Piezas de repuesto

Transmissions

The power coming from the engine must be turned into useful power by controlling its speed, direction and force. Transmissions do this by various means: hydraulically engaged planetary clutches and hydrostatic/ hydraulic drive. Each of these methods provides different characteristics of ground speed, torque, clutches maneuverability, and implement force.

Because of the wide variety of work they do, Caterpillar products use several types of transmissions; each designed to convert engine power into the exact combination of speed and force required by individual machines.

Torque Converters

Torque Converters/Dividers

The power that is produced in the engine is multiplied in the torque converter and then transferred on to the transmission for use by the rest of the drive train components.
Some CAT machines use a torque divider instead of the traditional torque converter, which divides the transmitted torque between the front and rear axles, with the rear receiving the majority.

3 Basic Components:

Impeller (red)
Turbine (blue)
Stator (green)
Key Functions:

Connects engine and transmission
Transmits the power from the engine to the transmission
Multiplies power produced in engine

Drive Shaft

Drive Shaft is a means of connecting drive train components. It allows for misalignment in the drive. The output shaft connects to the transmission through a yoke and drive shaft or directly to the transmission input gear.

Caterpillar’s exact design for proper measurements and precise machining ensures proper gear alignment. Special heat treatment achieves proper surface hardness, core hardness, and hardened depth.

 

Differential

The differential will decrease the speed and increase the torque as needed for each wheel’s motion adjustment.  When the machine is turning the differential will supply the needed adjustments to the wheels allowing the outside wheel to move at a faster pace than the inside wheel.

The key functions of a differential are:

Transferring power coming from the transmission to the left and right axle shafts
Balancing the power accordingly to the demand of each wheel
Gears in differential further reduce the speed and increases the torque to drive the rear wheels
The components of the differential are:

Differential case assembly
Pinion gears
Side gears
Spider

Final Drive

The final drives are an important part of the drive train. They're the components that apply driving force to the wheels or tracks.

The final drives of a track-type tractor differ somewhat, but they perform the same function. They reduce rotating speed and increase torque. In fact, this is where the greatest torque rise occurs...in the gears. That allows these components ahead of the final drives to be smaller, which saves weight and space.

There are four types of final drives used in Caterpillar machines:

Bull Gear Single Reduction
Bull Gear Double Reduction
Planetary Single Reduction
Planetary Double Reduction

Brakes

Brakes are the components that slow, stop or hold a machine stationary. On Caterpillar machines they are located at the wheels of wheel-type machines such as this off-highway mining truck. In track-type machines, they are located on the axle shafts. 
Brakes usually work by pressing a non-rotating surface, such as a brake shoe, against a rotating surface, in this case, a brake drum. The resulting friction stops the machine. At this point where the two meet, the inertial force of the machine is sometimes converted into bake-oven heat.

The braking requirements of various types of machines differ, chiefly because of differences in the work they do. To assure each type of machine has the braking system that best suits its needs, Caterpillar uses four types -- Expanding shoe, Caliper Disc, Wet Disc and Expander Tube.