SU983339A1 - Damper for suppressing mechanic oscillations and impact loads - Google Patents

Description

1 The invention relates to mechanical engineering and can be used to dampen mechanical vibrations and shock loads applied in a given direction.

The closest to the invention to the technical essence is a damper for damping mechanical vibrations and shock loads applied in a given direction, containing a chamber formed by blind, opposite supporting surfaces and elastic walls with throttling holes in one of them, and placed in it a damping medium of the viscoelastic plastic mass and the elastic element G ll.

A disadvantage of the known damper is that it provides effective damping of mechanical vibrations and shock loads only in a narrow frequency range and a slight change in the amplitudes of disturbing forces, which reduces its reliability.

The aim of the invention is to increase the reliability and efficiency of the damper.

This goal is achieved by the fact that the damper for damping mechanical oscillations and shock loads contains a chamber formed by opposite supporting surfaces and elastic walls with chokes, punching holes in one of them,

10 and the damping medium of a viscoelastic plastic mass placed in it and the elastic element, provided with an additional chamber filled with a damping medium, made in

15 as a cup and cylinder telescopically connected to one another, a second elastic element and a piston with throttling openings connected through a rod to one of the supporting surfaces; the other supporting surface is made in the form of a sleeve; cylinder

the piston, the second elastic element is located between the piston and the cup, and the first elastic element is located between the cylinder and the support surface rigidly connected to the rod.

FIG. 1 shows the damper in the initial position, the section; in fig. 2 and 3 is the same in different stages of damping under load.

The damper contains a chamber formed by opposite supporting surfaces 1 and 2 and elastic walls 3 and throttling holes 5 in the elastic wall 4. The chamber contains damping medium 6 from the elastic plastic mass and elastic element 7.

The damper is also provided with an additional chamber filled with damping medium, filled in the form of telescopically connected to each other cup 8 and cylinder 9, second elastic element 10 and piston 11 with throttling holes 12, piston 11 through rod 13 rigidly connected to bearing surface 2 The support surface 1 is made in the form of a sleeve, in the opening of which is installed WITH THE POSSIBILITY of moving the cylinder around the piston 11. The elastic element 10 is located between the piston 11 and the cup 8, and the elastic element 7 - between the cylinder 9 and the supporting surface 2. Damper works as follows. When a load is applied to the cup 8, the elastic element 10 is compressed, and the damping medium 6 through the throttling holes 12 in the piston 11 is squeezed into the chamber with elastic walls 3 and 4 and further through the throttling holes 5, you- Filled in the elastic wall 4, you puff the outer elastic wall 3. The glass 8 abuts against the end face of the support surface 1, the cylinder 9 and the glass 8 move together, continuing to compress the elastic element 10, squeezing the damping medium 6 through the throttle holes 5 and 12 and further bulging the elastic walls 3. At the same time, the elastic element 7 is compressed. At the lowest increase in the load, the elastic wall C also loses its stability and begins to bulge simultaneously with the elastic wall 3 (Fig. 3).

After the termination of the load, the return of the damper elements to the initial position occurs due to the elastic elements 7 and 10 and the elastic walls 3 and i, by means of which

It is provided that the damping medium 6 is pushed through the throttling holes 5 and 12 to its original position.

Thus,

the progressive increase in resistance to the action of disturbing forces with a significant change in their amplitudes and frequencies, and, consequently, the reliability of the damper increases.

Claims (2)

Invention Formula A damper for damping mechanical vibrations and shock loads, containing a chamber formed by opposite supporting surfaces and elegant walls with throttling holes in one of them, and a damping medium of viscoelastic plastic mass placed in it, and an elastic element characterized in that in order to increase reliability and efficiency, it is equipped with an additional chamber filled with a damping medium, made in the form of a telescopically connected one to another glass and a cylinder, a second elastic element ohm and piston with throttling openings connected through a rod to one of the bearing surfaces; the other supporting surface is made in the form of a sleeve, in the opening of which the cylinder that holds the piston is mounted for movement, the second elastic element is located between the piston and the glass, and the first is elastic element between the cylinder and the support surface rigidly connected with the rod. Sources of information taken into account in the examination. 1. US Patent No. 40D5858, cl. 267-136, 1977. 2. French patent number, cl. F 16 F 9/30, 197 (prototype).