RU2545276C1 - Rubber vibroisolator with gauze damper - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: vibroisolator contains casing in form of the bushing with hole and collar resting on the top end of the resilient element out of the elastomer, for example, rubber. Bottom part of the casing contains rings with collar for connection with the elastomer. The profiles of the side surfaces of the elastomer are formed hyperbolic as a bar of equal resistance with a constant stiffness in axial and transversal directions. The ring connected with the elastomer has on the outside surface a groove, using it the ring is locked on the support ring by screws. The gauze resilient element by bottom part rest on the base with ring collar, and by top part rests against the cover. The cover is connected by screws via the additional vibration dampening layer with the support ring. The piston is secured on cover of the gauze damper. The piston of enclosed by the coaxial sleeve rigidly connected with the base. Between the lower end of the piston and bottom of the sleeve the polyurethane elastomer is located.

EFFECT: increased efficiency of vibration isolation in resonance mode.

4 cl, 1 dwg

Description

The invention relates to mechanical engineering and can be used for vibration isolation of technological equipment, including instruments and equipment.

It is known the use of rubber elastic elements for vibration isolation of technological equipment in the textile industry [1, 2, 3, 4]. The calculations show the high efficiency of rubber elastic elements with their relatively small dimensions, while tests in real factory conditions confirm their effectiveness with high reliability and ease of maintenance.

However, the load capacity on the rubber elements is low.

Known rubber vibration isolator [5], comprising a housing which is made in the form of a vertical rack with fixing plates, one end of which is pivotally mounted in the lower plate, and the other in the upper plate mounted on a rubber elastic element in contact with the vibration-insulated object.

The disadvantage of this type of vibration isolators with a support rod is the relatively low stability of the object under horizontally acting loads, with high efficiency in the same direction.

Known rubber vibration isolator with a pendulum suspension [6], containing a rubber elastic element interacting with the base of the housing and the pendulum suspension, which is made in the form of a threaded rod connected at one end with a support arm for attaching a vibration-isolating object, and the other with a thrust washer and nut, and the base of the body is made in the form of a box of rectangular cross section, consisting of upper and lower plates, fastened on three sides by side ribs.

The disadvantage of this type of vibration isolators with a pendulum suspension is their large height dimension, since they belong to the category of suspended vibration isolation systems, where the overall dimensions are not limited in height, and relatively small dimensions in height are required for supporting vibration protection systems.

Known rubber vibration isolator [7], comprising a housing and an elastic element of elastomer, the housing is made U-shaped in the form of two opposed side flanges associated with the base, having a shape congruent to the shape of the supporting surfaces of the elastomer, consisting of two opposed elements moreover, in the upper part of the surface of the elements of the elastomer are connected by a plate to the fastening element of the object in the form of a threaded hole, and in the bottom by the base, and the side flanges of the housing are rigidly connected to one of the side surfaces of each elastomer element.

The disadvantage of this type of vibration isolators is their relatively low rigidity when loaded in planes parallel to its base.

Known rubber vibration isolator for technological equipment [8], comprising a housing and an elastic element made of elastomer interacting with the object, the housing is made in the form of support elements containing washers, bolts and nuts located coaxially and opposite to the elastic element in its upper and lower parts, and made in the form of a shell of elastomer, consisting of flat mounting surfaces on which the supporting elements are fixed, as well as a cylindrical surface located in a central perpendicular section flax the axes of the supporting elements, and conical surfaces located between the mounting surfaces, and the cylindrical surface, and connected with them in a single shell.

The disadvantage of this vibration isolator is its relatively low stiffness during spatial loading due to the lack of additional stiffeners in the shell.

Known rubber vibration isolator for technological equipment [9], comprising a housing and an elastic element of elastomer interacting with the object, the housing is made in the form of a base to which a cover is attached, and the vibration-insulated equipment is mounted on a sleeve with a shoulder, an elastic element of elastomer is located between the inner surface cover and the outer surface of the sleeve, with a Central hole and a collar, and the conical belt of the elastic element covers the outer surface of the sleeve, and in the lower part of the elastic rd element has a recess of conical shape, the diameter of the lower base is equal to the diameter of the central opening in the base, and the thickness of the elastomer layer over the recess and under collar 10 is ÷ 20% of the height of the elastic member.

A disadvantage of the known vibration isolator is its relatively low stiffness of the shell of the elastomer.

The closest technical solution to the claimed object is a vibration isolator according to the patent of the Russian Federation No. 2302566 [10] (prototype), comprising a housing and an elastic element of elastomer interacting with the object, the housing is made in the form of a sleeve resting on the upper end of the elastic element, and rings, connecting the body with the base by means of a peripheral undercut, and the profile of the lateral surfaces of the elastomer is made hyperbolic in the form of a bar of equal resistance having constant stiffness in the axial and transverse directions.

The disadvantage of the prototype device is the lack of efficiency at resonance due to the lack of damping.

The technical result is an increase in the efficiency of vibration isolation in a resonant mode.

This is achieved by the fact that in a rubber vibration absorber with a mesh damper comprising a housing made in the form of a sleeve with a hole, resting on the upper end face of an elastic element made of elastomer, for example rubber, while a collar is made on the sleeve for communication with the elastomer, and the lower part of the housing consists from a ring with a shoulder for communication with an elastomer, the profiles of the side surfaces: the inner cavity and the outer shell of the elastomer are made hyperbolic in the form of a bar of equal resistance having constant stiffness in the axial and in the transverse directions, and the ring associated with the elastomer has a groove on the outer surface, through which it is fixed on the support ring with screws, and for fastening the upper part of the vibration isolator from the elastomer with a mesh damper located in the lower part of the vibration isolator, there is a support ring, the mesh damper contains the base with an annular collar, a mesh elastic element, resting on the bottom with the base, and fixed by the shoulder, and the upper part abutting in the cover, connected by screws through an additional Ibrodamping layer with a support ring, while the cover and the base of the mesh damper are interconnected by a "dry friction" element made in the form of a piston connected to the cover and covered by a coaxially located sleeve rigidly connected to the base, and located between the lower end of the piston and the bottom of the sleeve an elastomer, for example polyurethane.

The drawing shows a frontal section of a rubber vibration absorber with a mesh damper.

The rubber vibration isolator with a mesh damper comprises a housing made in the form of a sleeve 1 with an opening 2, resting on the upper end face of the elastic element 4 from an elastomer, for example rubber. A collar 3 is made on the sleeve 1 for communication with an elastomer 4. The lower part of the housing consists of a ring 5 with a collar 6 for communication with an elastomer 4. The profiles of the side surfaces: the inner cavity 8 and the outer shell 9 of the elastomer are made hyperbolic in the form of a bar of equal resistance having constant stiffness in axial and transverse directions. The ring 5, associated with the elastomer 4, has a groove on the outer surface, through which it is fixed on the support ring 7 with screws 18.

The support ring 7 is intended for fastening the upper part of the vibration isolator from elastomer 4 with a mesh damper located in the lower part of the vibration isolator.

The mesh damper contains a base 10 with an annular collar 11, a mesh elastic element 13, the lower part resting on the base 10 and fixed by the collar 11, and the upper part abutting the cover 12, connected by screws 19 through an additional vibration damping layer 17 with a support ring 7.

The cover 12 and the base 10 of the mesh damper are interconnected by a "dry friction" element made in the form of a piston 14, connected to the cover 12 and covered by a coaxially located sleeve 15, rigidly connected to the base 10. An elastomer is located between the lower end of the piston 14 and the bottom of the sleeve 15 16, for example polyurethane.

The density of the mesh structure of the elastic mesh element is in the optimal range of values: 1.2 g / cm ³ ... 2.0 g / cm ³ , and the wire material of the elastic mesh elements is steel grade EI-708, and its diameter is in the optimal range of 0 , 09 mm ... 0.15 mm.

The density of the mesh structure of the outer layers of the elastic mesh element is 1.5 times higher than the density of the mesh structure of the inner layers of the elastic mesh element. The elastic mesh element 13 can be made combined of a mesh frame, filled with an elastomer, for example polyurethane.

Rubber vibration absorber with a mesh damper operates as follows.

When vibrations of a vibroinsulated object (not shown), the elastic element 4 of elastomer (rubber) perceives vertical loads, thereby weakening the dynamic effect on the floors of buildings or on board the aircraft. Horizontal vibrations are damped due to the unrestricted location of the elastic element, which gives it a certain degree of freedom of vibrations in the horizontal plane. The profile of the lateral surfaces 8 and 9 of the elastomer is hyperbolic in the form of a bar of equal resistance, which has constant stiffness in the axial and transverse directions, allows to provide the vibration protection system with equal strength and equal frequency with economical use of rubber (elastomer).

Mesh damper works as follows.

During vibrations of the vibration-insulated object, the dynamic load is transmitted through an additional vibration-damping layer 17 to the cover 12 and the elastic mesh element 13, which perceives both vertical and horizontal loads, thereby weakening the dynamic effect on the vibration-insulated object, i.e. spatial vibration protection and shock protection are provided. Additional damping in the vibration protection system is carried out in the element of "dry friction", made in the form of a piston 14 with a sleeve 15, and in an additional vibration damping layer 17.

Information sources

1. Kochetov O.S., Sazhin B.S. Noise and vibration reduction in production: theory, calculation, technical solutions. M .: MSTU im. A.N. Kosygina, 2001 .-- 319 p. - p. 118, fig. 5.2; p. 119, fig. 5.4; p. 173, fig. 5.57; p. 175, fig. 5.59; p. 286, fig. P.Y. 8.

2. Kochetov OS, Calculation of rubber vibration isolators for pneumatic looms // Izv. universities. Technology of the textile industry. - 2000, No. 3. P.77 ... 83.

3. Kochetov OS Textile vibroacoustics. Textbook for universities. M .: MSTU im. A.N. Kosygina, the group "Sauvage Bevo" 2003. - 191 p. - p. 60, fig. 3.3; p. 61, Fig. 3.4.

4. Kochetov O.S. Calculation of the spatial vibration protection system. The journal "Occupational Safety in Industry", No. 8, 2009, pp. 32-37.

5. Kochetov O.S., Kochetova M.O., Khodakova TD, Shesterninov A.V. Vibroinsulator rubber // Patent for invention No. 2277652. Published on June 10th, 2006. Bulletin of inventions No. 16.

6. Kochetov O.S., Kochetova M.O., Khodakova T.D., Stareev M.E. Rubber vibration isolator with pendulum suspension // Patent for invention No. 2279585. Published on July 10th, 2006. Bulletin of inventions No. 19.

7. Kochetov O.S., Kochetova M.O. Rubber vibration isolator Kochetova // Patent for invention No. 2301920. Published 06/27/07. Bulletin of inventions No. 18.

8. Kochetov O.S., Kochetova M.O. Rubber vibration isolator for technological equipment // Patent for invention No. 2303720. Posted on 07/27/07. Bulletin of inventions No. 21.

9. Kochetov O.S., Kochetova M.O. Vibration isolator of technological equipment // Patent for invention No. 2305806. Posted on 09/10/07. Bulletin of inventions No. 25.

10. Kochetov O.S., Kochetova M.O. Rubber vibration isolator // Patent for invention No. 2302566. Published on July 10th, 07. Bulletin of inventions No. 19.

Claims (4)

1. A rubber vibration absorber with a mesh damper, comprising a housing made in the form of a sleeve with a hole resting on the upper end face of an elastic element made of elastomer, for example rubber, wherein a collar is made on the sleeve for communication with the elastomer, and the lower part of the housing consists of a ring with a collar for communication with the elastomer, and the profiles of the lateral surfaces: the inner cavity and the outer shell of the elastomer are made hyperbolic in the form of a bar of equal resistance having constant stiffness in the axial and transverse directions, and the ring associated with the elastomer has a groove on the outer surface, by means of which it is fixed on the support ring with screws, and for fixing the upper part of the elastomer vibration absorber with a mesh damper located in the lower part of the vibration isolator, there is a support ring, characterized in that the mesh damper contains a base with an annular collar, a mesh elastic element, the lower part resting on the base and fixed by a collar, and the upper part abutting in a cover connected by screws through an additional vibration a damping layer with a support ring, while the cover and the base of the mesh damper are interconnected by a “dry friction” element made in the form of a piston connected to the cover and covered by a coaxially located sleeve rigidly connected to the base, and located between the lower end of the piston and the bottom of the sleeve an elastomer, for example polyurethane. 2. Rubber vibration isolator with mesh damper according to claim 1, characterized in that the density of the mesh structure of the elastic mesh element is in the optimal range of values: 1.2 ÷ 2.0 g / cm ³ , and the material of the wire of the elastic mesh elements is steel grade EI -708, and its diameter is in the optimal range of 0.09 ÷ 0.15 mm. 3. The rubber vibration isolator with a mesh damper according to claim 1, characterized in that the density of the mesh structure of the outer layers of the elastic mesh element is 1.5 times higher than the density of the mesh structure of the inner layers of the elastic mesh element. 4. A rubber vibration isolator with a mesh damper according to claim 1, characterized in that the elastic mesh element is made of a combined mesh frame filled with an elastomer, for example polyurethane.