A rotary flexure is designed to exhibit very high radial and axial stiffness and to exhibit virtually no movement in its center of rotation. The flexure, which is formed from a single billet of material, includes an outer ring from which three thin flexure blades extend. The flexure blades extend toward the centerpoint of the rotary flexure, where they join to form a centerpiece. Three lobes also join at the centerpiece, one between each pair of flexure blades. The lobes extend toward the outer ring, and are free to rotate about the pivot axis with respect to the outer ring and the flexure blades. During rotation, the pivot axis exhibits virtually no movement.

An optical switch for use in optical telecommunication applications is configured to tolerate vibration and shock loading, preserving optical alignment at a plurality of switching positions and during the switching operation, and to effectively perform precise and accurate switching operations in a variety of environmental conditions. Switching operations are performed when an actuator that responds to a switching stimulus acts upon a flexure pivot device that in turn accurately and reproducibly displaces an optical element that operates upon a light signal.

A flexible pivot with internal pivoting axis comprises two stages that are symmetrical with respect to a median plane perpendicular to the pivoting axis and separated by an external circular recess containing the median plane, each stage comprising an outer annular interface connected by a plurality of radial, flexible guiding arms to a common intermediate cylinder having an axis that is the same as the internal pivoting axis.

A pivot has identical first and second members partially engaged in each other and mobile in rotation relative to each other about a common axis, against the action of at least two return leaf springs each having first and second ends anchored in the first and second parts, respectively, by being wedged inside them.

The present invention provides for a flexural pivot that can be fitted within a cavity of an actuator. The pivot includes a first member that can be coupled to the wall defining the cavity and a second member that can be mounted to the disc drive housing component of the disc drive. At least two leaves join external surfaces of the first member to the second member. The present invention offers a flexural pivot that can be easily incorporated with rotary actuators traditionally designed for use with a ball bearing pivot cartridge. In addition, it avoids the difficulties encountered by conventional designs when trying to assemble intersecting flat springs within a cylindrical sleeve. Furthermore, in comparison with conventional flexural pivots that are located outside the actuator body, the present invention provides a compact pivot that can be mounted substantially in a cavity of the actuator body such that the center of rotation of the actuator is located nearer the center of mass.