1980 SKODA 120L oil type

5. Turning force
of box and column only. The
maximum permitted
turning force of the box and
column only (drag
link
attached to steering box
but allowed to slide freely
across idler) is 1.2kg
2.5lbs when test is carried out as in (2).
lf the force
is excessive, lubricate
universal joints
and check
thatthe drag link assembly is free to move. Repeat
test. lf still excessive remove
the steering box,
which can be removed
with the track rod still
attached.
TIME ALLOWANCE 5 mins.
6. Turning force to rotate
Steering Box input
shaft. With some form
of coupling (coupling from
'S'
type Steering Box) test the force required to
rotate the shaft; maximum prmitted
torque0.1 6kg
1.16ft lbs.
lf using an arm and spring balance as
shown the maximum force required
can be
calculated bv
160
arm length
in crn
arm length
in inches
These tests should be carried out with the
worm in the central position.
The initial force will
be 0.25 kg %lb greater
than the average pull-
force. lf excessive, remove
input shaft top bearing
cap and adjust the
bearing to give
0.OO to
0.05mm preload.
Shim Part No. 11O-509650
Steel O.3mm
1 10-59O90O Paoer
O.2mm
1 10-590902 Paper
O.7mm
Refit the shims and gaskets
and retaining cap,
fit the rubber sealing ring
dipped in oil and f it the
thin dust cover. lf the dust cover seems strained,
install a paper
gasket
between the cap and dust
cover. Part No. 1 1O-5909O0.
Retest for torque
and check rocker
shaft end
float which should be between
O.4 and O.5mm. lf
excessive and unable to adjust by the adjusting
bolt, replace steering box after contacting
the
Service Department.
Reassemble car and check the maxtmum
permitted force at the
spoke is 2.4kg 4.5lbs.
Check that the wheel
and indicator switch is
ce ntra lised.
Rocker Shaft Nut Torque
100Nm (71
lb ft).
TIME ALLOWANCE
7O mins. (inctudes
cost of additional shims)
7. Other points
which can adversely
affect the
turning force of the
Steering mechanism:
a) excessive tension
of the ball joints.
b) Workshop
Manual 7.5.5. excessive tenston
of the drag link
arms. The force required to
move the arm should be approximately 2kg or e.g.
wrth length
of arm
6 inches
max.
permitted force
equals 1.16 x 12
6
= 2.32lbs
DUST
COVER
4.6lbs when applied to the inboard
end of the
threaded portion.
TIME ALLOWANCE -
Off Vehicte 1O mins.
lf problems
are experienced
with wheel
vibration on the front
axle it is necessary to check
the amount of weight applied to one half of the
wheel rim which should not exceed
50 grams.
You are reminded
that check A1, kingpin
adjustment, is required
to be carried ogt at each of
the six and 12,0OO mile services.
1.16 x12
UST
I
ADJ
UT LENGTH
OF ARM
118 2KG
{4.6lbs)

Shr
C
cle,
the
1
fittr
bor
(Im(
2
wit
woI
pisl
wor
the loc<(11,
3.
obo (M(
I nst
rod
the
oil' into
4.
witt
Con
prot
Inod
On f(
Inodr
oll c(
Excer
on c(
8.3 SHOCK ABSORBERS
The shock obsorbers ore of
the hydroulic,
telescopic, double-octing type of the PAL
moke.
The domping effect depends on the speed
of the
relotive movements of the oxle ond body. Doto
required for testing ond odiusting the shock
obsorbers ore given
in the following Tobles.
Front Shock Absorber -
see Fig.8.3/1
type PT 26x110,
Ser. No.443.621-215.000
1977-74 1 978 on
Maximum stroks llO mm 110 mm
Damping torce during
down stroke (compr€s-
sion 470N
500N
Damping force
during
upward stroke (expan-
sion) loSN
1
300N
Filling capacity lOO cc1OO
cc
Reor Shock Absorber
type T 26x175; Ser. No. 443.621.247.OO1
1977-78 1 978 on Both
types of shock obsorbers ore of similor
design, only their bottom fostening
is different
(the front shock obsorber hos o fostening eye,
the reor shock obsorber hos
o bolt ond locks
the outer protective
tube). They hove
o differ-
ent stroke, domping force, ond filling
copocity.
Removing ond Refitting When removing or refitting o shock
obsorber,
retoin the piston
rod (upper
fostening) by hold-
ing the flottened end of the threod in o sponner.
In the cose of
the reor shock cbsorber, retoin
the piston
rod in the bottom port
by holding the
heod of the bolt connecting it to the shock
obsorber cylinder.
The ossembly of the rubber bushes of the
respective shock obsorber mounting
con be seen
in Fig.8.3/1.
Access to the upper mountings of 'the
front
shock obsorbers is from the luggoge boot
(under the floor). The
threod is protected
by
o cop nut. The
mountings of
the reor shock
obsorbers ore occessible from the reor luggoge
comportment behing the reor seot bockrests ofter folding owoy the upholstery on the wheel
orch. The mounting is in the cyllndricol exten-
sion piece
in the scuttle
of the reor dosh.
Shock Absorbor Dismcntling
Dismontling is o routine procedure
beginning
with screwing out the plug
(1)
ofter the pro-
tective sleeve (tube)
hos been removed. Never
dismontle the piston
volves since there is o risk
of impoiring the domping force
by mixlng up
the volves.
o
o
*)
At o
temperoture ol 25
to 30oC,
of 100 strokes per
minute, ond
100 mm. frequency
stroke of
Fig.8.3/1 -
Front Shock Absorber -
Sectionol View
Maximum stroke
175 mm
175 mm
Damping force during
down stroke (compres-
ston, 470N
500N
Damping force during
upward stroke {expan-
sronl 950N
r
200N
Filling capacity 160
cc 160 cc
130

r 0.3-t0,5
Ihe permissible
out-of-bolonce must not ex-
ceed 50 grommes
on the rim rodius. Every new
tyre is provided
with o coloured dot on its side,
indicoting its lightest point.
Fit the tyre olwoys
with this dot focing
the tube volve.
ln this
position, the volve octs os on odditionol weight
compensoting the wheel overoll unbolonce to
o consideroble extent.
lf dynomic boloncing of the wheel is not
possible, bolonce the wheel stoticolly with the
greotest possible qssuroc|.
Boloncing weights
of 30, 50, 75,
ond 100 grommes
ore ovoiloble.
10.4 TUBED TYRES
For mounting,
dismounting,
ond repoirs of
conventionol tyres with inner tubes (for
por-
ticulors, see the preceding
Chopters), the usuol
procedures ore opplicoble. The permissible run-
out (untrue
running)
of the rim is the some os
for tubeless tyres (Chopter
10.5).
10.5 TUBELESS TYRES
The oir-tight seoling of these tyres requires
more core ond o different hondling thon thot of
the tyres with inner
tubes.
Preporotlon of Rirrr
13elore mounting the tyre, inspect the rim for
ony technicol defects. The points
to be checked
ore the rim shoulder ond the moting foce for
the tyre beods,
in oddition to the overoll con-
dition of the rim. lf ony defects ore found, the
rim must be reconditioned.
A sotisfoctory rim
nrust comply with the following conditions:
o) The
rim shoulder ond the tyre volve hole
must not be distorted;
there must be no
shcrp edges or protrusions
likely to domoge
the tyre beod. Minor unevennesses
con be
hornmered flot ond smoothed
with o file.
The moximum eccentric running
of the rim
side must not exceed 1.5 mm.
b) The moting surfoces
must be obsolutely
cleon (free
from stuck-on rubber, rust,
etc.).
Cleon them with emery poper
or o wire brush
ond coot them with point.
lnstolling of Tyre
Volve
Cleon the rim with o dry rog. Push
the rubber
volve into
the hole in the rim
or pull
it in
by
its threod using, for exomple,
o lever
os illus-
troted in Fig. 10.5/1. Fig. 10.5/1
-
Pulling Tyre Volve
irrto Wheel Rim
Mounting the Tyre
For mounting the tyre, use speciol mochines
ond procedures,
depending on the type of the
nrochine. lf such o mochine is not ovoiloble, in-
stoll the tyre using speciol tyre levers.
Ensure
thot the boloncing dot is next to the volve.
Tyre leverrs for fitting tubeless tyres
differ in
shope from conventionol levers. They
ore thin-
ner, without edges, ond polished.
Use them core-
fully in order not to domoge the
beod seoling
rubber bose. Insert the levers
under the beod
ot
short distonces ond refroin from using force. To
focilitote sliding of the tyre cosing beods over
the rim shoulder, moisten them with woter ond
top them with o rubber
mollet when eosing
them over the rim shoulder. Inflote
the mounted
tyre immediotely. Check the tyre for propei'
bedding in the rim ond
squore seoting
on it.
Holding the wheel perpendiculorly,
strike it
severol times ogoinst the f loor ot severol points
to force the tyre beods
to bed
correctly on the
bcad seots.
lnf lotion
Remove the volve
core to increose
the diom-
eter of the hole for oir inlet (oir
should be
iniected in quick
shots to force
the beods
on
to the beod seots) ond inflote the tyre. Use
o compressor with oir receiver, the
compressed-
.oir line of the
workshop, or
compressed-oirr
cylinders. The relief volves hove to be odiusted
to o pressure
of 350 kPo (3.5
kg/cmz).
Never ollow the inflotion pressure
to rise
unnecessorily. As soon os the tyre hos snopped
into position
on the rim
ond is free from leoks,
odiust the pressure
to 250 -
350 kPo (2.5 -
3.5
kg/cmz). lf the tyre refuses to
bed properly
on
the rim,
for exomple due to distorted beods or
beods compressed due to incorrect storoge,
press the tyre circumference inword to open
wide the beods which will then bed properly
on the rim. Use either o length of
rope or
o speciol tightener. Slip the rope over the
tyre
circumference with o certoin cleoronce, insert
o stick
between the tyre ond the rope, ond
twist the rope.
Adiust the tyre pressure
to specif
icotions ond
submerge the wheel in woter to check the
tyre
for oir leoks.
146

1 1.8-11.10
11.8 HEATER
CONNECTING LINE
The line is o
combinotion of steel pipes
ond
rubber hoses. All connections must be tightened
with clips of
the strip
type (see
Fig. 11.411) or
the wire type (bleed
hose). Toke
core not to
overtighten the clips of the lotter type os there
is o risk of domoging the rubber.
The hose from the pipe
of the thermostot
body on the engine is routed to the heoter
through the f loor tunnel, the return bronch
possing ogoin through the tunnel to the pipe
of
the pump.
Arronge the hoses olong the sides
of
the floor tunnel so
thot they do not touch other
ports in the tunnel.
For detoiled informotion obout the routing of
the hoses refer to
Chopter 12.7.
11.9 otl COOLER
The oil cooler is stondord
equipment of
Skodo
120 LS models. lts construction resembles thot
of the rodiotor. lt is
instolled in the
engine
comportment (boy)
ond ottoched to the right-
-hond engine guord.
Speciol pressure
hoses
connect it with the engine. lts connecting
diogrom is shown in
Fig. 11.911.
As regords oil coolers for subtropicol ond
tropicol regions, refer to
Chopters 16.1
ond '16.2.
Fi9.11.9/1 -
Oil Cooler-to-engine Connecting
Diogrom
1 -
Outlet from engine-right-hond cooler socket,
2 -
Oil cooler, 3 -
Inlet into engine -
left-hond
cooler socket Removol ond
Refitting
Disconnect the hoses fronr the engine ond,
occording to circumstonces ond the purpose
of
the removol, detoch the oil cooler from
the
engine guord
or remove the engine guord
together with the cooler ond brocket. Empty the
oil contoined in the hoses ond the oil cooler
into o suitoble vessel. When refitting the oil
cooler into the cor,
proceed in occordonce with the circumstonces
of the removol. Secure the bolts conecting the
oil cooler with the engine guord
ond the brocket
(the brocket being locoted between the cooler
ond the guord)
with spring
woshers. Bolt down
the guord
over ploin
woshers ond use o spring
wosher for the bolted connection of the brocket
with the bodywork.
Use seoling
woshers when connecting hoses
to the engine ond the oil cooler, ond put
o seoling wosher olso under the bolt. Close the
bolt of the engine port
ot the flonge with the
pressure switch. Fosten the hoses so thot they
ore not stressed in their bends. The
hose from
the timing geor
cover should be routed horizon-
tolly ond the hose ot
the engine inlet so thot
it includes o downword ongle of obout 15 de-
grees with the horizontol plone. Top up
oil in
the engine.
11.10 COOLING SYSTEM DEFECTS,
TESTING, REPAIRS, AND
CLEANING
Defects ond Testing o) lf there is o marked loss of coolont, check
oll connections for leokoge. The
loss of coolont
con olso be coused by o leokoge of the rodiotor
(or heoter). lf the leokoge point
is not visible,
pressure-test the system without removing it
from the cor. Admit seoled-off oir ot o pressure
of 0.12 MPo
(1.2 kglcmz) into the filler neck ond look for
ploces where the coolont is seeping or dripping
out. Inspect not only the rodiotor but olso the
lreoter. An excessive loss of the coolont con be olso
coused by engine overheoting. In thot cose,
look for the couse of engine overheoting.
b) Points to check if the engine
is overheoting
- coolont level
- operotion of thermostots ond rodiotor fon
- condition of rodiotor (whether
clogged out-
side with dirt, or whether cooted inside with
scole)
c) Points to check if the engine does not worm
up properly:
- operotion of thermostots
DX
tfSJ
156

1 3.10-t
3.1 1
13.11 WINDSCREEN WIPER
Technicol Description
The rotory windscreen wiper consists of the
wiper motor
with o geor
cosing, o lever system
driving the wiper orms, ond two wiper orms
with wiper blodes.
The two-pole wiper motor
with permonent
mognets is o two-speed
unit with self'lubri'
coting beorings. The geor
cosing comprises onepicyclic
geor
ond on outomotic self-porking
device. The shoft runs in self'lubricoting beor'
ings, the geors
being lubricoted with greose
pocked into the geor
cosing. The lever system
(leveroge) includes self-lubricoting
ioints ond
beorings.
Windscreen wiper
tyPe -
for left-hond steering .
- for right-hond steering
Roted voltoge
Roted current PAL 443.122
-
081.071
PAL 443.122 -
076.071
-12
volts
4 omperes ot high speed,
2.5 omperes ot low speed
60 ot high speed (minimum)
20 (minimum)
to 50 (moximum)
ot low speed
15 cycles per
minute (minimum)
onticlockwise -
for left-hond steering
clockwise -
for right-hond steering
Wiping
cycles per
minute
Difference of cycles between speeds
Direction of
rototion when viewing
the output
shoft
I
i
f1
llr
fi.,
il
lr
l Removol
ond
Refitting
According to the
noture of the required re-
poir, remove either only the motor with the geor
cosing after hoving disconnected the pullrod
from the cronk, the cronk from the geor
cosing,
ond the geor
cosing from the brocket, or remove
the complete unit
ofter removing the wiper orm
beorings -
see wiper orm drive.
When ref itting
the windscreen wiper unit,
observe the
ossembly position of the
wiper
cronk -
see the following porogroph "Motor
ond
Geor Cosing". For position
of the wiper
orms
(blodes), see the porogroph 'Wiper
Arms". ln-
stoll the brocket into the body bulkheod ond
fosten it in position
with the nut, using o rub-
ber ond o flot wosher.
Cleoning ond Repoirs
When disossembling the windscreen wiper
motor, do the following jobs:
1. Reploce worn brushes ond use petrol
to
cleon motor ports
ofter blowing the dust out of
the brushes; moke sure thot the brushes move
freely in their cells. 2. lf the commutotor is
dirty, cleon it
with
petrol, if it is domoged, re-turn ond polish
it.
3. During cleoning, the self-lubricoting beor-
ings must not come into contoct with the
cleoning (degreosing)
ogent (petrol,
etc.). They
should be lubricoted
only with o low-pour-point
oil dripped into the cut-outs of the
cup retoining the boll beoring ond
the felt. Use only os much
oil os the felt con hold.
4. For the epicyclic geor
in the geor
cosing
use greoses
specif ied in Chopter 15.3 -
either
of foreign
moke or of
Czechoslovok moke -
re-
commended specificolly
for windscreen wipers.
MOTOR AND GEAR CASING
Ports of the motor
with the geor
cosing (or
geored motor) is the wiper brocket,
the pro.
tective housing, ond the driving cronk. When
instolling the wiper, put
the housing
on the
motor with the geor
cosing ond clomp it from
below. Bolt down the brocket using ploin
woshers under the bolts. Fosten the motor
eorthing coble under one
of the bolts.
Fosten the cronk in position
using o nut
ond
o spring wosher while observing its ossembly
position:
o) with wipers for left-hond steering-toword
the right-hond side
of the motor ond deflected
13o downword from
the oxis porollel
with the
centre line
of the motor;
b) with wipers for right-hond steering
toword the left-hond side of the motor ond de-
f lected 17" downword from the oxis porollel
with
the centre line
of the motor.
Dismontling the Geor Cosing 1. Remove three screws ond lift owoy the
cover.
188

t3.tt-l
3, I 5
I 2.
Remove the clomping
bolt from the brocket
ond lift owoy the motor.
3. Remove the other clomping
bolt from the
motor, lift owoy the stotor ond the
brush
springs, ond push
out the brushes. The
other
motor ports
connot be dissosembled.
Reossembly of Motor ond lmpeller
1. lnstoll the stotor with the slot focing
the
bosses on the frome ond with its index line
focing the line on the frome,
ond fosten
the
ports with screws ond woshers.
2. Instoll the brushes ond brush springs,
suitobly orch the brush cobles so
thot they do
not obstruct the movement of the brushes ond
so thot they connot
couse o short-circuit.
3. Top the stotor lightly with o soft
mollet
to settle it in
the beorings, ond lubricote
the
beorings. 4. Connect the motor to the power
supply
ond test briefly its running ond direction
of
rototion. lf it rototes in the opposite direction,
rotote the frome
ossembly through 180'.
5. Remove the clomping bolt of the motor on
the terminol boord side, instoll the motor in
the brocket, ond lock it in position
with the
bolt ond wosher.
6. Fit the spring on the motor shoft,
support
the shoft
to ovoid domoging the beorings, ond
press-on the impeller. The cleoronce between
the impeller circumference ond the brocket
must be smoll,
obout 1.5 to 2
mm. Lock the im-
peller in position
by pressing -
on the lock ring
- ogoin the motor shoft
must be supported.
7. Close the motor beoring from obove by
fitting the cover.
13.14 WINDSCREEN WASHER
Technicol Description
The windscreen wosher is o unit comprising
o reservoir, o pump
with motor, o distributor
volve,two nozzles, ond the connecting pipeline.
Windscreen wosher type MEZ MM 2004
Roted voltoge
Roted input .
Pump dischorge,
minimum .
12 volts
. 50 wotts
. 15 c. c. ot o pressure
of 10 MPo
(1 kg/cme)
Fitting, Removol, ond
Adiustment
The reservoir is held in
its ploce
by o cover
bond secured by copscrews with flot woshers.
The motor with pump
is bolted down, using
flot woshers under the copscrews. The suction
bronch socket is smooth, thot of
the dischorge Fig.
13.1a11- Windscreen Wosher
1 -
Reservoir, 2-
Sproying nozzles, 3- Motor
with pump
bronch reinforced with o collor; the positive
pole is connected to the suction side, the
negotive pole
to the dischorge side
(when
viewing the cor from the front, suction is
on
the right-hond side, the dischorge on the left"
hond side).
The distributor volve
is fostened by o cop-
screw, the distribution pipeline
being simply
fitted on it. The nozzles (heods
with nozzles) ore se-
cured in position
by pressing
them down from
obove into bushings
inserted into the cor body
by their necks. To
odjust the required direction
of the woter streom,
turn the nozzles to
the
respective ongle using o needle inserted into
the nozzle hole.
Fil!ing the Reservoir Open the reservoir by turning its
cop onti-
clockwise. In
summer, fill it with woter or
o mix-
ture of woter ond one of the odditives for
wind-
screen woshers ovoiloble on the morket, ond in
winter exclusivelywith on ontifreeze of o brond
intended speciolly for windscreen woshers -
never use on ontif reeze
intended for motor
vehicle cooling systems. Be coreful if
the body finish is touched up
with other thon boking enomel. Additives in
the woter ond other
liquids, usuolly contoining
spirit, ore opt to leove
unremovoble spots on
the enomel. Use only woter when testing the
windscreen wosher.
13.15 INSTRUMENT
PANEL
Technicol Description
The instrument ponel
contoins oll meosuring
instruments ond indicotors recommended by
192

Reverse
the
dismontling procedure
to rein'
stoll tl-re window ond its winder. The
loterol
ploy con be odiusted by odiusting (swinging
out) the centre post
ofter hoving loosened the
respective bolts ond nuts -
see Fig. '14.6/6
ond/
or 14.617.
Use this occosion to lubricote inner door
mechonisms -
see Chopter 15.12.
Fig.14.617 -
Reor Door Control Linkoge
ond Fostening/Adiusting Screws
1 -
Inner lotch control link (short)
2 -
Reloy lever
3 -
lnner lotch control link
(long)
4 -
Inner hondle pull
rod
5 -
Fostening/odiusting screws ond nuts
of
the
centre post
(third screw in upper port
of centre post)
Repair of Window Regulator Defects
lf the windows are difficult to wind up and
down (the
maximum torque applied on the
spindle of the window regulator with the glass
installed in the doors exceeds 2.5 Nm) (1.77
tt
lbs), it is recommended that the following steps
are taken as regards both the front
and rear doors:
1. Disconnect the regulator driving plate
from
the window glass
channel. Push the glass
upward
and try the relieved regulator by turning the
regulator crank. lf the regulator does not work
smoothly (jamming,
rattling) or if
a torque higher
than O.7 Nm/(O.495 ft lbs) in front and 1.1
Nm/(0.78 ft lbs) in the rear is required for its
operation, replace the whole regulator with a new
one working satisfactorily.
2. Adjust the centre pillar position
in the door
using the jig
as per
drawing No. A1-1 5417-S.
Loosen the top screw of the centre pillar
and
retighten it while pressing
the centre pillar
against the window glass
wound up to its upper-
most position.
Loosen the bottom screw of the
centre pillar
and retighten it while pressing
the
centre pillar
against the
window glass. 5417
-
S
-l! L
3. When bolting together the regulator driving
plate with the window glass
channel make sure
that the holes in these two parts
coincide along
the whole length of the channel. lf it is not so,
move the
channel into a satisfactory position.
4. lf the regulator is
not lubricated, lubricate the
regulator cable in the
tubing with grease
and
apply oil to the regulator
crank spindle.
To Remove ond Reinstoll Reor Door Fixed
Window
Agoin remove first the door trimming. The
gloss is only inserted
into the door frome ond
supported by o bolted-down holder with o rub-
ber pocking piece.
The gloss
con be moved in
the door
covity ond withdrown through the
door frome.
14.7 TRIMMING UPHOLSTERY AND WEATHERSTRIPS
Ponel-type Trimming
This type of trimming is used for
the doors -
see Chopter 14.5, Fig.14.511- ond for
the front
ond reor window posts.
Ponel-type trimming
fostened by clips (flexible
spocing pins)
covers
olso the porcel
troy below the reor window, the
outer guideroils
of the front seots, the front
wheel orches, ond the focia. On centre posts,
the trimming is fostened by screws.
208

tificotion
number, or in
words. For exomple
Mobiloil 30 is on oil in the SAE 30 viscosity
closs, Mobiloil Speciol belongs to the SAE
10 W/30 closs. We quote
the viscosity closs
symbol of oils identified
in this woy in brockets
following the oil brond (trode
nome).
Oils designoted by o doubled viscosity closs
symbol ore the so-colled multigrode oils. Their
complionce with viscosity clossificotion is ex-
pressed by the symbol before the froction line
progressively to the clossificotion expressed by
the symbol behind the froction line. Thus,
for
instonce, the SAE 10W/30 oil hos the properties
of the sAE 10w, sAE 20w120,
ond sAE 30
closs.
Czechoslovok oils
Motor oil M6 AD (SAE
30), M4AD (SAE
20W/
20), Mogul Super SAE 20W50,
Mogul Speciol
SAE 2OW/30
Modit Oil SAE 30 (M6
AD), Modit Oil SAE
2OWl2O (M4AD), Modit Oil Speciol
SAE 10W/
30, Modit Super SAE 10W/40
Foreign oils
Agip: Agip F. 1 Motor Oil HD SAE 10W/20,
2OWl30, 4Ol5O; Agip F. 1
Super Motoroil
10w/40,20wl50
BP: Energol HD SAE 40, 30, 2OW (2OW|?O),
10W; Super Visco-Stotic 10Wi30, 10W/40,
20wt20
Costrof : Costrol 40,
30, 20Wl2O, '10
W; Costrolite
(SAE 10W/30), XL (SAE 20W/50);
GTX
(SAE 10w/50)
Mobil: Mobiloil 40, 30, 2OWl2O,
10W; Speciol
(SAE 10W/30); Speciol 20W/50; Super (SAE
10w/so)
Shef l; X-100 40, 30, 2OWl20,
10W; Super (SAE
10w/so)
Other oils of foreign moke con be used if equi-
volent to the listed bronds, for
exomple, Avio,
Esso, Heno (Optimol
LD), INA (Delto TLX),
Noftogos (Golox GTX, Omnio) etc.
GEAR OILS -
type E. P. (high-pressure)
I Viscosity j Ambient
Lubricoting noint
I closs
! temperoture
sAE 140*) -r50
to +15 oC
Georbox/f inol
drive SAE
90
*35 to -15
oC
* 5 to -30oC
SAE 80
teering box SAE 90 throughout
the yeor Czechoslovok
oils
PP 90 (SAE
90) geor
oil; PP 80 (SAE 80)
geor oil
Foreign oils
Agip: F. 1 Rotro 140; 85/90; 75Wl8O
BP: Geor Oil 140
EP; 90 EP; 80 EP
Costrol: Hypoy B 140; B 90; B 80
Mobil: Mobilube GX 140; GX 90; GX 80
Shell: Spirox E. P. 140; E. P. 90; E. P. 80 W
Other geor
oils of foreign moke con be used
if equivolent to the listed oils.
SPECIAL OILS
Distributor beorings (service inspection)
Czechoslovok moke -
ON 1 low'pour-point oil
Foreign moke -
for exomple, Shell Clovus 17
ond similor oils
GREASES -
use throughout the yeor
Woter pump
Czechoslovok moke -
SP 4 sooP greose,
NH 2
or A4 motor greose
Front wheel beorings, geor lever
brocket
Czechoslovok moke -
SP 4 or NH 2 soop greose
King pins
Czechoslovok moke -
A 00 motor greose
Inner door mechonisms, locking mechonisms
Czechoslovok moke -
SP 2-3 soop greose*)
Clutch releose beoring
Czechoslovok moke -
SP 4 or NH 2 soop
greose* )
Steering tinkoge boll
ioints, cronkshoft
beoring
Greoses listed in the porogroph
on greoses
of
foreign moke
Greoses of foreign moke:
Agip: F.1 Greose 30; BP: Energreose L2; Costrol:
Costroleose l. M.; INA: Automost Speciol;
Mobil: Mobilgreose MP;
Shell: Retimox A,
ond other greoses
equivolent to
the listed
ones.
BRAKE FLUID
To SAE J 1703C Specificotion
ln Czechoslovokio -
SYNTOL HD 190 broke fluid
Abrood -
SYNTOL HD 190, Pentosin
Super Fluid,
Mobil Hydroulic Broke Fluid, ATE Blou, BP
Broke Fluid, STOP SP 19
r) Greoses of foreign moke should be preferred.
220
*)
Not used
in Czechoslovokio