SU1645677A1 - Shock absorber - Google Patents

Abstract

The invention relates to mechanical engineering. The aim of the invention is to increase the vibration-insulating properties and simplify the design by choosing the stiffness characteristics of the elastic elements, based on the frictional forces. This is achieved by the fact that the stiffness of the springs 8.9 is chosen from the relation C -, where FTp is the frictional force between the pusher 6 and the movable element 7; AO - given amplitude of oscillation of a depreciable object. This eliminates the movement of the pusher 6 relative to the movable element 7 with a force less than or equal to the force of friction between the pusher and the movable element, as well as blows touching the turns of the springs 8.9. Making the housing in the form of the upper 1 and lower 2 bases and the pillars 3 for connecting the latter allows to simplify the construction of the shock absorber. 1 il. ё О ± СП about | 13

Description

The invention relates to mechanical engineering and can be used to dampen vibrations of various objects.

The purpose of the invention is to improve the vibration-insulating properties and simplify the design by choosing the stiffness characteristics of elastic elements, based on the strength of friction.

The drawing shows the shock absorber, a longitudinal section.

The shock absorber comprises a housing in the form of the upper 1 and lower 2 bases, and struts 3 for coupling the latter with each other. Guides 4 and 5 are mounted on the upper 1 and lower 2 bases.

A hollow plunger 6 with a movable element 7 mounted on the last with a tension is mounted in the guide bushes 4 and 5 in the gap. Between the guide sleeves 4 and 5 and the movable element 7 there are springs 8 and 9. At the same time, their rigidity is selected from the relation

where FTp is the frictional force between the pusher 6 and the movable element 7;

AO - given amplitude of oscillation of a depreciable object.

The shock absorber works as follows.

Under the action of the perturbing force Pc on the pusher 6, if PCw is less than or equal to the frictional force between the pusher 6 and the movable element 7, the pusher 6 with the movable element 7 moves towards the action of the PCF, and the springs 8 and 9 are compressed and the other . The distance that the pusher 6 moves with the movable element 7 is less than the specified amplitude of oscillations of the depreciable object (not shown).

When acting on the plunger 6 of a disturbing force equal to or greater than the force

friction, the plunger 6 with the movable element 7 continues to move due to the action of the springs 8 and 9. In addition, the plunger 6 moves relative to the movable element 7. The total amplitude of vibration of the shock absorber is equal to the sum of the movements of the plunger 6 with the movable element 7 and the plunger 6 relative to the movable item 7.

The selection of the appropriate stiffness of the springs 8 and 9, based on the frictional force between the pusher 6 and the movable element 7 and a given amplitude of vibration of the shock absorber, makes it possible to eliminate the movement of the pusher 6 relative to the movable element 7 when Ptw less than or equal to the friction force between the pusher 6 and the movable element , and also blows and contact of coils of springs 8 and 9.

Making the shock absorber body in the form of an upper 1 and lower 2 bases and a stand 3 for connecting the latter allows simplifying the construction of the shock absorber. In addition, making the pusher 6 hollow allows for improved heat transfer during friction between the pusher 6 and the movable element 7.

Claims (1)

Invention Formula A shock absorber comprising a body, guide bushings mounted on the latter, a pusher mounted in the guide bushings with an axially movable element, and springs located between the movable element and the guide bushings coaxially with the pusher, characterized in that, in order to increase vibration insulation properties, spring stiffness is determined from the ratio С-р АО where Rtr - friction force between the pusher and the moving element; AO - given amplitude of oscillations.