SU1767253A1 - Free running mechanism - Google Patents

Abstract

Usage: in the drives of machines and mechanisms for the transmission of torque in a given direction. The essence of the invention: the free-wheeling mechanism consists of two cages and a separator 3 placed between them with eccentric rollers 4. The inner casing is made of separate segments 2, stitched with spring rings 6 and 7. The cage 1 is made with an additional working surface c. Segments 2 are connected with the separator in the circumferential direction and, when the moment is transmitted, interact frictionally with the additional working surface of the cage. 3 il.

Description

The invention relates to mechanical engineering and is intended for use in machine drives.

Known design of the Ministry of Agriculture in which the eccentric rollers are installed in the windows of the separator, located between two cylindrical clips of the freewheel [1]. , „.

The disadvantage of this design is the relatively low load capacity inherent in mechanisms of this type, caused by high contact stresses arising on the working surfaces of the rollers and cages during the jamming period.

The purpose of the invention is to increase the load capacity, reliability and durability.

This goal is achieved by the fact that one of the cages is made up of separate segments covered by ring springs, the other cage is made with an additional working surface located concentrically to the main one, the segments are connected with the separator in the circumferential direction and are located with the possibility of frictional interaction with the additional working surface.

The invention is illustrated by drawings. Figure 1 shows the main view of the Ministry of Agriculture; figure 2 - section aa in figure; in Fig.3 node I in Fig.1.

The free-wheeling mechanism consists of a cage 1, in an annular groove of which a split cage made of separate segments 2, a separator 3 with eccentric rollers 4 are placed. Moreover, the separator 3 with rollers 4 is strictly fixed with pins 5 relative to this cage, segments 2 are pulled together by spring rings 6, 7 and by means of a gear connection are connected to the shaft 8 of the mechanism. Bearings 9 and 10 installed in the housing 11 provide the necessary centering of the cage 1 with the shaft 8. The locking rings 12 and 13 lock the bearings 9 and 10 in the axial direction.

Freewheel mechanism works as follows.

In the free-wheeling mode, the rollers 4 are in constant contact with the segments 2 and the convex cylindrical surface a of the cage 1. The segments 2 are pulled together by the spring rings 6 and 7, and together they are a split cage of the Ministry of Agriculture. Between this clip and the concave cylindrical surface in the clips 1 there is a minimum guaranteed clearance. In the process of jamming, the eccentric rollers 4, turning, move the segments 2 in the radial direction and press them to the cylindrical surface in the cage 1. Thus, the mechanism comes into a jammed state.

When the MCX is wedged out, the eccentric rollers 4 rotate in the opposite direction and the segments 2 pulled together by the spring rings 6 and 7 come out of contact with the surface in the cage 1. Between the outer surface of the segments 2 and the surface B, the initial minimum guaranteed clearance is restored.

As a result of the use of a split cage formed by segments 2 and cage 1 having two working surfaces a, and when the MCA is jammed, an additional pair of contacting surfaces appears, contributing to an increase in load capacity due to the action of friction forces on two contact surfaces at each casing. This design of the Ministry of Agriculture helps to increase the load capacity, reliability and durability of the mechanism compared to the prototype while maintaining the same overall dimensions.

Claims (1)

Claim Freewheel mechanism comprising two concentric cages and eccentric rollers placed between them in a separator with clamping devices, characterized in that, in order to increase the load capacity, reliability and durability, one of the cages is made up of separate segments covered by ring springs, the other clip is made with an additional working surface located concentrically with the main one, the segments are connected with the separator in the circumferential direction and are arranged with the possibility of friction onnogo interaction with the further active surface cage, Fig.Z