RU1772454C - Flexible bearing - Google Patents

Abstract

Usage: electrical engineering, depreciation of objects. SUMMARY OF THE INVENTION: a support comprises a base, a housing fixed to it. A rod is coaxially mounted in the housing, on which a set of Belleville springs, an elastic element and an element for securing an object are placed. Axial displacements are mounted on the stem with radial and axial clearance relative to the body and base of the sleeve. The spring resilient member spans a set of cup springs. 1 ill.

Description

The invention relates to electrical engineering, and more particularly to shock absorbers designed to absorb objects (products) mounted on the supporting parts of equipment subject to shock and vibration, as well as to reduce vibration acceleration from working objects (products) in their mountings.

A shock absorber is known, comprising a housing with an aperture, inside of which a rod with a piston and elastic elements in the form of radially spaced rods, one end of which is mounted on the rod and the other in the spacer sleeve, and a conical spring, one end of which rests on the rod, is coaxially mounted to the body. The case is mounted on the supporting part of the equipment, and the object on the rod. Positive in this technical solution is the shock absorption by vibration elements (spring rods and conical spring) of shock and vibration

direction (including rotational).

Depreciation is achieved by compressing and friction of the spring rods against the inner surface of the housing, as well as by compressing the conical spring. The disadvantages of this solution include the presence of a constant metal contact of the housing, rigidly attached to the supporting parts of the equipment, with the piston of the rod, which eliminates the reduction of vibration acceleration from a working object, mounted on the rod, on the shock absorber body and, therefore, on the supporting parts of the equipment in the places of attachment of the object

The closest to the proposed solution in technical essence is a vibration-absorbing and shockproof bearing, comprising a housing with a fastening base, inside of which there are coaxially mounted bushes with axial clearance between them and with protrusions (with one and two respectively). Both bushes are spring loaded with sets package launched

Joint venture

a series of screws installed sequentially and coaxially between the protrusion and the housing. The fastening element for the object is located in the cavity of one of the bushings filled with elastic material, between two of the protrusions. The housing is mounted on the supporting part of the equipment. Positive in this technical solution is the reduction of vibration accelerations from a working object fixed to the fastener, on the shock absorber body and, therefore, on the supporting parts of the equipment, as well as the shock absorption of the object or the shock and vibration effects of the supporting parts of the equipment. The vibration accelerations from the working object are reduced due to the elastic properties of the elastic material, and the object is absorbed from the shock and vibration effects of the supporting parts of the equipment after the elastic material is compressed due to the elastic properties of the Belleville springs. The disadvantages of this solution include the depreciation of the object from the shock and vibration effects of the supporting parts of the equipment only in axial direction, which limits the scope of this support.

An object of the invention is to increase the cushioning properties of a spring support.

This is achieved in that the spring support, comprising a base, a housing fixed thereon, a rod coaxially mounted therein, a set of Belleville springs placed on it, an elastic element and an element for securing an object, is provided with axial displacements mounted at the ends of the rod and with radial and axial clearances relative to the housing and base, respectively, by bushings, the elastic element is partially covering a set of Belleville springs, a spring, one end of which is fixed to the base, and the other to lemente for securing the object.

The drawing shows a spring support.

The spring support consists of a spring 1 (the spring can be either conical or cylindrical), one coil 2 of which is fixed to the fastening base 3 using a plate 4, at the other end of the spring (coil 5), a rod 6 is installed, on which with the possibility of movement, an element 7 for securing the object and a set of Belleville springs 8 between the support sleeves 9 are installed, by means of which the necessary axial compression is created. The support sleeves 9 are mounted with gaps in the axial 10 and radial 11 directions relative to the housing 12, which is rigidly connected to the fastening base 3.

Spring support works as follows.

In a calm state (without vibration and shock), the spring support is in its initial state (see Fig. 1). Protected object (not shown), mounted on the element 7 for mounting

0 of the object is fixed on the mounting base 3 through the spring 1. Vibration of any direction that occurs during normal operation of the object (for example, as a result of the collision of moving parts

5, when it is turned on and off) is perceived and amortized by the spring.

During shock or vibration impacts on the base 3 (see figure 1), for example, along arrow A, the pulse to element 7 is transmitted through spring 1, and if it is compressed and the gap 10 is selected through a set of Belleville springs 8, which deform Due to the compression force and relative displacement with frictional friction of individual caliper springs 8, they absorb and reduce the level of shock and vibrations acting on the protected object.

Under shock or vibration effects of other directions, as well as radial and rotational, the principle of operation (depreciation) of the spring support is the same.

After the termination of regular vibrations of the protected object, as well as the termination of shock or vibration effects

5, all elements return to their original state: equipment due to the elastic properties of their elements, conical and cup springs due to the elastic properties of the spring.

0 The parameters of a conical spring are determined based on the mass of the protected object, stiffness and natural frequency of the springs. Belleville spring sets are located on both sides of the mounting element for the object and provide the necessary axial and viscous (frictional) friction. In this case, the power characteristic of the shock absorber is expressed by the following relationship

0

F (di. 5) Cd-K- (5

where F ((5i, -damping stiffness characteristic:

C — attenuation coefficient; K — stiffness; d deflection;

C (5 depends on the damping force of a viscous (Kulan) friction proportional to the coefficient of friction to pressure

5

between surfaces and contact area.

In the case of using sets of Belleville springs of parallel-sequential assembly, the force during their deformation is

RK K-P3-p.

where K is a coefficient taking into account frictional friction during parallel assembly;

Rz - force during deformation of one Belleville spring 10

n is the number of springs of parallel assembly.

Technical and economic efficiency lies in the fact that the use of the proposed spring support provides protection of the equipment against vibration loads of working objects by installing serial products on them that do not meet these requirements, while the design of the spring support is simple and

It is made from widely used materials and technology.

Claims (1)

SUMMARY OF THE INVENTION A spring support comprising a base, a housing fixed thereto, a rod coaxially mounted on it, a set of Belleville springs placed on it, an elastic element and an element for securing an object, which are not so detrimental. that, in order to increase the shock-absorbing properties, it is provided with axial displacements mounted on the ends of the stem and with radial and axial clearances relative to the housing and the base, respectively, by the bushings, the elastic element is a spring partially covering a set of disk springs, one end of which is fixed to the base, and the other - "and on the element dp of fastening the object. S