SU1516653A1 - Damping device - Google Patents

Abstract

The invention relates to mechanical engineering and instrument making, and can be used for vibration-proofing of electronic equipment and other objects. The aim of the invention is to increase the damping properties. The shock-absorbing device contains coaxially mounted resilient elastic hollow element 2 with slots 3, made in the form of a truncated cone, with a large base rigidly connected to the pressure piston 1, covered by the supporting cup 4, and the conical group 5, which frictionally interact, for example, using friction elements 8 with the inner surface of the hollow element 2, the taper is equal to the taper of the latter. Under the action of an external load, deformation of the conical spring 5 and the elastic hollow element 2 occurs, and the mutual friction of the elastic hollow element 2 against the supporting cup 4 and the friction elements 8 about the inner surface of the hollow element 2 occurs. This technical solution provides higher energy consumption and more effective damping. 2 Il.

Description

The invention relates to mechanical engineering, instrument making and can be used for vibration protection of radioelectronic equipment and other objects.

The purpose of the invention is to increase the damping properties of the damping device.

Fig. 1 shows a damping device, a longitudinal section; FIG. 2 is a section A-A in FIG. 1,

The damping device contains a pressure piston

coaxially mounted resiliently elastic hollow element 2 with slots 3, made in the form of a truncated cone, with a large base rigidly connected to the pressure piston 1, and interacting with the {vatyvayuschim the supporting glass 4, and a helical conical spring 5 with a taper, equal to the taper of the uttrugo: about the hollow element 2, installed between the pressure 1 and the bottom of the supporting cup 3 with a gap relative to the inner surface of the elastic hollow element 2 and frictionally inter acting with the latter for a given external load.

Support cup A can be made split with slots 6 at its side and covered by an elastic wall 7 to adjust the crimping of the support cup A and the elastic hollow element 2. The conical spring 5 can have a friction coating or special friction elements 8 evenly spaced on the coils of the spring - us 5 and which can be installed without a gap with elastic: - hollow element 2,

The damping device operates as follows

When externally exposed, the load of the taper spring 5 and the elastic hollow element 2 deform, C increases

By the amplitude of the external load when compressing the conical spring 5, the external diameter of the coils increases and the friction elements 8 move with sliding against the internal surface of the elastic hollow element 2. The friction elements 8 rub against the elastic hollow element 2 and the hollow element 2 against the supporting glass 4 increases the damping properties shock absorbing device.

A larger increase in the outer diameter of the coils have a conical spring 5 with a large diameter, which ensures a smooth sequential inclusion of coils in the work of friction.

When the load is removed, the pressure piston 1 returns to its initial position under the action of the elastic forces of the spring 5 and the conical elastic hollow element 2 with slots 3,

Damping device provides higher energy consumption and more effective damping,

Claims (1)

Invention Formula A shock-absorbing device containing a pressure piston, a coaxially mounted resilient hollow elastic element that interacts with a supporting cup that surrounds it, and a helical spring installed between the piston and the supporting cup with a gap relative to the inner surface of the elastic A hollow element for frictional interaction with it, characterized in that, in order to improve the damping properties, the hollow element is made in the form of a truncated cone, with a large base rigidly connected to the pressure piston, and the coil spring is made conical with a taper equal to the truncated cone. . ssss FIG. 2