SU1599602A1 - All-metal vibration insulator - Google Patents

Abstract

The invention relates to mechanical engineering and is intended to protect equipment from shock and vibration. The aim of the invention is to increase the efficiency of vibration insulation due to the possibility of damping oscillations arising from the various effects of any direction. Part of the spring petals attached to the holder 4 is shifted in one direction perpendicular to the spring plane, and the other part of the petals attached to the holder 5, in the other. Due to the deformation of the spring 3, damping occurs. With the deformations of the spring 3, the damping element in the form of hemispheres 6 and 7 also deforms, absorbing the oscillations of the spring 3. At actions exceeding the allowable, the holders 4 and 5 converge on the surfaces of the flat spring 3, thereby eliminating its breakage. When stretching, the stroke of the holder 4 is bounded by the surface of the housing 1. The vibration isolator also allows its load capacity and dynamic characteristics to be changed by changing the number of plates in the spring 3. 2 sludge.

Description

(21) 4477560 / 25-28. (22) 08/30/88 (46) 15.10.90. Bul 38 (72) I.Ya.Mansurov, EPAndreev-Andr Evsky, Yu.P.Nikonov, V.N.Vashchuk, V.M.Karanda and N.P.Kondratyev (53) 621.567 (088.8) ( 56) Ilyinsky BC The device is dependent on dynamic effects. M .: Energie, J970, p. 268, fig. 6-80. (54) ALL-METAL VIBRATION-ISOLATOR (57) The invention relates to mechanical engineering and is intended to protect equipment from shocks and vibrations. The purpose of the invention. This is an increase in the efficiency of vibration isolation due to the possibility of damping vibrations arising from the various actions of any direction. Part of the spring petals attached to the holder 4 is shifted in one direction perpendicular to the spring plane, and the other part of the petals attached to the holder 5, in the other. Due to the deformation of the spring 3, damping occurs. When the spring 3 is deformed, the damping element in the form of hemispheres 6 and 7 is also deformed, absorbing the oscillations of the spring 3. When exposed, the holders 4 and 5 converge on the surfaces of the flat spring 3, thereby eliminating its breakage. When stretching, the stroke of the holder 4 is bounded by the surface of the housing 1. Vibroizol -. the torus also allows you to change its capacity and dynamic characteristics by changing the number of plates in the spring 3. 2 Il.

The invention relates to mechanical engineering and is intended to protect equipment from shock and vibration.

The aim of the invention is to increase the efficiency of vibration insulation due to the possibility of damping oscillations arising from various loads in any direction.

FIG. 1 shows a vibration isolator, a common yid, a cross section; in fig. 2 - the same, top view.

The vibration isolator includes a housing 1 with a bottom 2. In case 1, there is a petal spring 3 in which the petals are alternately attached to the petals of the holders 4 and 5, each having a truncated cone shape in cross section. The damping element is made in the form of two hemispheres 6 and 7, made, for example, from a putanka, each of which is freely supported on one of the planes: Tei of the petal spring 3. Petals Springs 3 and petals of holders 4 and

5 connected by clamps 8. Hemisphere

6 and the holder A is fastened with the screw 9 and the gasket 10 to the brush 11, on which the protected object is fastened. The hemisphere 7 and the holder 5 are fastened to the bottom 2 by means of a screw 12 and a gasket 13.

Vibration isolator works as follows.

With the dynamic effect transmitted through the bottom 2 in the vertical direction, the spring 2 deforms in such a way that a part of its petals attached to the holder 4 is displaced in one direction perpendicular to the spring plane, and the other part of the petals attached to the holder 5, - to another. At the same time, small displacements of the ends of the lepeks of the spring are provided with clamps 8.

With the deformation of the spring 3, the damping element in the form of hemispheres 6 and

it is also deformed by absorbing the oscillations of the spring 3. When deviating from the vertical direction of action, the spring 3 is also deformed, and the hole in the housing 1 allows the rod 11 to move without touching the housing. The gaskets 10 and 13 allow the inclinations of the holders 4 and 5 relative to the housing 1 when exposed, the directions of which differ from the vertical ones. When exposed to more than 1 permissible, the holders converge on the surfaces of the flat spring 3, thereby eliminating its damage. When stretched, the stroke of the holder 4 is bounded by the surface of the housing. The carrying capacity of the vibration isolator and its dynamic characteristics are changed by changing the number of plates in the spring 3.

Claims (1)

Invention Formula An all-metal vibration isolator, comprising a housing inside which resilient and damping elements are located, a rod and shock-absorbing gaskets, characterized in that, in order to increase the vibration isolation efficiency, it is provided with two petal holders, each having a frustoconical shape in each cross section, an elastic element made in the form of a flat typesetting petal spring, in which the petals are alternately attached to the petals of the holders, the damping element is made in the form of two hemispheres, each of which is free However, it is supported on one of the planes of the petal spring, the rod is rigidly connected to one of the holders and the hemisphere, while the other hemisphere and the holder are rigidly connected to the bottom of the body, one shock absorbing gasket is located between the rod and the holder, and the other is connected to the outer surface of the bottom. FIG. 2