RU150057U1 - ELASTIC DAMPER ON TRALID SPRINGS OF THE TOROIDAL PROFILE - Google Patents

Abstract

An elastic damper containing disk springs of a toroidal shape, interfaced with the same bearing surfaces, characterized in that the elastic elements are made with a variable cross-section and the bases are supported by cut grooves of the bushings, and the movable sleeve slides along the inner surface of the stationary supporting sleeve, providing a smooth axisymmetric change stiffness and skew elimination.

Description

The utility model relates to mechanical engineering, namely to the design of Belleville springs and can be used in depreciation systems of products. Known dampers, consisting of a set of plate-shaped elastic elements with holes in the center through which the centering rod passes (GOST 3057-90, Belleville springs). However, such dampers have greater rigidity at the beginning of compression, as a result of which there are dynamic loads on the shock-absorbing parts of the mechanisms.

The closest to the proposed technical essence and the achieved result is an elastic damper, consisting of elastic elements mated with the same supporting surfaces, on the parts of which are facing each other protrusions and depressions, where, in order to simplify the design on the other parts of the supporting surfaces facing each other also have hollows and protrusions interacting with each other (RU. Copyright certificate for the invention No. 916806, MKI F16F 1/32, publ. 30.03.82, Bulletin No. 12). The disadvantage of this design is the dynamic instability. Under the influence of an asymmetric load, a lateral component occurs, which will lead to uneven deformation of the spring elements, skew and a decrease in axisymmetric stiffness.

The purpose of the utility model is to increase the smoothness of the damper on disk springs under the influence of dynamic loads and to avoid distortion.

This goal is achieved by the fact that in the damper, elastic elements in the form of a toroidal profile of variable cross-section on one side contact each other with the same bearing surfaces, and on the other they rely on the cut out grooves of the bushings, and the movable sleeve slides along the inner surface of the stationary supporting sleeve, providing a smooth change in stiffness and the exclusion of skew.

In FIG. 1 shows an elastic damper (general view, longitudinal section), consisting of two symmetric blocks. In each of the blocks, the damper contains Belleville springs with a toroidal profile of variable cross section and 6, conjugated with each other by the same supporting surfaces and 5, which are included in the cut out grooves 2 and 7 of the supporting 1 and movable 8 bushings, respectively. The gap between the grooves 2 and 7 and the supporting surfaces of the elastic elements 3 and 6 is determined by the set value of the sliding fit.

The proposed elastic damper operates as follows. When exposed to dynamic loads, the elastic elements 3 and 6 are deformed, their supporting surfaces 4 and 5 are shifted in the radial direction from the axis of the assembly, accompanied by a mutual axial displacement of the bushings 1 and 8.

In the elastic damper there is no radial displacement of the elastic elements 3 and 6 relative to one another, and the support sleeves provide a strictly axial load on the elastic elements. The toroidal profile of the Belleville springs of variable cross-section provides both smoothness and sufficient stiffness of the damper in a wide range of dynamic loads.

Claims (1)

An elastic damper containing disk springs of toroidal shape, interfaced with the same bearing surfaces, characterized in that the elastic elements are made with a variable cross-section and the bases are supported by cut grooves of the bushings, and the movable sleeve slides along the inner surface of the stationary supporting sleeve, providing a smooth axisymmetric change stiffness and skew elimination.

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