Gear Trains

      Last time we covered the basic terminology of spur gears.   Today we’ll see how they interact with one another to form a gear train, such as the one depicted below.

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Meshing Spur Gears Form A Gear Train

      A gear train is formed when the teeth of two or more gears mesh and work together for the purpose of powering a mechanical device.

      A gear train can consist of as little as two gears, but trains can be so large as to contain dozens of gears, depending on the complexity of the device they are powering.   But no matter how many gears are employed, there are certain key features that are shared by every gear train assembly.   First, one gear within the train must be attached to a shaft  rotated by a source of mechanical energy, such as an engine or electric motor.   This gear is called the driving gear.

      The second requirement of a gear train is that at least one gear other than the driving gear is mounted to the shaft of a rotating machine part.   This gear is called the driven gear.

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Locomotive Gear Train Consisting Of Two Gears

      The illustration above shows an exploded view of a locomotive gear train assembly  consisting of two gears.   The driving gear is mounted to the shaft of an electric traction motor.   The driven gear is mounted to the locomotive’s axle.

      When a motor is attached to the axle, the two gears mesh together.   The traction motor converts electrical energy into mechanical energy, which is supplied to the driving gear via the spinning motor’s shaft.   The teeth of the driving gear then transmit the motor’s mechanical energy to the teeth of the driven gear, which then turn the locomotive’s wheels.   It’s just one of countless operations that can be performed with gear train assemblies.

      Next time we’ll examine the geometry behind modern spur gear tooth design.


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