SU1456654A1 - Device for damping vibrations - Google Patents

Abstract

The invention relates to: mechanical engineering, namely, means for damping vibrations. The aim of the invention is to increase the efficiency of damping low-frequency vibrations by increasing the dissipation of energy when vibrating the bulk medium. When operating at low-frequency oscillations of the structure, the elastic shell 7 deforms, which causes air to flow from the cavity of the elastic shell 7 through the flowing medium 6 into the atmosphere and back. 1 il.

Description

The invention relates to mechanical engineering, and in particular to means for damping vibrations.

The purpose of the invention is to increase the efficiency of damping low-frequency vibrations by increasing energy dissipation during vibration mixing of a granular medium.

The drawing shows a device; d for damping vibrations, a longitudinal section.

The device contains an elastic lever 1, attached at one end to a vibration-insulated structure 2, and at its other 15 end, a vibration absorber is fixed, made in the form of a glass with a cover 3, a bottom 4 and walls 5, partially filled with a granular medium 6. Between the elastic lever 20 1 and the bottom of the cup 4 is rigidly fixed, the elastic shell 7. In the walls of the 5 cups and the bottom 4 are made connecting its cavity, respectively, with the atmosphere and the cavity of the elastic shell 7 of aperture 8 and 9, the diameters of which are smaller than the particles of the granular medium 6.

The ratio of the total area of the holes 9 to the total area of the holes 8 is selected from the inequality 30 _{0> 9 <} hole

A device for damping vibrations is as follows.

When working on low-frequency vibrations of the structure, the vibration is transmitted to the elastic lever 1, and through it to the vibration absorber. Under the influence of low vibrational frequencies, the vibration absorber deviates from the equilibrium due to the elasticity of the shell 7, thereby causing its compression deformation. In this case, a decrease in the internal volume of the shell 7 and an increase in air pressure 45 in it occur, as a result of which air begins to throttle through the openings 9 of the bottom 4 of the glass into the vibration absorber, then through the bulk medium 6 and through the openings 8 in the walls 5 of the glass into the surrounding space. This leads to intensive mutual movement of particles of the granular medium, as a result of which a significant part of the energy of low-frequency vibrations is dissipated.

When the absorber returns to the equilibrium position, the elastic shell 7 expands and its shape is restored. This causes a decrease in pressure in it and thereby leads to the absorption of air from the environment through openings 8 into the absorber body, bulk medium 6 and the bottom 4 of the glass. As a result of this, intensive mixing of the particles 6 occurs.

Thus, any vibrational movement of the absorber in the low frequency region causes intense dissipation of vibrational energy due to air throttling through the bottom of the 4 cups, bulk medium 6 and openings 8 in the walls 5 of the cup, as well as vibration mixing of particles of the granular medium 6. Stiffness coefficient of the elastic shell 7 and mass vibration absorbers must be selected in such a way as to ensure the coincidence of the natural frequencies of the vibrations of the vibration-isolating structure and the vibration absorber, which ensures the effect and dynamic vibration damping.

Claims (1)

Claim A device for damping vibrations, comprising an elastic lever attached at one end to a vibrating structure, and at its other end a vibration absorber is fixed, made in the form of a glass with a lid partially filled with a granular medium, which means that in order to increase the efficiency damping of low-frequency vibrations, it is equipped with an elastic shell rigidly fixed between the elastic levers and the bottom of the glass; the cavity connecting the cavity with the atmosphere and the cavity of the elastic shell about tverstiya whose diameters are smaller than the granular material particles, and ratio of the total area of the holes in the bottom nozzle to the total area of the holes in the walls' glass selected from the inequality 0 ₅ 9 <minigap f ^ <J, 1, b _{holes. Art} .