2014 Ram 3500 stop start

designed to take the abusive force generated during
vehicle recovery. Do not use the bumper or any other
vehicle component as an attachment point. Using tow
straps requires coordination between the two drivers.
Good communication and line of sight are required for
a safe recovery. First connect the tow strap to the
correct attachment points on both vehicles. There
should be a least 20 to 30 feet between the vehicles to
allow for a safe recovery. If necessary join two tow
straps together usinga1½inch hard wood dowel.
This will keep the straps from becoming knotted and is
safer than using a clevis pin if the strap breaks. Next
have the tow vehicle backup, leaving two to three feet
worth of slack in the strap. Then the tow vehicle, using
light throttle, should accelerate tightening the strap
providing the pulling force needed to free the vehicle.
The vehicle being recovered should assist in the recov-
ery, at the time of the snap, by slowly spinning the tires
in the same direction as the pulling vehicle. After thevehicle becomes free, the driver of the previously stuck
vehicle should signal they are free and should hit their
brakes stopping both vehicles. The driver of the pull-
ing vehicle should let off the throttle without using the
brakes, once signaled by the other driver. This se-
quence is important to avoid having the recovered
vehicle hit the pulling vehicle.
WARNING!
Never use tow straps with end hooks or link two
straps with a clevis pin. These heavy metal objects
could become projectiles if a strap breaks, which
could cause severe injury. Never leave more than two
or three feet of slack in the strap. More slack than this
greatly increases the risk of injury and vehicle dam-
age. Always keep everyone at least 30 feet away from
a strapping or winching situation.5
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WARNING!(Continued)
ground since the vehicle may drive through the rear
wheel remaining on the ground. You could lose control
of the vehicle.
Care should be taken to avoid sudden accelerations when
both rear wheels are on a slippery surface. This could cause
both rear wheels to spin, and allow the vehicle to slide
sideways on the crowned surface of a road or in a turn.
DRIVING ON SLIPPERY SURFACES
Acceleration
Rapid acceleration on snow covered, wet, or other slip-
pery surfaces may cause the driving wheels to pull
erratically to the right or left. This phenomenon occurs
when there is a difference in the surface traction under
the rear (driving) wheels.
WARNING!
Rapid acceleration on slippery surfaces is dangerous.
Unequal traction can cause sudden pulling of the rear
wheels. You could lose control of the vehicle and
possibly have a collision. Accelerate slowly and
carefully whenever there is likely to be poor traction
(ice, snow, wet mud, loose sand, etc.).
Traction
When driving on wet or slushy roads, it is possible for a
wedge of water to build up between the tire and road
surface. This is known as hydroplaning and may cause
partial or complete loss of vehicle control and stopping
ability. To reduce this possibility, the following precau-
tions should be observed:
1. Slow down during rainstorms or when the roads are slushy.
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2. Slow down if the road has standing water or puddles.
3. Replace tires when tread wear indicators first becomevisible.
4. Keep tires properly inflated.
5. Maintain sufficient distance between your vehicle and the vehicle in front of you to avoid a collision in a
sudden stop.
DRIVING THROUGH WATER
Driving through water more than a few inches/
centimeters deep will require extra caution to ensure
safety and prevent damage to your vehicle.
Flowing/Rising Water
WARNING!
Do not drive on or across a road or path where water
is flowing and/or rising (as in storm run-off). Flow-
ing water can wear away the road or path’s surface
and cause your vehicle to sink into deeper water.
Furthermore, flowing and/or rising water can carry
your vehicle away swiftly. Failure to follow this
warning may result in injuries that are serious or
fatal to you, your passengers, and others around you.
Shallow Standing Water
Although your vehicle is capable of driving through
shallow standing water, consider the following Cautions
and Warnings before doing so.
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WARNING!
•Driving through standing water limits your vehi-
cle’s traction capabilities. Do not exceed 5 mph
(8 km/h) when driving through standing water.
• Driving through standing water limits your vehi-
cle’s braking capabilities, which increases stopping
distances. Therefore, after driving through stand-
ing water, drive slowly and lightly press on the
brake pedal several times to dry the brakes.
• Failure to follow these warnings may result in
injuries that are serious or fatal to you, your pas-
sengers, and others around you.
CAUTION!
• Always check the depth of the standing water
before driving through it. Never drive through
standing water that is deeper than the bottom of
the tire rims mounted on the vehicle.
• Determine the condition of the road or the path
that is under water and if there are any obstacles in
the way before driving through the standing water.
• Do not exceed 5 mph (8 km/h) when driving
through standing water. This will minimize wave
effects.
(Continued)
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1.Motor: The winch motor is powered by the vehicle
charging system and features a thermal protection
switch that automatically stops motor function in the
power-in direction if the motor gets too hot.
2. Remote Socket: The remote socket allows the remote
control to be attached to the control pack to allow the
winch to function.
3. Winch Drum With Integral Brake: The winch drum
allows the wire rope to be stored on the winch and
transmits force to the wire rope. The winch is
equipped with an integral brake that will stop rotation
of the winch drum if the winch motor is stopped.
4. 3-Stage Planetary Gear Set:Provides balance between
speed and pulling power.
5. Wire Rope: The wire rope allows the winch to be
connected to an anchor to provide a pulling force. 6.
Clutch Lever: The clutch lever allows the winch drum
to be disconnected from the winch motor to allow the
wire rope to be pulled from the winch by hand.
7. Remote Control: The remote control provides the
interface between the winch operator and the winch.
The remote control provides the ability to power the
winch in, out, and stop the winch. To operate the
winch, the toggle switch is pressed down to power the
winch in and up to power the winch out. The winch
will stop if the switch is left in the neutral (center)
position.
CAUTION!
If not installed, the hook strap must be placed on the
hook.
Fairlead: The fairlead acts as a guide for the wire rope
and minimizes damage to the rope.
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NOTE:•Avoid overheating the winch motor. For extended
winching, stop at reasonable intervals to allow the
winch motor to cool down.
• What to look for under load: The wire rope must
always spool onto the drum as indicated by the
drum rotation decal on the winch. As you power-in,
make sure the wire rope winds evenly and tightly on
the drum. This prevents the outer wire wraps from
drawing into the inner wraps, binding and damag-
ing the wire rope. Avoid shock loads by using the
control switch intermittently to take up wire rope
slack. Shock loads can momentarily far exceed the
winch and wire rope ratings. During side pulls the
wire rope tends to stack up at one end of the drum.
This stack can become large enough to cause serious
damage to the winch. So, line up pulls as straight
ahead as possible and stop winching if the wire rope
comes close to the tie rods or mounting plate. To fix an uneven stack, spool out that section of the rope
and reposition it to the opposite end of the drum,
which will free up space for continued winching.
15. Secure vehicle. Once recovery of the vehicle is com- plete, be sure to secure the vehicle’s brakes and shift
the transmission to PARK. Release tension in the wire
rope.
16. Disconnect the wire rope, and disconnect from the anchor.
17. Rewind the wire rope. The person handling the wire rope should walk the rope in and not let it slide
through the hand, control the winch at all times.
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WARNING!
To prevent serious injury, NEVER put your fingers
inside the hook area as you are powering-in.NOTE: How to spool under no load:
Arrange the re-
mote control lead so it cannot be caught in the winch.
Arrange the wire rope so it will not kink or tangle when
spooled. Be sure any wire rope already on the spooling
drum is wound tightly and evenly layered. Tighten and
straighten the layer if necessary. Keep the wire rope
under light tension and spool the wire rope back and
onto the winch drum in even layers. Stop frequently to
tighten and straighten the layers as necessary. Repeat this
process until the winch hook is the same distance as the
full length of the remote control from the winch. Pinch
the hook between your thumb and forefinger and attach
the hook strap. Hold the hook strap between the thumb
and forefinger to keep tension on the wire rope. Walk the
wire rope towards the fairlead, carefully spooling in the
remaining wire rope. By pulsing the remote control
switch.
18. Store the hook on the most outboard loop of the tow hook.
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BRAKE SYSTEM
If power assist is lost for any reason (for example,
repeated brake applications with the engine off), the
brakes will still function. However, you will experience a
substantial increase in braking effort to stop the vehicle.
If either the front or rear hydraulic system loses normal
braking capability, the remaining system will still func-
tion with some loss of overall braking effectiveness. This
will be evident by increased pedal travel during applica-
tion, greater pedal force required to slow or stop, and
activation of the “Brake Warning Light” and the “ABS
Warning Light” (if equipped) during brake use.
Four-Wheel Anti-Lock Brake System
WARNING!
The Four-Wheel Anti-Lock Brake System contains
sophisticated electronic equipment. It may be sus-
ceptible to interference caused by improperly in-
stalled or high output radio transmitting equipment.
This interference can cause possible loss of anti-lock
braking capability. Installation of such equipment
should be performed by qualified professionals.
The Four-Wheel Anti-Lock Brake System (ABS) is de-
signed to aid the driver in maintaining vehicle control
under adverse braking conditions. The system operates
with a separate computer to modulate hydraulic pressure
to prevent wheel lockup and help avoid skidding on
slippery surfaces.
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