torque MERCEDES-BENZ G550 2011 W463 Owner's Manual
[x] Cancel search | Manufacturer: MERCEDES-BENZ, Model Year: 2011, Model line: G550, Model: MERCEDES-BENZ G550 2011 W463Pages: 288, PDF Size: 11.16 MB
Page 18 of 288
SRS ................................................ 187
Tire pressure monitor ....................189
Warranty ............................................ 274
Washer fluid Display message ............................ 181
Wheel bolt tightening torque ........... 234
Wheel change see Flat tire .................................... 232
Wheels
Changing/replacing .......................269
Changing a wheel .......................... 232
Checking ........................................ 246
Cleaning ......................................... 222
Mounting a wheel .......................... 234
Removing a wheel ..........................234
Storing ........................................... 270
Technical data ............................... 272
Tightening torque ........................... 234
Wheels and tires
Important safety notes ..................246
Window curtain air bag
Operation ......................................... 39
Windows
see Side windows
Windows (cleaning instructions) ..... 223
Windshield heater ............................. 110
Windshield heating see Windshield defroster
Windshield washer system .............. 218
Notes ............................................. 281
Windshield wipers
Important safety notes ..................101
Replacing the wiper blades ............103
Switching on/off ........................... 102
Troubleshooting ............................. 104
Winter
Driving in winter ............................. 141
Winter operation ............................ 248
Winter operation ............................... 141
Winter tires M+S tires ....................................... 248
Wiper blades
Cleaning ......................................... 22316Index
Page 60 of 288
4ETS (Electronic Traction System)GWarning
Observe "Important safety notes"
( Y page 55).
Traction control is part of ESP ®
.
Traction control brakes the drive wheels
individually if they spin. This enables you to
pull away and accelerate on slippery surfaces,
for example if the road surface is slippery on
one side. In addition, more drive torque is
transferred to the wheel or wheels with
traction.
Traction control remains active if you
deactivate ESP ®
.
Traction control is no longer active at speeds
above approximately 37 mph (60 km/h).
Activating/deactivating ESP ®
GWarning!
The ESP
®
should not be switched off during
normal driving other than in the
circumstances described below. Disabling
the system will reduce vehicle stability in
driving maneuvers.
ESP ®
is activated automatically when the
engine is started.
It may be best to deactivate ESP ®
in the
following situations:
R when using snow chains
R in deep snow
R on sand or gravel
GWarning
Switch on ESP ®
immediately if one of the
previously stated conditions is longer met.
Otherwise, ESP ®
cannot stabilize the vehicle
if it begins to lurch or when a wheel spins.
When you deactivate ESP ®
:
R ESP ®
no longer improves driving stability.
R the engine's torque is no longer limited and
the drive wheels can spin. The spinning of
the wheels results in a cutting action, which
provides better grip.
R traction control is still activated.
R ESP ®
still provides support when you
brake.
R and drive over 37 mph (60 km/h), ESP ®
intervenes when the grip limit of a wheel is
reached, even if it is deactivated.
If ESP ®
is deactivated and one or more wheels
start to spin, the ÷ warning lamp in the
instrument cluster flashes. In such situations,
ESP ®
will not stabilize the vehicle.
If you have deactivated ESP ®
, it is
automatically reactivated if you exceed a
speed of 37 mph (60 km/h) or a certain
lateral acceleration.XTo deactivate: press button : until the
å warning lamp lights up in the
instrument cluster.GWarning
When the å ESP®
OFF warning lamp is lit,
ESP ®
is deactivated.
If the ÷ ESP®
warning lamp and the
å ESP®
OFF warning lamp remain lit,
ESP ®
is not available due to a malfunction.
When ESP ®
is deactivated or not operational,
vehicle stability in standard driving
maneuvers is reduced.
Adapt your speed and driving to the prevailing
road conditions and to the non-operating
status of the ESP ®
.
58Driving safety systemsSafety
Page 131 of 288
Differential locks
General notes
Differential locks improve the traction of the
vehicle.
GWarning!
Never drive on firm road surfaces with
differential locks engaged. Never drive on
narrow bends with front-axle differential locks
engaged. With differential locks engaged, the
vehicle's ability to steer is severely restricted
and the danger of accidents is therefore
higher.
Do not engage or disengage differential locks
while driving on a bend. The vehicle may
otherwise make a jerking movement. You
could thus lose control of the vehicle and
cause an accident.
If you select a differential lock, ABS, 4ETS,
ESP ®
and BAS will be deactivated.
Your vehicle is equipped with a differential
lock for:
R the transfer case: this controls the balance
between the front and rear axles.
R the rear axle: this controls the balance
between the wheels on the rear axle.
R the front axle: this controls the balance
between the wheels on the front axle.
! In order to avoid damage to the transfer
case, you must operate the vehicle on a
dynamometer (1-axle dynamometer) only
if:
R the axle not driven on is jacked up
or
R the corresponding propeller shaft is
disconnected
and
R the differential lock of the transfer case
is engaged.
Otherwise, the transfer case could be
damaged.
Information about differentials and
differential locks
When the vehicle is driving through a bend,
the wheels on the outside of the bend must
travel a longer distance and must thus turn
more quickly than the wheels on the inside.
The differential, a transmission in the
drivetrain, balances out the different
rotational speeds and therefore enables
driving through bends.
The disadvantage of differentials: the wheels
with the least road grip are driven the hardest.
Example: a wheel on a driven axle stands on
snow-covered ground and thus has no
traction. This wheel receives the strongest
driving power from the differential, as the
force progression takes the path of least
resistance. The opposite wheel on this axle,
however, which stands on firm ground and
could therefore allow traction, receives no
driving power. 4ETS eliminates this
disadvantage and provides good steerability
by automatically braking the spinning wheel,
thus directing more driving power to the
wheel standing on firm ground, which is
therefore able to provide traction.
ESP® and 4ETS are traction systems that are
ideal for road driving and suitable for light off-
road driving. Off-road gear LOW likewise
improves off-road capabilities.
Moreover, the more difficult conditions in off-
road driving require further measures such as
locking one or several differentials. Your
vehicle is equipped with three differential
locks: a central differential lock for the
transfer case, a differential lock for the front
axle, and a differential lock for the rear axle.
Each differential lock can be engaged with the
respective switch on the center console.
When the central differential lock for the
transfer case is locked, the speed of the front
wheels is equal to that of the rear wheels.
When the differential for the rear axle is
locked, both rear wheels turn equally fast,
independent of their respective torques.
Keep in mind that by engaging the differential
Automatic transmission129Driving and parkingZ
Page 148 of 288
RAvoid high engine speeds – drive at
appropriate engine speeds (no more than
3000 rpm).
R Use the braking power of the engine when
driving down a slope. Observe the engine
speed, do not overrev the engine.
i Further information on the maximum
engine speed can be found in the
"Tachometer" and "Technical Data"
sections.
R Select a shift range appropriate to the
gradient.
R Before tackling steep downhill gradients,
select shift range 1 (Y page 123).
R Check the brakes after driving off-road for
a long time.GWarning!
Never turn the vehicle around on steep
inclines. The vehicle might roll over. If the
vehicle cannot complete the attempted climb,
back it down in reverse gear.
i Hill start assist will aid you when pulling
away on a hill.
For more information, see "Hill start assist"
( Y page 118).
Maximum gradient-climbing capability
Do not drive at an angle on slopes, inclines or
gradients, but instead follow the direct line of
fall. The maximum gradient-climbing
capability of your vehicle is 80%, which
corresponds to an approach/departure angle
of 38°. Note that the vehicle's gradient-
climbing capability depends on the off-road
conditions.
Accelerate carefully and make sure that the
wheels do not spin when driving on steep
terrain.
i If the load on the front axle is reduced
when pulling away on a steep uphill slope,
the front wheels have a tendency to spin.
4ETS detects this and brakes the wheels
accordingly. The rear wheel torque is
increased, making it easier to drive off.
Brow of hill
When driving on an uphill gradient, reduce
pressure slightly on the accelerator
immediately before reaching the top of the hill
(do not shift the transmission to position N).
Use the vehicle's own impetus to drive over
the top of the hill.
This style of driving prevents:
R the vehicle from lifting off the ground on the
brow of a hill
R loss of traction
R the vehicle from traveling too quickly down
the other side
Driving downhill
R Before tackling steep downhill gradients,
select shift range 1 (Y page 123).
This way you use the engine's braking
effect to reduce the speed. If this is not
sufficient, brake gently. When doing so,
make sure that the vehicle is facing in the
direction of the line of fall.
R Observe the notes on driving in
mountainous terrain ( Y page 146).
R Drive slowly.
R Do not drive at an angle down steep
inclines. Steer into the line of fall and drive
with the front wheels aligned straight.
Otherwise, the vehicle could slip sideways,
tip and rollover.
R Check that the brakes are working normally
after a long downhill stretch.
i The special off-road ABS( Y page 56)
enables accurate, brief and repeated
locking of the front wheels, causing them
to dig into the loose ground. Note that when
the front wheels are fully braked, they slide
easily over the surface of the ground,
making it difficult to steer.
146Driving tipsDriving and parking
Page 237 of 288
XTighten the wheel bolts evenly in a
crosswise pattern in the sequence
indicated (: to A). The tightening torque
must be 96 lb-ft (130 Nm).
GWarning!
Have the tightening torque checked after
changing a wheel. The wheels could come
loose if they are not tightened to a torque of
96 lb-ft (130 Nm).
XDisassemble the pump lever.XPush the jack piston back in and close the
drain plug.
XUse the bolts to secure the faulty wheel to
the exterior spare wheel bracket.
XCover the faulty wheel with the tire cover
provided.
XPut the jack and the rest of the vehicle tool
kit away.
XCheck the tire pressure and correct it, if
necessary.
A table with the tire pressures for your
vehicle can be found on the B-pillar on the
driver's side.
Battery
Important safety notes
In order for the battery to achieve the
maximum possible service life, it must always
be sufficiently charged.
! Have the battery checked regularly at a
qualified specialist workshop, e.g. an
authorized Mercedes-Benz Center.
Observe the service intervals in the Service
Booklet or for further information consult a
qualified specialist workshop, e.g. an
authorized Mercedes-Benz Center.
Have the battery charge checked more
frequently if you use the vehicle mainly for
short trips or if you leave it standing idle for
a lengthy period.
Only replace a battery with a battery that has
been recommended by Mercedes-Benz.
Consult an authorized Mercedes-Benz Center
if you wish to leave your vehicle parked up for
a long period of time.
GWarning
Comply with safety precautions and take
protective measures when handling batteries.
Risk of explosionFire, naked flames and
smoking are prohibited
when handling the battery.
Avoid creating sparks.
Battery acid is caustic.
Avoid contact with the skin,
eyes or clothing.
Wear suitable protective
clothing, in particular
gloves, an apron and a face
mask.
Immediately rinse acid
splashes off with clean
water. Consult a doctor if
necessary.
Wear eye protection.Keep children away.Observe this Operator's
Manual.
HEnvironmental note
Do not dispose of batteries in the household
rubbish. Dispose of defective batteries in an
environmentally responsible manner. Take
them to an authorized Mercedes-Benz Center
or to a special collection point for old
batteries.
Battery235Roadside AssistanceZ
Page 271 of 288
brakes, level control, a roof rack or a high-
performance battery, are not included in the
curb weight and the weight of the
accessories.
TIN (Tire Identification Number)
This is a unique identification number which
can be used by a tire manufacturer to identify
tires, for example for a product recall, and
thus identify the purchasers. The TIN is made
up of the manufacturer's identity code, tire
size, tire type code and the manufacturing
date.
Load bearing index
The load bearing index (also load index) is a
code that contains the maximum load bearing
capacity of a tire.
Traction
Traction is the result of friction between the
tires and the road surface.
TWR (permissible trailer drawbar
noseweight)
The TWR is the maximum permissible weight
that may act on the ball coupling of the trailer
tow hitch.
Wear indicator
Narrow bars (tread wear bars) that are
distributed over the tire tread. If the tire tread
is level with the bars, the wear limit of 1
/ 16 in
(1.6 mm) has been reached.
Distribution of the vehicle occupants
Distribution of vehicle occupants over
designated seat positions in a vehicle.
Maximum permissible payload
weight
Nominal load and luggage load plus
68 kilograms (150 lb) multiplied by the
number of seats in the vehicle.
Changing a wheel
Flat tire
The "Roadside Assistance" section
( Y page 232) contains information and notes
on how to deal with a flat tire. It also provides
instructions on changing a wheel or mounting
the spare wheel.
Interchanging the wheels
GWarning
Rotate front and rear wheels only if the tires
are of the same dimension.
If your vehicle is equipped with mixed-size
tires (different tire dimensions front vs. rear),
tire rotation is not possible.
GWarning!
Have the tightening torque checked after
changing a wheel. Wheels could become
loose if not tightened with a torque of
96 lb-ft (130 Nm).
Only use genuine Mercedes-Benz wheel bolts
specified for your vehicle's rims.
The wear patterns on the front and rear tires
differ, depending on the operating conditions.
Rotate the wheels before a clear wear pattern
has formed on the tires. Front tires typically
wear more on the shoulders and the rear tires
in the center.
If your vehicle's tire configuration allows, you
can rotate the wheels according to the
intervals in the tire manufacturer's warranty
book in your vehicle documents. If no
warranty book is available, the tires should be
rotated every 3000 to 6000 miles
(5000 to 10000 km), or earlier if tire wear
Changing a wheel269Wheels and tiresZ