Abstract
A cyclic phasing clutch is described. An inertia load is driven such that one or more integral revolution of the load can be lost, while the input shaft continues to rotate at a constant speed. No input-output phase change is experienced with revolution loss. The machine has inherent dynamic balance to sustain appreciable inertia loading at high speeds. A relatively unknown mechanism is optimized for use as an acceleration-deceleration generator having a hesitation output. A relay transmission is suggested to shift the load from a constant to a variable speed drive at synchronous positions of zero acceleration.
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