into
a
clean
con
tainer
2
Disconnect
radiator
upper
and
lower
hoses
On
models
with
auto
matic
transmissions
disconnect
cooler
inlet
and
outlet
lines
from
radiator
3
Remove
fan
shroud
retaining
bolts
and
remove
fan
shroud
4
Remove
front
grille
5
Remove
radiator
retaining
bolts
and
then
remove
radiator
upward
6
Install
radiator
in
the
reverse
se
quence
of
removal
Note
the
fol
lowing
I
Insert
hoses
in
their
positions
until
they
bottom
2
Ensure
that
arrow
marks
on
hoses
are
clearly
visible
from
upper
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 153 of 537
E
G
R
OFF
operation
When
engine
coolant
temperature
is
low
recirculated
exhaust
gas
causes
irregular
engine
operation
To
prevent
Emission
Control
System
this
recirculation
of
exhaust
gas
must
be
cut
off
for
a
few
minutes
after
engine
has
started
The
thermal
vacu
um
valve
is
provided
for
this
purpose
r
rn
11
L
e
7
E
G
R
controlval
le
clo
2
When
engine
coolant
temperature
is
above
the
working
temperature
of
the
thermal
vacuum
valve
I
The
valve
port
come
to
the
top
J
It
remains
closed
while
engine
coolant
temperature
is
low
and
keeps
the
E
G
R
control
valve
closed
thereby
culling
off
the
E
G
R
circuit
I
lW
jS
1
Throttle
valve
Thermal
vacuum
valve
close
j
Note
m
Vacuum
condition
of
the
throttle
valve
du
ring
engine
idling
for
improved
idling
operation
At
this
point
vacuum
does
not
actuate
the
E
G
R
control
valve
r
T
D
L
t
i
q
II
E
G
R
control
valve
close
2
In
the
full
throttle
driving
posi
tion
the
suction
vacuum
on
the
vacu
JllrI
Thermal
vacuum
valve
ope
um
passage
does
not
surpass
the
vacu
um
required
to
actuate
the
E
G
R
EC
20
EC227
Fig
EC
49
E
G
R
not
actuated
though
intake
manifold
vacuum
is
high
and
E
G
R
control
valve
remain
closed
l
Throttle
valve
EC228
Fig
EC
50
E
G
R
nol
actualed
control
valve
Page 154 of 537
6
Thermal
vacuum
valve
Open
E
G
R
control
valve
Close
E
G
R
ON
operation
The
E
G
R
circuit
is
completed
only
when
engine
coolant
temperature
Emission
Control
System
I
I
Note
Vacuum
condition
EC793
Fig
EC
51
E
G
R
not
actuated
is
above
the
working
temperature
of
the
thermal
vacuum
valve
and
carbu
retor
suction
vacuum
is
large
enough
to
open
the
E
G
R
control
valve
Y
m
l
fj
t1f
1t
3
0
l
P
@
0
f
Y
f
1
i0
W
g
1
i3
iiA
d
m
E
N
ti
n
k
i
l
i
Throttle
valve
n
L
r
E
G
R
control
valve
Open
E
G
R
control
valva
The
E
G
R
control
valve
controls
the
quantity
of
exhaust
gas
to
be
led
to
the
intake
manifold
through
vertical
movement
of
the
taper
valve
connect
ed
to
the
diaphragm
to
which
vacuum
Thermal
vacuum
valve
Open
Note
iiiI
Vacuum
condition
EC794
Fig
EC
52
E
G
R
actuated
is
applied
in
response
to
the
opening
of
the
carburetor
throttle
valve
The
E
G
R
control
valve
is
installed
on
the
E
G
R
passage
through
a
gasket
E
G
R
con
trol
valve
construction
and
type
vary
with
transmission
type
and
car
destination
For
identification
purposes
the
part
number
is
stamped
on
the
recessed
portion
at
the
top
of
the
valve
The
construction
of
the
E
G
R
control
valve
is
shown
below
EC
21
Page 159 of 537
EC350
Fig
EC
65
Cleaning
E
G
R
control
valve
Thermal
vacuum
valve
Dismount
thermal
vacuum
valve
from
engine
Note
Before
dismounting
drain
en
gine
coolant
from
engine
Apply
vacuum
to
thermal
vacuum
valve
and
check
to
be
sure
thaI
ther
mal
vacuum
valve
opens
or
closes
in
response
to
engine
coolant
tempera
ture
as
specified
Thermal
vacuum
valve
should
open
at
a
temperature
of
57
to
630C
135
to
1450F
completing
the
vacuum
passage
Note
Do
not
allow
water
to
get
inside
the
thermal
vacuum
valve
EC242
Fig
EC
66
Checking
hennal
vacuum
valve
Emission
Control
System
CATALYTIC
CONVERTER
DESCRIPTION
The
catalytic
converter
accelerates
the
chemical
reaction
of
hydrocarbons
HC
and
carbon
monoxide
CO
in
the
exhaust
gas
and
changes
them
into
non
harmful
carbon
dioxide
C02
OPERATION
Exhaust
gas
emitted
from
the
en
gine
contains
some
harmful
substances
due
to
incomplete
combustion
in
the
combustion
chamber
The
air
injection
system
is
designed
to
reduce
the
con
tent
of
such
substances
in
the
exhaust
gas
In
this
system
the
secondary
air
is
led
from
the
check
valve
and
injected
into
the
exhaust
manifold
With
this
injection
of
the
secondary
air
hydro
EC444
EC
26
and
water
H20
This
chemical
reac
tion
process
requires
the
proper
a
mount
of
air
which
is
supplied
by
the
air
pump
Refer
to
the
item
AJ
S
This
air
is
caUed
secondary
air
The
catalytic
converter
is
mounted
on
the
vehicles
destined
for
California
Refer
to
Figure
EC
67
3
4
1
Front
tube
2
Catalyti
converter
3
Center
tube
4
Main
muffler
5
Rear
tube
EC782
Fig
EC
67
Location
of
catalytic
converter
car
ons
He
and
carbon
monoxide
CO
in
the
exhaust
gas
are
gradually
oxidized
with
oxygen
02
in
the
secondary
air
and
converted
into
non
harmful
carbon
dioxide
C02
and
water
H20
The
catalytic
converter
further
cleans
engine
exhaust
gas
Through
catalytic
action
it
changes
residual
hydrocarbons
and
carbon
monoxide
contained
in
exhaust
gas
into
carbon
dioxide
and
water
before
exhaust
gas
is
discharged
to
the
atmosphere
c
Secondary
air
Carbon
monoxide
hydrocarbon
Carbon
dioxide
gas
water
F
EC
68
Operution
of
catalytic
corwerter