The equipment ratio of a cycloidal gearbox, also known as a cycloidal gearbox factory drive or cycloidal reducer, is established by the quantity of lobes or lobed cutouts on the cycloidal disc and the arrangement of the input and output factors. The gear ratio is calculated primarily based on the marriage involving the enter rotation and the ensuing output rotation.
In a usual cycloidal gearbox, the gear ratio can array from about 10:one to a hundred:1 or bigger, relying on the certain design and style and software prerequisites. The equipment ratio represents the velocity reduction or torque multiplication obtained by the gearbox. For case in point, a gear ratio of twenty:one indicates that the output velocity is one/20th of the enter velocity, even though the output torque is twenty times better than the input torque.
It is crucial to take note that the gear ratio of a cycloidal gearbox is not preset but can be modified by altering the design and style parameters, such as the range of lobes on the cycloidal disc or cycloidal gearbox factory the arrangement of the enter and output elements. This adjustability permits for overall flexibility in matching the gearbox’s functionality to the distinct software necessities, such as the wanted speed reduction and torque multiplication.