RU2065540C1 - Viscoelastic damper - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: damper has a housing filled with a viscoelastic fluid, coaxial shells mounted inside the housing, weight rigidly secured to the housing base, and sleeve. The diameter of the weight is variable. The weight has slots at its top part. The sleeve is provided with answered slots that underlie the slots of the weight with an axial spaced relation with respect to the weight slots and a radial spaced relation with respect to the bottom part of the weight. The damper can be provided with a rim mounted on the bottom end of each shell. The width of the rim is greater than the thickness of the shell and the rim projects out of the outer and inner surfaces of the shell by the same distances. EFFECT: improved damping. 2 dwg

Description

 The invention relates to mechanical engineering and can be used to damp the vibrations of various vehicles and equipment.

 Known viscoelastic damper company "SERV" (Germany, Berlin), consisting of a housing filled with a viscoelastic fluid, and a piston.

 The damper piston can move in a viscoelastic fluid in any direction, while its movement, except for the vertical (up), is limited by the dimensions of the housing.

Known viscoelastic damper, consisting of a housing, a viscoelastic medium, a glass in which the load is placed, the primary and secondary shells (prototype) [1]
Horizontal, angular and vertical vibrations of the cup cause viscoelastic deformation of the medium in the space between the load, the cup, the main and additional shells and the body, as well as friction between the load and the bottom of the body.

 The result is a damping force and a friction force that counteracts the displacement of the glass. The disadvantage of the damper is that for small inclinations, there is a choice of gaps between the internal elements of the damper (load, glass and shells, which dramatically changes the impedance characteristics of the damper and thereby reduces its efficiency).

 The absence of elements in the damper structure restricting its movement in the vertical direction (up) requires, in a number of cases (especially on vehicles) the use of special limiters, which complicates the design of vehicle components in the area where the dampers are installed and, therefore, is not always acceptable.

 To increase the efficiency of the damper and expand its fields of application in technology, the load is rigidly connected to the base of the body, and the vertical axis of the load coincides with the center of the base, and the glass is mounted coaxially to the load, which is made of variable diameter and has upper slots in its upper part, and reciprocal slots are made in bottom of the glass.

In the assembled state, when the cup is rotated 45 ^° with respect to the body about the vertical axis of the damper, the protrusions of the cup come under the protrusions of the load while maintaining the required horizontal and vertical clearances in the damper, and the engagement is realized by the ends of the protrusions after selecting the clearances in the vertical direction when the cup is moved up. The lower end of each shell (to prevent the shells from touching each other) is equipped with a rim having a width exceeding the thickness of the shell, and the rim with its lateral surfaces protrudes by the same amount from the inner and outer surfaces of the shell, and rests on the inner surface of the base of the housing.

 The invention is illustrated by drawings, where in FIG. 1 shows a longitudinal section of the proposed damper; in FIG. 2 shows a cross section.

 Horizontal, angular and vertical vibrations of the cup 1 cause viscoelastic deformation of the liquid 2 in the space between the load 3 and the cup 1, between the cup 1, the main shell 4, at least one additional shell 5 and the housing 6, which is connected to the flange of the cup by an easily deformable seal 7 , preventing the flow of viscoelastic fluid when the inclination of the damper.

 Damper works as follows. Horizontal, angular and vertical vibrations of the glass cause viscoelastic deformation of the medium in the space between the elements of the damper. As a result, there is a damping force and a friction force (when moving the shells between the ends of their rims and the base of the housing), as a result of which a part of the mechanical vibrational energy is converted into heat. At the same time, due to the engagement realized by the ends of the protrusions of the load and the cup, after selecting the gaps in the vertical direction, it is possible to limit the movement of the cup vertically upwards and, thus, the damper has the ability to limit the displacements that arise during operation to specified values in all directions, which expands the field of its application in technology and, especially, in vehicles.

 The rims that the shells are equipped with prevent the selection of gaps between the internal elements of the damper, which ensures its effective operation when leaning.

Claims (2)

 1. A viscoelastic damper containing a vertically arranged housing filled with a viscoelastic medium, a load, a cup and shells installed therein coaxially coaxially with the housing, characterized in that the load is rigidly connected to the housing base and is made of variable diameter with slots in its upper part and in the lower part cups made reciprocal slots located under the slots of the cargo with an axial clearance relative to the latter and a radial clearance relative to the lower part of the cargo.  2. The damper according to claim 1, characterized in that it is equipped with a rim mounted on the lower end of each shell, the width of which is selected more than the shell thickness, protruding equally from the outer and inner surfaces of the latter.

Images