RU1768820C - All-metal radial vibration isolator - Google Patents

Abstract

Use1 for protecting electronic equipment placed on moving objects from vibrations and shocks SUMMARY OF THE INVENTION The device comprises two rigid beam holders, a damping element in the form of a closed cable fixed alternately on the beams of each of the holders, and coaxially mounted conical springs. 2 ill.

Description

The invention relates to the protection of technical equipment from external mechanical influences and can be used to protect electronic equipment placed on moving objects from vibration and shock.

An all-metal vibration isolator is known, comprising a cylindrical body, an elastic element made in the form of a six-beam flat stacked spring fixed in two three-beam holders, and a damping element made in the form of two structural hemispheres freely supported on both sides by a flat six-beam stacked spring.

The disadvantages of an all-metal vibration isolator are the presence of flat springs operating in bending, which leads to their rapid destruction, and the implementation of a damping element from structural hemispheres, increasing the stiffness of the shock absorber and increasing the frequency of its own vibrations, which negatively affects the vibration-isolating properties of the all-metal in-isolator.

Closest to the technical nature of this invention is a combined all-metal shock absorber containing an elastic element made in the form of two packages of three-beam flat springs of different lengths, directed by the concave part and counter-mounted on threaded bushings, a damping element made in the form of a cable, fixed in loops x the longest flat spring, and emergency cable limiter.

The disadvantages of this device are the bending deformations of flat elastic elements, which reduces the load capacity of the shock absorber and requires the creation of a number of shock absorbers designed for different masses of protected objects, and the absence of restrictions on the movement of sets of beam springs towards each other, which can lead to their destruction.

The aim of the invention is to increase the efficiency of vibration isolation.

This goal is achieved by the fact that in an all-metal beam vibration isolator containing two beam holders located opposite and coaxial, and

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the damping element in the form of a closed cable fixed alternately on the beams of each of the holders, the beam holders are tightened and it is equipped with coaxially mounted conical springs located between the beam holders.

In FIG. 1 shows an all-metal beam vibration isolator, top view; in FIG. 2 is a front view, a cross section.

The all-metal beam vibration isolator consists of an upper 1 and a lower 2 three-beam holders, with rays inclined towards each other, so that the rays of one pass into the gap between the rays of the other. Two conical coil springs 3, 4 are installed inside the upper 1 and lower 2 holders so that one of them (inner - 4) is, as it were, a continuation of the other, but directed inward larger conical spring 3. The holders 1, 2 have bolts 5, 6 and nuts 7.8, by means of which the vibration isolator is attached to the object of protection and the base. Springs 3 and 4 are mounted on spacers 9 and 10. When assembling, the edges of the beams having bushings are aligned so that the holes of the bushings 11 are in the same plane and a multicore steel cable 12 is passed through them.

An all-metal beam vibration isolator operates as follows.

During vibro-impacts x in the vertical direction, deformation occurs2

matzi of conical springs 3, 4 (tension - compression). Due to the fact that the cable is alternately passed in the beams of the upper and lower holders and the upper beams pass between the lower ones, a constant change in the tension of the cable occurs. The ropes, absorbing a part of the load, at the same time effectively damp the resonant vibrations in the conical springs due to the constant friction between the bushings 11 and the rope 12 and between the individual wires forming the rope. A significant distance between the beams allows damping of large amplitudes, as well as single impacts.

When exposed horizontally, the main load is perceived by the cable 12, which in this case is both an elastic and a damping element. Additionally, conical springs 3, 4, which in this case work on bending, also perceive the load.

Claims (1)

SUMMARY OF THE INVENTION An all-metal beam vibration isolator comprising two beam holders arranged coaxially and counterclockwise and a damping element in the form of a closed cable fixed alternately on the beams of each of the holders, characterized in that, in order to increase the efficiency of vibration isolation, the beam holders are tightened and the vibration isolator is equipped with coaxially mounted conical springs located between the beam holders. P Figs 4-A / 70 /// fae-1