Abstract
Traction drive speed reducers offer certain advantages over geared speed reducers. In particular, they generally run quieter than geared units, and they provide an opportunity for higher efficiency by eliminating sliding motion between contacting elements.
In order to generate a sufficiently high output torque, some means must be provided to create a normal force between the rolling elements. This normal force, along with the friction coefficient, enables the device to transmit torque from one rolling member to the next. The speed reducer proposed here is designed so that the configuration of the rolling elements creates the needed normal force in response to the torque exerted back on the system by the downstream loading. Thus the device is self-actuating.
Since the normal force is only present when needed, the rolling elements of the device can readily be disengaged. This eliminates the need for a separate clutch in the drive system. This feature can be exploited to design a transmission with several distinct speed ratios which can be engaged and disengaged in response to changing speed requirements.