SU954661A1 - Versions of hydraulic damper - Google Patents

Description

(54) HYDRAULIC DAMPER (ITS OPTIONS)

one

The invention relates to damping vibrations and can be used to dampen mechanical and sound vibrations in mechanical engineering, machine-tool construction, construction, medicine, etc. The most appropriate use of the invention in engineering.

Closest to the proposed technical essence and the achieved result is a hydraulic damper containing a hollow sealed enclosure filled with damping fluid, a partition with throttling holes, dividing the housing into two chambers, and a node for transmitting damped oscillations 1.

A disadvantage of the known damper is that in order to increase the damping coefficient, it is necessary to increase the volume of its chambers, and as a result, the dimensions of the damper as a whole. In addition, the disadvantage of a damper is the impossibility of expanding the frequency range of damped vibrations without reducing the damping coefficient. This is due to the fact that in order to expand the frequency range of damped vibrations, it is necessary to increase the cross-sectional area of the throttling hole, which inevitably leads to a decrease in the damping coefficient.

The purpose of the invention is to increase the damping coefficient and expand the range of vibration damping frequencies.

This goal is achieved by the fact that the body is made of a spiral conical shape in cross section, the partition

10 is fixed to the base along the axis of the housing, the assembly for transmitting damped vibrations is made in the form of an elastic membrane connecting the wall and the base of the housing, and the damping hole is formed by the free end of the partition and the housing.

According to the second embodiment, the body can be made cylindrical, and the partition is fixed on one of the body ends along its axis and made of an elastomer with a variable width along its length,

20 enlarged to the other end of Kapnyca, s or in the form of a membrane with plates of solid material located on one side, distributed along its length so that their weight decreases from the end of fixing the partition to the opposite, the node for transmitting damped vibrations is made in the form of an elastic membrane connecting the wall and one of the ends of the body, and the damping hole is formed by the free end of the partition and the end of the body.

FIG. 1 shows a hydraulic damper, a longitudinal section; in fig. 2 - the same, top view; in fig. 3 - hydraulic damper (its variant), longitudinal section; in fig. 4 - a variant of the damper, in which the elastic partition is made with a variable width; in fig. 5 - option walls with plates of solid material.

The hydraulic damper contains a hollow sealed housing 1 filled with a damping fluid, such as oil. The housing 1 (Fig. 1 and 3) is divided by the partition 2 into chambers 3 and 4, communicating with each other through a throttling hole 5 formed by the free end of the partition 2 and the housing 1. The housing 1 can be made spiral-shaped conical in cross section, and the partition 2 mounted on the base 6 along the axis of the housing 1 (Fig. 1 and 2). The node for transmitting damped vibrations is made in the form of an elastic membrane 7 connecting the wall and the base 6 of the housing 1 (Fig. 1 and 3). The other wall of the housing 1 and the base 6 are connected by a compensation membrane 8 (Figs. 1 and 3). Instead of the membrane 7, a cylinder with a piston may be installed, the brush of which is connected with the source of oscillations.

The housing 1 can also be cylindrical, and the partition 2 is made of elastomer with a spacing varying along its length, increasing to the other end 9 of the housing 1 (Fig. 3 and 4), or in the form of a membrane with solid plates on one side of it. material distributed along its length so that their mass decreases from the base 6, securing the partition 2 to the opposite end 9 (Fig. 5). The material of the plates 10 may be metal or polymers.

It is important that the membrane 7 does not come into contact with the elastic partition 2 for transmitting damped vibrations. The elastic partition 2 has a thickness that decreases from the fixing point on the base 6 to its free end (Fig. 3), as a result of which the natural frequency of the partition decreases from top to bottom .

Hydraulic damper works as follows.

When mechanical vibration is damped, the membrane 7 (Fig. 1 and 3) mechanically binds to the source of these vibrations. Oscillations of the membrane 7 cause the fluid to fill the chamber 3, flow part of the fluid from chamber 3 into chamber 4 and back and oscillate the fluid in chamber 4 and membrane 8, which takes a certain part of the energy of damped oscillations. Spreading along the elastic partition 2, the damped oscillations cause its oscillations, which also consumes energy. Since the casing 1 of the damper (Figs. 1 and 2) is made tapering, the fluid, when flowing through the throttling orifice 5, is intensely turbulized, as a result of which the damping coefficient increases. The components of these oscillations different in frequency will be damped by the corresponding parts of the partition 2 (Fig. 3). As a result, it is possible to evenly damp vibrations in a given frequency range. In addition, vibrating the partition 2 causes transverse oscillations of the fluid in chambers 3 and 4, with the result that this fluid performs complex oscillatory movements, which contributes to an increase in the damping coefficient. The proposed hydraulic damper allows you to increase the damping ratio and extend the range of vibration damping frequencies. This allows you to effectively damp the oscillations in a wide frequency range with fewer dampers, which improves the quality of the damping and reduces its cost.

Claims (2)

1. Hydraulic damper containing a hollow sealed enclosure filled with damping fluid, a partition with throttling openings; a dividing body into two chambers, and a node for transmitting damped vibrations, characterized in that, in order to increase the damping coefficient, the housing is made of a spiral conical shape in cross section, the partition is fixed to the base along the axis of the housing, the node for transmitting damped vibrations is made in the form an elastic membrane connecting the wall and the base of the body; and the damping hole is formed by the free end of the partition and the body. 2.Hydraulic damper containing a hollow sealed enclosure filled with damping fluid, a partition with throttling openings dividing the housing into two chambers, and a node for transmitting damped vibrations, characterized in that in order to expand the range of vibration damping frequencies, the housing is cylindrical and the partition is fixed at one end of the body along its axis and is made of elastomer with a variable width along its length increasing to the other end of the body or in the form of a membrane with On one side of it, plates of solid material distributed along its length so that their mass decreases from the end of fixing the partition to the opposite, the node for transmitting damped vibrations is made in the form of an elastic membrane connecting the wall and one of the ends of the body, and the damping the hole is formed by the free end of the septum and the end of the body. Information sources, taken into account in the examination 1. For the application of the Federal Republic of Germany No. 2551516, cl. F 16 F 9/06, 1977 (prototype). Th