RU2299370C1 - Vibration insulator - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: vibration insulator comprises flexible members made of plate springs. One of the ends of at least three flat springs are secured between the to plates arranges at the top part of the vibration insulator and provided with conical screw spring. The other ends are connected with the friction shoes through ring bend on the flat springs. The shoes are made of U-shaped stands secured to the shoe base. The base of the shoe that is in a contact with the setting plane is provided with friction spacers. The smaller base of the conical screw spring is secured to one of the plates arranged in the top section of the vibration insulator. The larger base of the conical spring could be connected with the platform for setting an object to be insulated. The larger base of the conical screw spring could be connected with one of the plates arranged in the top section of the vibration insulator, and smaller base of the conical spring could be connected with the platform for setting the object to be insulated.

EFFECT: improved vibration insulation and enhanced maintainability.

3 cl, 1 dwg

Description

The invention relates to mechanical engineering and can be used to protect technological equipment, apparatus and devices, as well as the human operator from vibration.

The closest technical solution to the claimed object is a spring-type vibration isolator containing a strut, flat spring-type elastic elements and support units according to a.s. USSR No. 507723, F16F 3/02, 1976 (prototype).

The disadvantage of the known device is the relatively low efficiency of vibration isolation due to the relatively high stiffness of the springs, as well as low maintainability.

The technical result of the invention is to increase the efficiency of vibration isolation and improve maintainability.

This is achieved by the fact that in the equal-frequency spring type vibration isolator containing elastic elements in the form of flat springs, one of the ends of at least three flat springs is fixed between two plates located in the upper part of the vibration isolator, on which a conical coil spring is fixed, and the other ends are connected by means of an annular bend on flat springs with friction shoes made in the form of U-shaped struts rigidly connected to the base of the shoes, and to the base of the shoes on the surface side, contact friction pads are attached to the mounting plane, and the conical coil spring is fixed with its smaller base to one of the plates located in the upper part of the vibration isolator, and the larger base of the conical spring is connected to the platform for installing the vibration-insulated object, or the conical coil spring is fixed with its large base to one of the plates located in the upper part of the vibration isolator, and the smaller base of the conical spring is connected to the platform for installing a vibration-isolating EKTA.

The drawing 1 shows the proposed vibration isolator.

Vibration isolator of equal frequency spring type contains elastic elements 3 and 4 in the form of flat springs. One of the ends of at least three flat springs 3, 4 is fixed between two plates 1 and 2 located in the upper part of the vibration isolator, on which a conical helical spring 6 is fixed, and the other ends are connected by ring bending on flat springs with friction shoes 5, made in the form of U-shaped struts, rigidly connected with the base of the shoes. Friction pads are attached to the base of the shoes on the surface side in contact with the mounting plane. The conical coil spring 6 is fixed with its smaller base to one of the plates 1 located in the upper part of the vibration isolator, and the larger base of the conical spring is connected to the platform 7 for installing a vibration-isolating object (not shown in the drawing). In addition, the conical coil spring 6 can be fixed with its large base to one of the plates 1 located in the upper part of the vibration isolator, and the smaller base of the conical spring can be connected to the platform 7 for installing a vibration-insulated object.

Vibration isolator works as follows.

When the vertical reciprocating movement of the plates 1 and 2, the ends of the springs 3 and 4 make a reciprocating movement in the horizontal plane. The damping is ensured by the friction of the friction gaskets of the shoes 5 against the supporting mounting plane. The conical spring 6 provides the vibration isolation system with equal frequency.

Claims (4)

1. Vibration isolator of equal frequency spring type containing elastic elements in the form of flat springs, characterized in that one of the ends of at least three flat springs is fixed between two plates located in the upper part of the vibration isolator, on which a conical coil spring is fixed, and the other ends are connected using ring bending on flat springs with friction shoes made in the form of U-shaped struts, rigidly connected with the base of the shoes. 2. Vibration isolator of equal frequency spring type according to claim 1, characterized in that the friction pads are attached to the base of the shoes on the surface side in contact with the mounting plane. 3. The equal-spring spring-type vibration isolator according to claim 1, characterized in that the conical coil spring is fixed with its smaller base to one of the plates located in the upper part of the vibration isolator, and the larger base of the conical spring is connected to the platform for installing the vibration-insulated object. 4. The equal-spring spring-type vibration isolator according to claim 1, characterized in that the conical coil spring is fixed with its large base to one of the plates located in the upper part of the vibration isolator, and the smaller base of the conical spring is connected to the platform for installing the vibration-insulated object.