SU1154500A1 - Vibration isolator - Google Patents

Abstract

A VIBRATING NUCLEAR containing elastic elements, a supporting element with a hole installed between them, damping the sleeve installed in the hole of the supporting element, and a fastening element passing through the holes of the elastic elements and sleeves and having a diameter smaller than the diameter of these holes, which In order to improve the impact protection, it is equipped with an additional sleeve with flanges installed with a radial tension in the hole of the support element and axial tension between the elastic elements, the distance between which is greater than the height of the support element, and the gaskets of the elastic-elastic material installed between the sleeve flanges and the surfaces of the support element facing the flanges.

Description

 one

The invention relates to the field of engineering, in particular, to devices for protecting objects from the effects of shock loads.

A device is known that comprises a housing, an elastic element, made in the form of a rubber mass with sleeves molded into it, and a clapping membrane fixed along the contour and connected to other elements of the shock absorber by a pin 1

Under the action of the load, the elastic element is deformed, simultaneously the deflection of the slamming membrane occurs, as a result, the energy content of the shock absorber increases, but remains insufficient due to the small amount of movement of the elastic element. Therefore, the shock absorber is not very effective in protecting against impacts of large amplitude and duration, f

The closest to the invention according to

The technical entity is a vibration isolator containing elastic elements, a support element with an opening between them, a damping sleeve installed in the hole of the support element, and a fastening element passing through the holes of elastic elements and sleeves and having a diameter less than the diameter of these holes C 2.

The disadvantage of the known vibration isolator is the low protection efficiency under the action of shock loads due to fry movements, which is determined by the deformation of compression of the elastic elements, and insufficient energy dissipation mainly due to internal friction in the material.

The aim of the invention is to increase the effectiveness of protection against shock loads.

This goal is achieved by the fact that a vibration isolator containing elastic elements, a support element with a hole mounted between them, a damping sleeve installed in the hole of the support element, and a fastening element} 1t passing through the holes of the elastic elements and bushings and having a diameter smaller than the diameter of these holes, provided with an additional sleeve installed with a radial tension in the hole of the support element and axial tension between the elastic elements

, the distance between which is greater than the height of the support element, and gaskets made of elastoplastic material, mounted between 5 flanges of the sleeve and surfaces of the support element facing the flanges.

FIG. 1 shows a diagram of the vibration isolator; in fig. 2 - characteristics of work in coordinates, displacement B - effort R.

Vibration insulator contains elastic elements 1 and 2, a supporting element 3 mounted between them, in the opening of which a damping sleeve 4 is installed and a fastening element 5j having a diameter smaller than the diameter of these holes passing through the holes of the elastic elements 1 and 2 and the sleeve 4 and mounting a vibration isolator to the base 6. Between the supporting element 3, the damping sleeve 4 and the elastic elements 1 and 2, an additional sleeve 25 is installed with flanges 8 and 9, the distance H between which is greater than the height ho of the supporting element 3 and as a result they form a gap on each side of the support element

 d. With the faces of the support element 3 facing the flanges 8 and 9, gaskets 10 are connected, made of an elasto-plastic material, for example, fluoroplastic. Besides,

35 layer 11 of plastic material

for example, copper, electroplated on the outer cylindrical surface of sleeve 7.

40 Vibroizolor works as follows

in a way.

Vibration load, not exceeding the tension tension PH PH, between

the supporting element 3 and the sleeve 7, 45 perceive the elastic elements 1

and 2 and sleeve 4.

When a shock load is applied to the base 6, for example in the direction of the scientific research institute arrow A, the elastic elements 1 and 2 are deformed first (section 0-D in Fig. 2). When the load reaches the value of the sleeve 7 begins to move in the hole of the support member 3 (section L-S in Fig. 2), select the gap (d h), after which the gasket 10 is deformed (section 5 - b in Fig. 2).

Thus, the insertion of the additional sleeve 7 installed with tension between the support element 3, the elastic elements 1 and 2, and the sleeve 4, with flanges 8 and 9, and the gaskets 10

allows you to increase the effectiveness of damping vertical shock, while maintaining the dimensions of the vibrool torus and its vibration-isolating properties.

-ff

FIG. 2

Claims (1)

VIBRATOR, containing elastic elements, a support element installed between them with a hole, a damping sleeve, a fastening element installed in the hole of the support elements passing through the holes of the elastic elements and the sleeve and having a diameter smaller than the diameter of these holes, characterized in that, in order to increase effectiveness of protection against shock loads, it is equipped with an additional sleeve installed with a radial interference in the hole of the support element and the axial interference between the elastic elements. with flanges, distances e between which are greater than the height of the support element, and gaskets of an elastoplastic material installed between the flanges of the sleeve and the surfaces of the support element facing the flanges. FPI