SU1732072A1 - Vibration isolator - Google Patents

Abstract

Use: to protect components and blocks of electronic equipment from vibrations and shocks. SUMMARY OF THE INVENTION: The vibration insulator comprises a support shelf with an axial hole, a core located therein, cone-shaped hollow elastic elements mounted coaxially to the core, an elastic liner placed between the elastic elements, and friction plates and washers mounted on an elastic liner for engagement with friction rings, located on the elastic elements, and the support shelf. 1 il.

Description

The invention relates to mechanical engineering and can be used to protect components and blocks of electronic equipment from vibrations and shocks.

A vibration isolator is known comprising a support shelf with an axial bore, a core passing through the bore and elastic members located between the core and the shelf.

The disadvantages of this vibration isolator are reduced power consumption and damping ability.

Known vibration absorber containing a support shelf with an axial hole, placed in it a core with flanges, cone-shaped hollow elastic elements mounted coaxially to the core and interacting with the latter and the supporting shelf, elastic liner placed coaxially to the core between the cone-shaped elastic elements and interacting with the latter.

The disadvantages of the vibration isolator are the increased transmission coefficient in the resonance region due to insufficient damping and, consequently, degraded vibration. When operating both in axial and radial directions, i.e., when the base shelf moves relative to the core, the shelf deforms the elastic elements with virtually no relative movements of the contacting surfaces. Small movements of the shelf relative to elastic elements cause little work of the friction forces between them and, consequently, a small dissipation of the oscillation energy, i.e., a small damping.

The aim of the invention is to improve vibration isolation.

The essence of the invention lies in the fact that the vibration insulator containing a support shelf with an axial bore, a core with flanges placed in it, conical hollow elastic elements mounted ko &

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axially with the core and interacting with the latter and the supporting shelf; with a core with a radial gap, and friction rings mounted on the inner surface of cone-shaped elastic elements for interaction with friction washers.

The invention provides a reduction in the transmission coefficient in the region of resonance and an increase in resistance to torsional oscillations by ensuring the operation of the friction force of the friction pairs of the supporting shelf — friction plates and friction washers — friction rings.

The drawing shows vibration isolator, axial section.

Vibroizolor contains a support shelf 1 with an axial hole, core 2 placed in it with flanges 3, cone-shaped hollow elements 4 mounted coaxially to core 2 and interacting with the last and support shelf 1, elastic liner 5 placed coaxially to core 2 between cone-shaped elastic elements 4 and interacting with the latter. On the side surface of the elastic liner 5 for engagement with the support shelf 1 are placed the friction plates b, and on the ends of the elastic liner 5 coaxially with the core 2 with the radial clearance 8 are placed the friction washers 7. On the inner surface of the cone-shaped elastic elements 4 for interaction with the friction washers 7 are installed friction rings 9.

Vibration isolator works as follows.

When the shelf 1 is moved relative to the core 2 in the axial direction, the shelf 1 moves with friction relative to

friction plates 6. In this case, the oscillation energy is dissipated by operating the friction pair of shelf 1 - plate 6. When the shelf 1 moves relative to the core 2 in the radial direction, the liner 5 moves with friction within the gap 8 to the friction washers 7 relative to the friction rings 9. In this case, the oscillation energy dissipation occurs due to the operation of the friction pair of the washer 7 - ring 9. The dispersion of the oscillation energy during operation of the device in any direction ensures a reduction in the transmission coefficient in the region and

resonance. When torsional oscillations of the core 2 relative to the shelf 1 occur, the moment of resistance to rotation is significantly increased due to the occurrence of the moment of frictional forces, which ensures

the work of these friction pairs. This achieves an increase in resistance to torsional vibrations.

A decrease in the transmission coefficient of the vibration isolator, as well as an increase in resistance to torsional vibrations, provide an improvement in the vibration-insulating properties. Fo rmu l and z obre and Vibroizoltor, containing a support shelf with an axial bore, located in

a core with flanges, cone-shaped hollow elastic elements mounted coaxially to the core and interacting with the latter and a support shelf, an elastic liner placed coaxially between the cone-shaped elastic elements and interacting with the latter, in order to improve vibration isolation, It is equipped with friction plates placed on the side surface of the elastic liner for interaction with the support shelf, friction washers placed on the ends of the elastic liner coaxially o with core

with radial clearance, and friction rings mounted on the inner surface of cone-shaped elastic elements for engagement with friction washers.

Claims (1)

SUMMARY OF THE INVENTION A vibration isolator comprising a support flange with an axial hole, a core with flanges placed therein, conical hollow elastic elements installed coaxially with the core and interacting with the last and supporting flange, an elastic insert placed coaxially with the core between the conical elastic elements and interacting with the latter, o This is due to the fact that, in order to improve vibration isolation, it is equipped with friction plates placed on the side surface of the elastic liner for mutual action with the face, friction washers arranged at the ends of the elastic liner coaxially with the core with a radial clearance and friction rings mounted on the inner surface of the cone-shaped elastic members for interaction with friction washers.