There is provided a method of manufacturing washers with improved material yield. The method includes: a preparing step of preparing a material having a panel shape; a first cutting-out step of cutting out a first thrust washer having a substantially arc shape from the material; and a second cutting-out step of cutting out a second thrust washer from a portion of the material in contact with a portion from which the first thrust washer is cut out.

A coupling mechanism is provided for coupling a supporting element to a frame, and includes a base member and a C-shaped retainer. The frame includes a frame body and a leg member that has a leg body extending downwardly from the frame body to terminate at an enlarged leg end. The base member defines therein a recess for the enlarged leg end therein. The supporting element is coupled to a lower major surface of the base wall. The C-shaped retainer extends to be disposed about the leg body, and is configured to be detachably coupled to a surrounding wall of the base member for retaining the enlarged leg end in the recess.

A securing element for axially securing a shaft or a component on a shaft includes at least two sector elements that can be joined to each other to form an essentially closed ring form with a central through opening for the shaft. The sector elements have latching structures or snap-fit structures, by which they can be connected to each other. The latching structures include a groove-like indentation with a first snap-fit hook formed in a first one of the sector elements and a spring arm with a second snap-fit hook arranged on a second one of the sector elements and engaging in the indentation in the first sector element.

A floating connection fastening system employs a semi-flexible floating bushing having a sleeve with an axial slot which captures a fastener having a head, an unthreaded shank portion, a threaded portion and an intermediate reamer. An offset cap mounts to the bushing/fastener assembly and receives a driver bit. The offset cap defines an offset clearance. The floating connection is installed by driving the fastener through a non-load bearing member so as to form a bore and threadably engage a load bearing member. The floating bushing has a flange which engages the surface of the non-load bearing member, and the sleeve is entirely received in the formed bore. The offset attachment functions to provide a clearance so that upon termination of driving the fastener, the head of the fastener sits proud relative to the non-load bearing member. The installation is accomplished in essentially a one-step procedure.

Shims with slots sized and configured to receive fasteners having different dimensions, and methods of using the shims. Such a shim includes a base region and leg portions that extend from the base region, are spaced apart from each other, are laterally separated by a longitudinal axis of the shim, and define a slot therebetween. The slot is defined by longitudinally extending side edges, inner tapered edges that are contiguous with the side edges, and an arcuate inner edge that connects and is contiguous with each of the inner tapered edges. The side edges, inner tapered edges, the arcuate inner edge define a continuous edge that surrounds and defines the slot and is defined by the base region and the leg portions. The slot has a decreasing width between the inner tapered edges in a direction along the longitudinal axis toward the arcuate inner edge.

A washer that includes: an inner peripheral face formed in an arc shape; an outer peripheral face formed in an arc shape concentric with the inner peripheral face on a radially outer side of the inner peripheral face; and outer peripheral cut-out portions (such as a left outer peripheral cut-out portion and a right outer peripheral cut-out portion) formed at positions of the outer peripheral face corresponding to end portions (a first end portion and a second end portion) of the inner peripheral face to have the same shapes as outside shapes of the corresponding end portions of the inner peripheral face.

The invention relates to a securing element (1; 1a) for a bearing device (50) in a housing (20) of a drive device (10), wherein the plate-like securing element (1; 1a) has two side legs (34, 35) and a base leg (36) which connects the side legs (34, 35), wherein, between the base leg (36) and the side legs (34, 35), there is formed a cutout (38) for receiving a shaft (12) which is mounted rotatably in a bearing (15), wherein the two side legs (34, 35) are designed to interact, by means of a first face side (21), with the bearing (15) and, by means of a second face side (23), with a stop surface (33) in the housing (20).

A shim for a work vehicle axle assembly includes a body having a substantially constant extent along a vertical axis and a first recess extending entirely though the body along the vertical axis. The first recess is configured to receive a shaft of a first fastener extending between a kingpin cap of the work vehicle axle assembly and a spindle, the first recess has a fastener-receiving portion and an inlet portion extending from the fastener-receiving portion of the first recess, a diameter of the fastener-receiving portion of the first recess is configured to be substantially equal to a diameter of the shaft of the first fastener, and a width of the inlet portion of the first recess is configured to be less than the diameter of the shaft of the first fastener.

A side tensioning assembly for retaining screen media to the side plates of a vibrating-type screening machine includes a support structure for supporting the screen media and a tensioning rail mountable to at least one side plate. At least one bolt assembly is provided for fastening the tensioning rail to at least one of the side plates. Each bolt assembly including a bolt connectable to the tensioning rail, at least one of side plates and at least one bolt engaging structure on a surface of the side plate. Each bolt engaging structure includes a cutout. The cutout is sized larger than the bolt but smaller than a nut. The movable plate has a bolt-securing position and a bolt-releasing position.

A shim for a work vehicle axle assembly includes a body having a substantially constant extent along a vertical axis and a first recess extending entirely though the body along the vertical axis. The first recess is configured to receive a shaft of a first fastener extending between a kingpin cap of the work vehicle axle assembly and a spindle, the first recess has a fastener-receiving portion and an inlet portion extending from the fastener-receiving portion of the first recess, a diameter of the fastener-receiving portion of the first recess is configured to be substantially equal to a diameter of the shaft of the first fastener, and a width of the inlet portion of the first recess is configured to be less than the diameter of the shaft of the first fastener.