The equipment ratio of a cycloidal gearbox, also identified as a cycloidal push or cycloidal reducer, is determined by the range of lobes or lobed cutouts on the cycloidal disc and the arrangement of the enter and output elements. The gear ratio is calculated based mostly on the romantic relationship concerning the input rotation and the ensuing output rotation.

In a normal cycloidal gearbox, the equipment ratio can assortment from about 10:one to a hundred:one or higher, depending on the particular layout and software needs. The equipment ratio represents the pace reduction or torque multiplication obtained by the gearbox. For example, a gear ratio of 20:one signifies that the output pace is 1/20th of the enter velocity, while the output torque is 20 instances higher than the enter torque.

It is crucial to take note that the equipment ratio of a cycloidal gearbox is not fastened but can be adjusted by transforming the style parameters, these kinds of as the quantity of lobes on the China cycloidal gearbox supplier disc or the arrangement of the input and output factors. This adjustability allows for adaptability in matching the gearbox’s efficiency to the distinct application prerequisites, these kinds of as the sought after velocity reduction and torque multiplication.