RU86989U1 - Vibration Isolator - Google Patents

Abstract

1. A vibration isolator containing two cone-shaped elastic damping elements facing each other with large bases, with an elastic spacer placed between them and sewn around the perimeter with wire, fixing bolts with restrictive washers fixed to the corresponding elastic damping elements, with collars made on their inner surface with shaped profile, included in the grooves reciprocal along the profile, made on an elastic spacer, characterized in that shockproof is additionally introduced into the vibration isolator a device that is made in a barrel-shaped form from a metal-rubber material with a central cylindrical hole, the ends of the barrels are cone-shaped, supported on the heads of the mounting bolts, which are cone-shaped with hemispherical protrusions and form cavities in the spacer, the spacer being integral with the shockproof device, the cavity between a spacer, shockproof device and elastic-damping elements are filled with a viscous fluid substance. ! 2. The vibration isolator according to claim 1, characterized in that an organosilicon liquid or polyurethane is used as a viscous flowing substance.

Description

The utility model relates to mechanical engineering, namely to systems of vibration and shock protection, and can be used in any areas of technology where protection against vibration and shock loads is required.

Known vibration isolator containing two elastically damping elements (UDE) cone-shaped, facing each other with large bases and pulled together by a wire and mounting bolts with restrictive washers fixed to the corresponding UDE. (Av. St. USSR No. 191280, IPC F06F 16/10, publ. 01/14/67 BI No. 3, authors Buzitsky V.N., Pershina V.A. et al. "Shock absorber").

The disadvantage of this vibration isolator is the low energy consumption of the interaction of restrictive washers with UDE, which causes unacceptable loads in the area of their contact, which destroys the material of rubber metal (MR) and worsens the quality of shockproof protection.

A vibration isolator is known that contains two cone-shaped UDEs made of MR material, facing each other with large bases with an elastic spacer between them and sewn around the perimeter with wire, fixing bolts with restrictive washers, mounted on the corresponding UDEs and four compressed conical springs coaxially mounted with them, covering the outer and inner surfaces of the UDE and, several compressed springs installed concentrically between the bolt heads, and on each larger base of the UDE on their periphery the inner surfaces are made of collars with shaped profiles included in the grooves reciprocal along the profile, made on an elastic spacer made of MR material (RF Patent No. 73046, IPC F16F 3/08, publ. 10.05.08, BI. No. 13, authors: Antipov V. A., Lazutkin G.V., Ryabkov A.L. "Vibration isolator").

The disadvantages of this vibration isolator are the low quality of shockproof protection and low reliability due to the low energy consumption of conical and cylindrical springs and, as a result, the inability to absorb intense shock loads, which can lead to unacceptable deformation of the vibration isolator, accompanied by collisions of coil spring coils and structural fixing screw heads vibration isolator elements.

This technical solution is selected by the authors as a prototype.

The technical result is to improve the quality of shockproof protection and the reliability of the vibration isolator.

The technical result is achieved by the fact that the vibration isolator contains two cone-shaped elastic damping elements facing each other with large bases, with an elastic spacer between them and sewn around the perimeter by wire, fastening bolts with limited washers fixed to the corresponding elastic damping elements and made on their inner the surface with collars with a shaped profile, included in the grooves reciprocal along the profile, made on an elastic spacer, in addition to the vibration isolator, о shockproof device, which is made in a barrel-shaped form from metal rubber material with a central cylindrical hole, the ends of the barrels are cone-shaped, supported on the heads of the mounting bolts that are conical in shape with hemispherical protrusions and form cavities in the spacer, and the spacer is integral with the shock-proof device, cavities Between the spacer, shockproof device and elastic-damping elements are filled with a viscous flowing substance.

Holes are made in the spacer, in the cavity between the spacer, the shockproof device and the elastic-damping elements, filled with a viscous-flowing substance. An organosilicon liquid or polyurethane is used as a viscous substance.

In the drawing (figure 1) shows the proposed vibration isolator.

The vibration isolator contains two cone-shaped UDEs (1) made of metal-rubber material with mounting holes and grooves on the periphery of the inner surfaces, as well as a spacer 2 made in one piece with a barrel-shaped shockproof device 3 in which a cylindrical through hole 4 is made in which hemispherical holes are installed the protrusions 5 of the bolts 6, and the conical ends 7 of the shockproof device 3 are supported on the heads of the bolts 6 of the reciprocal conical shape.

In addition, holes 8 can be made in the spacer 2, and the cavities 9 between the spacer 2, the shockproof device 3 and the elastic damping elements 1 can be filled with a viscous fluid, for example, organosilicon liquid or polyurethane.

Vibration isolator works as follows.

Under the influence of shock load in the axial direction, the vibration isolator is deformed. At the same time, part of the impact energy is dissipated in the metal rubber material due to internal friction between the turns of the wire spirals of which it consists, and external friction arising on the contact surfaces of the UDE 1 with a spacer 2, as well as on the contact surfaces 7 between the shockproof device 3 and the bolt head 6 as well as due to throttling of a viscous-fluid substance from one cavity to another through openings 8 and partial introduction of the substance into the structure of the MR material.

At the same time, due to the additional elastic connection between the UDE 1 through the shockproof device 3, the membrane effect of the vibration isolator is corrected, and the hemispherical protrusions 5 of the bolts 6 installed in the inner cavity 4 of the shockproof device 3 and the bolt heads of the conical shape prevent the vibration isolator from becoming unstable under the influence of side loading.

Unlike analogues and the prototype, the shockproof device is efficient even with small deformations of the vibration isolator, thereby increasing the efficiency of vibration protection in all operating modes.

Under the influence of the load, which causes large deformations of the vibration isolator due to the fact that the internal cavities are filled with a viscous fluid substance, a membrane effect does not occur and the vibration isolator does not lose operability. Moreover, by introducing the substance into the structure of the MR material, the efficiency of vibration protection and the rigidity of the vibration isolator are increased, which prevents further deformation.

Thus, due to the introduction of new structural elements into the design of the vibration isolator, the efficiency of vibration protection at all vibration isolator operation modes is increased, the membrane effect is corrected, the elastic-friction characteristic of the vibration isolator becomes controllable, the hard collision of the bolt heads during large deformations is prevented, and the load-bearing capacity of the vibration isolator is increased, which ultimately improves quality of vibration protection of units and nodes of transport systems.

Claims (2)

1. A vibration isolator containing two cone-shaped elastic damping elements facing each other with large bases, with an elastic spacer placed between them and sewn around the perimeter with wire, fixing bolts with restrictive washers fixed to the corresponding elastic damping elements, with collars made on their inner surface with shaped profile, included in the grooves reciprocal along the profile, made on an elastic spacer, characterized in that shockproof is additionally introduced into the vibration isolator a device that is made in a barrel-shaped form from a metal-rubber material with a central cylindrical hole, the ends of the barrels are cone-shaped, supported on the heads of the mounting bolts, which are cone-shaped with hemispherical protrusions and form cavities in the spacer, the spacer being integral with the shockproof device, the cavity between a spacer, shockproof device and elastic-damping elements are filled with a viscous fluid substance. 2. The vibration isolator according to claim 1, characterized in that an organosilicon liquid or polyurethane is used as a viscous flowing substance.