SU1149082A1 - Vibration isolator - Google Patents

Abstract

VIBROIZOLATOR, comprising a housing with bottoms placed in the housing and a sleeve interacting with the vibration-insulating object, located between the sleeve and the bottoms and interacting with them two conical springs facing large bottoms to the bottoms, and a damper that differs in that in order to increase efficiency vibration isolation by increasing the range of perceived loads and the degree of damping, the damper is made in the form of a cylindrical spring placed in a sleeve, fitted with a sleeve attached to it at one end in the sleeve and having two holes in the side surface at the level of the extreme turns of the coil spring, a nut interacting from the free end of the bushing with a coil spring, and a length of cable attached to the ends of the cable, passed inside the conical springs coming out of the holes in the bushing and laid between coils of coil spring. about oh th

Description

This invention relates to mechanical engineering and can be used in vehicle crew suspensions.

Vibration insulators are known that contain an elastic element placed between two disks connected by connecting rods with connecting links mounted on the elastic element 1.

A disadvantage of the vibration isolator is the inability to control the degree of damping.

The closest in technical essence to the invention is a vibration isolator, comprising a housing with bottoms placed in the housing and a sleeve interacting with the object to be vibration-insulated, located between the sleeve and the bottoms and interacting with them two conical springs facing large bottoms to the bottoms and damper 2.

The disadvantage of this vibration isolator is the low efficiency of vibration isolation due to the small range of perceived loads and the low degree of damping.

The aim of the invention is to increase the vibration isolation efficiency by increasing the range of perceived loads and the degree of damping.

This goal is achieved by the fact that in a vibration insulator comprising a housing with bottoms placed in the housing and a sleeve interacting with the object to be vibration-insulated, located between the sleeve and the bottoms and interacting with them two conical springs facing large bases to the bottoms and damper the form of a cylindrical spring placed in a sleeve, a sleeve fitted with it, fixed at one end in a sleeve and having two holes in the side surface at the level of the extreme turns of the cylindrical spring, nut, mutually force acting from the free end of the sleeve with the coil spring and the cable length attached to the bottoms of the ends, passed inside conical springs exiting

holes in the sleeve and laid between the turns of the coil spring.

The drawing shows the proposed vibration isolator.

The vibration isolator consists of a housing 1

with the bottoms 2 and 3 placed in the housing 1 and interacting with a vibration-insulating object (not shown) sleeve 4 located between the sleeve 4 and the bottoms 2, 3 and two conical springs 5 and 6 interacting with them, facing large bases to the bottoms 2, 3 and the damper, made in the form placed in the sleeve. 4 cylindrical spring 7, a sleeve 8 which is attached to it, fixed with one needle in sleeve 4 and having two openings 9 and 10 at the level of the extreme turns of the cylindrical spring 7, nut And interacting from the free end of sleeve 8 with sleeve 4 and cylindrical spring 7, and cable length 12 attached

ends to the bottoms 2 and 3, passed inside the conical springs 5 and 6, the sleeve 8, coming out of the holes 9 and 10 in the sleeve 8 and laid between the turns of the cylindrical spring 7.

Vibration isolator works as follows.

When the dynamic forces are applied to the sleeve 8, it oscillates on conical springs 5 i-b, together with the object to be insulated, and the cable 12 moves with friction relative to the coils of the coil spring 7, thereby ensuring dissipation of the vibrational energy. The degree of damping, i.e. the amount of dissipated energy, and the magnitude of the perceived load is regulated by squeezing the nut 11 of the coil spring 7. This increases the pressure on the cable 12 from the turns of the coil spring 7, the frictional force increases with their relative movement, which leads to an increase

degree of damping.

Thus, the application of the proposed vibration isolator allows to increase the efficiency of vibration isolation by increasing the range of perceived loads and the degree of damping.

Claims (1)

VIBRATION INSULATOR, comprising a housing with bottoms, housed in a housing and interacting with a vibration-insulated object, a sleeve located between the sleeve and the bottoms and interacting with them two conical springs facing large bases to the bottoms, and a damper, characterized in that, in order to increase the effectiveness of vibration isolation by increasing the range of perceived loads and the degree of damping *, the damper is made in the form of a coil spring placed in the sleeve, a sleeve shielded by it, fixed at one end in the sleeve and having two holes in the side surface at the level of the extreme turns of the coil spring, a nut interacting from the side of the free end of the sleeve with the coil spring, and a piece of cable attached by the ends to the bottoms, passed inside the conical springs, coming out of the holes in the sleeve and laid between the coils of the coil spring .