RU2584279C1 - Combined vibration isolator with gauze damper - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building. Vibration isolator comprises a body and elastic element from elastomer interacting with object. Casing is made as a sleeve resting on upper end of resilient element, and ring connecting by means of peripheral recess casing with base. Profile of lateral surfaces of elastomer is formed hyperbolic as a bar of equal resistance with a constant stiffness in axial and transversal directions. Gauze damper base is composed by plate with mounting holes. Mesh elastic element is fixed lower washer connected to base. Top pressure plate is connected with central piston male sleeve rigidly attached to base. Between lower end of piston and bottom sleeve there is a polyurethane elastomer and crumbs from sintered friction material based on copper. Dimensions of fractions crumb are larger than clearance between piston and sleeve. Between upper pressure washer and sleeve for attachment of upper part of vibration isolator there are three intermediate damping layers.

EFFECT: higher efficiency of vibration isolation in resonance mode, simplified design and assembly.

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

Known vibration isolators mesh pendulum type [5, 6], containing a housing, an elastic element, a pendulum suspension, two coaxially located bushings are installed on the base, between which there is an elastic mesh element of the sleeve type, and the outer sleeve is higher in height than the inner one by the thickness of the pressure washer, by which is supported by the nut of the pendulum suspension.

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 vibration insulator washer mesh [7], containing a base, elastic elements, protective sleeves and pressure washers, an internal elastic mesh element is placed in the hole of the base, the inner surface of which contacts a restrictive sleeve covering the cylindrical surface of the fastener, and interact with the internal elastic mesh element external elastic mesh elements pressed against the inner element by means of pressure washers, the ratio of the outer diameter D of the external elastic mesh th element to its inner diameter d is in the range of optimal values of D / d = 3.0 ... 3.6.

The disadvantage of this vibration isolator is its relatively high rigidity, which under spatial loading is the reason for low efficiency.

Known mesh vibration isolators [8, 9, 10], respectively containing three, five and six parallel mounted mesh elastic elements located between the top cover and the base, and each of the elastic elements is made in the form of a parallel mounted spring element connected to the upper and lower pressure washers, and an elastic element in the form of a coaxially located sleeve from a three-dimensional mesh weave.

A disadvantage of the known vibration isolators is their relatively low ability to damp resonant vibrations.

The closest technical solution to the claimed object is a mesh vibration isolator according to the patent of the Russian Federation No. 2285839 [11] (prototype), comprising a housing, elastic elements, pressure washers, elastic elements made of parallel mounted spring element connected to the upper and lower pressure washers, and elastic an element of a volumetric mesh weave placed inside the spring element between the pressure washers and made in the form of a coaxially located sleeve, the ratio of the outer diameter D of the elastic mesh e element to its height h is in the optimal range of values D / h = 0.73 ... 1.05.

The disadvantage of this device is the lack of efficiency at resonance due to the relatively low degree of vibration 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 combined vibration isolator with a mesh damper containing 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 a ring connecting the housing to the base through a peripheral undercut, and the profile 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, and the base of the mesh damper is made in the form of a square with fixing holes, the net elastic element being supported by the lower part on the base and fixed by the lower washer rigidly connected to the base, and the upper part is fixed by the upper pressure washer rigidly connected to the centrally located piston, covered with a gap, coaxially located sleeve, rigidly connected to the base, and between the lower end of the piston and the bottom of the liner is an elastomer, for example polyurethane.

The drawing shows a frontal section of a combined vibration isolator with a mesh damper.

The combined vibration isolator with a mesh damper comprises a housing, which is made in the form of a sleeve 1 with an opening 2, resting on the upper end face of the elastic element 4, and a ring 5 with a shoulder 6, which connects the housing with the base via a peripheral groove 10. A shoulder 3 is made on the sleeve for communication with elastomer. The profile of the lateral surfaces 8 and 9 of the elastomer is made hyperbolic in the form of a bar of equal resistance having constant stiffness in the axial and transverse directions. Ring 5 rests on the sleeve 7 for mounting the upper vibration isolator.

The mesh damper comprises a base 10 in the form of a plate with fixing holes (not shown in the drawing), a mesh elastic element 13, supported by the lower part on the base 10 and fixed by the lower washer 11, rigidly connected to the base 10, and by the upper part fixed by the upper pressure washer 12, rigidly connected to the centrally located piston 14, covered by a coaxially located sleeve 15, rigidly connected to the base 10. Between the lower end of the piston 14 and the bottom of the sleeve 15 is an elastomer 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.

There is a variant (not shown in the drawing) when three intermediate vibration damping layers are located between the upper pressure washer 12, rigidly connected to the centrally located piston 14 and the sleeve 7 for attaching the upper vibration isolator: the first layer is made of dispersed elastic-damping material, in which crumbs should be used, for example, from the following materials: rubber, cork, polystyrene foam, kapron, foamed polymer, as well as crumbs of solid vibration-damping materials, such as, for example, agate plastic compound, Anti-vibration rit ”,“ Shvim ”with a size of crumbs fractions of 1.5–2.5 mm, the second layer is made of knitted elastic synthetic fibers, and the size of cells knitted from elastic synthetic fibers is 10–15% smaller than the fractions of crumbs of vibration-damping materials; and the third layer is made of a continuous damping material, in which sponge rubber, needle-punched material of the type “Vibrosil” based on silica or alumino-borosilicate fiber, as well as non-woven vibration-damping material can be used.

A variant is possible (not shown in the drawing) when between the lower end of the piston 14 and the bottom of the sleeve 15 there is a crumb 16 of sintered friction material based on copper, containing zinc, iron, lead, graphite, vermiculite, copper, chromium, antimony and silicon, the following ratio of components, wt. %:

zinc 6.0 ÷ 8.0; iron 0.1 ÷ 0.2; lead 2.0 ÷ 4.0; graphite 3.0 ÷ 7.0; vermiculite 8.0 ÷ 12.0; chrome 4.0 ÷ 6.0; antimony 0.05 ÷ 0.1; silicon 2.0 ÷ 3.0; copper - the rest; while the size of the fractions of the crumbs is greater than the gap between the piston 14 and the sleeve 15.

Combined vibration isolator with a mesh damper operates as follows.

With vibrations of the vibration-insulated object, the elastic rubber element 4 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, having constant stiffness in the axial and transverse directions, allows for equal strength and economy of rubber (elastomer).

Mesh damper works as follows.

When vibrations of a vibroinsulated object (not shown in the drawing) located on the upper pressure plate 12, the elastic mesh element 13 perceives both vertical and horizontal loads, thereby weakening the dynamic effect on the vibroisolated object, i.e. spatial vibration protection and shock protection are provided.

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. 286, fig. P.Y.8 (s).

2. Kochetov OS Textile vibroacoustics. Textbook for universities. M .: MSTU im. A.N. Kosygina, “Sovezh Bevo” group 2003. - 191 p.: P. 60, Fig. 3.2.

3. Sazhin B.S., Kochetov O.S., Sinev A.V., Khodakova T.D. Calculation on a PC of vibration isolation systems of equipment installed on a non-rigid foundation // Life safety. - 2002, No. 12, p. 22-28.

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 T.D. Vibration isolator mesh pendulum type // Patent for invention No. 2285841. Published on October 20, 2006. Bulletin of inventions No. 29.

6. Kochetov O.S., Kochetova M.O., Khodakova TD, Kochetov S.S., Kochetov Sergey Sergeevich. Vibration isolator mesh pendulum // Patent for invention №2285842. Published on October 20, 2006. Bulletin of inventions No. 29.

7. Kochetov O.S., Kochetova M.O., Khodakova T.D., Shesterninov A.V., Stareev M.E. Vibration isolator washer mesh // Patent for invention No. 2288388. Published on November 27th, 2006. Bulletin of inventions No. 33.

8. Kochetov O.S., Kochetova M.O., Khodakova T.D., Stareev M.E., Lvov G.V., Lvova N.A., Lvova Yu.G., Kulichenko A.V., Kochetov S.S., Kochetov Sergey Sergeevich. Vibration isolator // Patent for invention No. 2285840. Published on October 20, 2006. Bulletin of inventions No. 29.

9. Kochetov O.S., Kochetova M.O., Khodakova T.D., Kochetov S.S., Kochetov Sergey Sergeevich. Kochetovs vibration isolator // Patent for invention No. 2288385. Published on November 27th, 2006. Bulletin of inventions No. 33.

10. Kochetov O.S., Kochetova M.O., Khodakova TD, Kochetov S.S., Kochetov Sergey Sergeevich. Vibration isolator Kochetova // Patent for invention No. 2288386. Published on November 27th, 2006. Bulletin of inventions No. 33.

11. Kochetov O.S., Kochetova M.O., Khodakova T.D., Stareev M.E., Lvov G.V., Lvova N.A., Lvova Yu.G., Kulichenko A.V., Kochetov S.S., Kochetov Sergey Sergeevich. Vibration isolator spring mesh // Patent for invention No. 2285839. Published on October 20, 2006. Bulletin of inventions No. 29.

Claims (1)

A combined vibration isolator with a mesh damper, 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 a ring connecting the housing to the base by means of a peripheral undercut, and the profile of the lateral surfaces of the elastomer is made hyperbolic in in the form of a bar of equal resistance having constant stiffness in the axial and transverse directions, and the base of the mesh damper is made in the form of a plate with mounting holes mi, and the net elastic element is supported by the lower part on the base and fixed by the lower washer rigidly connected to the base, and the upper part is fixed by the upper pressure washer rigidly connected to the centrally located piston, covered with a gap by an axially located sleeve rigidly connected to the base, and between an elastomer, for example of polyurethane, is located at the bottom end of the piston and the bottom of the sleeve, the elastic mesh element is made of a combined mesh frame filled with an elastomer, for example polyurethane, and between the upper thrust washer, rigidly connected to the centrally located piston, and the sleeve for attaching the upper part of the vibration isolator, there are three intermediate vibration damping layers: the first layer is made of dispersed elastic damping material in which crumbs can be used, for example, the following materials: rubber, cork, foam , kapron, foamed polymer, as well as crumbs of solid vibration-damping materials, for example, such as agate, anti-vibrate, shvim plastic compounds with a size of fractions of crumbs of 1.5 ÷ 2.5 mm, W swarm layer - knitted from elastic filament, the mesh size of the elastic knitted synthetic yarn, for 10 ÷ 15% smaller size fractions crumb vibration-damping material; and the third layer is made of a continuous damping material, in which sponge rubber, needle-punched material of the type “Vibrosil” based on silica or alumino-borosilicate fiber, as well as a non-woven vibration-damping material, characterized in that a crumb from the bottom of the piston and the bottom of the sleeve are used, can be used sintered friction material based on copper containing zinc, iron, lead, graphite, vermiculite, copper, chromium, antimony and silicon, in the following ratio, wt.%:
zinc 6.0 ÷ 8.0; iron 0.1 ÷ 0.2; lead 2.0 ÷ 4.0; graphite 3.0 ÷ 7.0; vermiculite 8.0 ÷ 12.0; chrome 4.0 ÷ 6.0; antimony 0.05 ÷ 0.1; silicon 2.0 ÷ 3.0; copper - the rest; while the size of the fractions of the crumbs is greater than the gap between the piston and the sleeve.

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