Bearing with Antiskid Design

摘要

A bearing with antiskid design used in combination with a circular spline to form a harmonic drive, and the circular spline is provided with an inner toothed portion, the bearing includes: an elliptical gear plug, a flexible ball bearing, and a flexible spline. Between the flexible ball bearing and the flexible spline are disposed a first and second antiskid members, and the arrangement of the first and second antiskid members prevents the axial slippage between the flexible ball bearing and the flexible spline, thus improving stability and transmission accuracy of the harmonic drive.

主权项

1. A bearing with antiskid design used in combination with a circular spline to form a harmonic drive, and the circular spline being provided with an inner toothed portion, the bearing comprising: an elliptical gear plug coupled to and rotated by a driving shaft; a flexible ball bearing fitting over the elliptical gear plug and including an outer ring and a plurality of balls between the elliptical gear plug and the outer ring, the outer ring being provided with a first antiskid member; and a flexible spline including an annular body with an inner peripheral surface and an outer peripheral surface, the outer peripheral surface being provided with an outer toothed portion for meshing with the inner toothed portion of the circular spline, and the outer toothed portion of the flexible spline having less teeth than the inner toothed portion of the circular spline; the bearing being characterized in that:
a second antiskid member is disposed on the inner peripheral surface of the flexible spline and formed to fit a shape of the first antiskid member, the flexible spline is sleeved onto the outer ring of the flexible ball bearing, and the second antiskid member is engaged in the first antiskid member; a flexible spline is sleeved onto the outer ring and has a uniform thickness, and the flexible spline and the radial length H of the concave structure satisfy the relation: H=the thickness of the flexible spline×0.5 m, wherein m represents a modulus of the flexible spline; and the flexible spline and the radial length H of the convex structure satisfy the relation: H=the thickness of the flexible spline×0.5 m-0.15, wherein m represents a modulus of the flexible spline.