RU2597057C2 - Kochetov vibration damping spring - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building. Vibration dampening spring comprises a casing made from a spiral hollow resilient steel tube. Additional resilient steel tube is installed inside the casing coaxially with a gap. Friction element is placed in the gap between the tubes having higher thermal expansion coefficient as compared to steel. Surfaces of the casing and the additional resilient steel tube touch the surfaces of the friction elements. Screw solid resilient pin is set coaxially to the casing. Friction element is tubular and made in the form of granulated fill from sintered friction copper-based material, which contains zinc, iron, lead, graphite, vermiculite, copper, chromium, antimony and silicon.

EFFECT: improved efficiency in resonant mode of vibration isolation.

1 cl, 1 dwg

Description

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

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

However, a significant height of the springs is required to reduce low-frequency vibrations.

It is known to use spring vibration isolators [5, 6] with a pendulum suspension, which use a suspension type vibration isolation system with a spring elastic element.

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 spring vibration isolator with dry friction [7], containing a spring, housing and dry friction damper, the housing is made in the form of a hollow vertical strut interacting with a T-shaped platform, elastically connected with a dry friction damper made in the form of a sleeve, the inner surface of which is through spring-loaded friction elements interact with the outer surface of the rack, and a spring is fixed on its outer surface, resting on the base of the rack, and between the interacting surfaces of the sleeve and the rack Buffer restriction element.

The disadvantage of this type of vibration isolators is the relatively low reliability in the resonant mode due to wear of the dry friction damper, which somewhat reduces the efficiency of vibration protection.

It is known the use of spring elements in vibration isolators [8], containing a housing that is made in the form of upper and lower rectangular plates, between which screw elastic elements of different stiffness are placed so that they form a closed loop around the perimeter of the lower plate, and screw elastic elements are made in the form a package consisting of coil springs of different stiffness and height.

The disadvantage of this type of vibration isolators is the ability to block screw elastic elements in packages, which can somewhat change their overall stiffness, and therefore the effectiveness of vibration protection.

It is known the use of spring elements in vibration isolators [9] with a variable damping structure, comprising a housing with a rod and piston placed in it, and a vibration-proof mass held by springs is fixed at the end of the rod, and the dry friction damper is made in the form of a friction sleeve with restrictive stops at the ends, moreover, the force of pressing the friction elements to the sleeve is carried out through the adjusting screws that are connected to the actuating servo motor, and the signal to turn on the servo motor comes from the micro a processor controlling the operation of a dry friction damper according to a given characteristic and associated with a vibration acceleration sensor.

The disadvantage of this type of vibration isolators is the high cost of the vibration protection system, which is not always justified because of their effectiveness of vibration protection.

Known spring vibration isolator with a pendulum suspension [10], containing a helical coil spring, the lower end of which rests on the upper flange of the housing and interacting with the pendulum mechanism, which is made in the form of a threaded rod with nuts at the ends and supporting washers based on rubber elastic elements that perform functions of the elastic hinge, with the upper rubber elastic element located between the upper spring flange and the support washer, and the lower - between the support washer and the plate on which the vibro is mounted zoliruemoe equipment.

A disadvantage of the known device is the relatively low efficiency at resonance due to the absence of vibration damping.

The closest technical solution to the claimed object is a spring vibration isolator according to.with. USSR No. 717438 [11] (prototype) made of a helical, hollow, and elastic steel tube, inside of which at least one additional elastic steel tube is coaxially and axisymmetrically installed with a gap, and at least one friction element is located in the gaps between the tubes, for example, polyethylene having a high coefficient of thermal expansion compared to steel, while the surfaces of the housing and the additional elastic steel tube are in contact with the surfaces of the friction elements, and their axes coincide t with the axis of the turns of the housing.

A disadvantage of the known device is the relatively low efficiency at resonance due to insufficient 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 vibration damping spring containing a housing made of a helical, hollow, and elastic steel tube, inside of which at least one additional elastic steel tube is coaxially and axisymmetrically installed with a gap, and at least one friction is located in the gaps between the tubes an element, for example, of polyethylene having a high coefficient of thermal expansion compared to steel, while the surfaces of the housing and the additional elastic steel tube are in contact with the surface NOSTA friction elements, and their axis coincides with the axis of the body turns, and a central, coaxial and rotationally symmetric body is a helical elastic rod made continuous, the friction elements are tubular, for example of polyethylene.

The drawing shows a diagram of a spring, a frontal section.

The vibration damping spring for spring vibration isolators comprises a housing 1 made of a helical, hollow, and elastic steel tube, inside of which at least one additional elastic steel tube 3 is coaxially and axisymmetrically mounted with a gap, and at least one friction element 2 is located in the gaps between the tubes , for example, from polyethylene having a high coefficient of thermal expansion compared to steel. The surfaces of the housing 1, the additional elastic steel tube 3 are in contact with the surfaces of the friction elements 2 and 4, and their axis coincides with the axis of the turns of the housing. Centrally, coaxially and axisymmetrically to the housing 1, there is a screw elastic rod 5, which can be made in the same way as the housing and additional elastic steel tubes hollow, as shown in the drawing, or solid (not shown in the drawing). Friction elements 2 and 4 can be made tubular as shown in the drawing, while having either a continuous structure, for example of polyethylene, as element 4, or combined, as element 2, for example, of polyethylene interspersed with granules of vibration-damping material. A variant is possible when the friction element is made in the form of a granular backfill from vibration damping material (not shown in the drawing).

A variant is possible when the screw elastic rod 5 is made in the form of a helical spring with a step less by 5 ÷ 10% of the step of the helical line of the housing 1, to create an interference fit that provides the functional purpose of the friction elements 2 and 4.

It is possible that the friction element is made in the form of a granular bed of sintered friction material based on copper, which contains zinc, iron, lead, graphite, vermiculite, copper, chromium, antimony and silicon in the following ratio of components, wt.%: Zinc 6, 0 ÷ 8.0; iron 0.1 ÷ 10.2; 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 is the rest.

Vibration damping spring for spring vibration isolators works as follows.

At low vibration amplitudes, when large attenuation is undesirable, the dissipated energy due to dry friction between the steel tube and the friction element will be small. At large amplitudes of vibrations, especially at resonances, damping increases due to the relative movement of steel tubes and the friction element. During long-term operation of the spring shock absorber with large amplitudes, the attenuation increases, since the friction element expands in a closed volume several times more than steel when the temperature rises, thereby increasing the pressure on the walls of the steel tubes, as a result of which dry friction increases and oscillations quickly stop .

Thus, due to its selective properties, the spring provides effective spatial vibration isolation of equipment in all six directions of vibration (along the three X.Y, Z axes and rotary vibrations around these axes) with vibration damping at resonance, and under various operating conditions.

Sources of Bibliography

1. Kochetov O.S., Sazhin B.S. Noise and vibration reduction in production: theory, calculation, technical solutions. - M.: MSTU. A.N. Kosygina, 2001 .-- 319 p.: P. 120, fig. 5.6; p. 287, fig. P.U. 15.

2. Kochetov OS Textile vibroacoustics. Textbook for universities. - M.: MSTU. A.N. Kosygina, the group "Sovezh Bevo" 2003. - 191 p. 3.1; p. 61, fig. 3.4a; fig. 3.5.

3. Kochetov OS Vibration isolators of type "VSK-1" for looms // Textile industry. - 2000, No. 5. S. 19 ... 20.

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. Spring vibration isolator with pendulum suspension // Patent for invention No. 2279589. Published on July 10th, 2006. Bulletin of inventions No. 19.

6. Kochetov O.S., Kochetova M.O., Khodakova TD, Shesterninov A.V. Vibration isolating system // Patent for invention No. 2279586. Published on July 10th, 2006. Bulletin of inventions No. 19.

7. Kochetov O.S., Kochetova M.O., Khodakova T.D., Shesterninov A.V., Stareev M.E. Spring vibration isolator with dry friction // Patent for invention No. 2282075. Posted on 08/20/06. Bulletin of inventions No. 23.

8. Kochetov O.S., Kochetova M.O., Khodakova TD, Shesterninov A.V. Vibration-proof pad // Patent for invention No. 2277650. Published on June 10th, 2006. Bulletin of inventions No. 16.

9. Kochetov O.S., Kochetova M.O., Shesterninov A.V., Zubova I.Yu. Vibration isolator with variable damping structure // Patent for invention No. 2303722. Posted on 07/27/07. Bulletin of inventions No. 21.

10. Kochetov O.S., Kochetova M.O., Khodakova T.D. Vibration isolator with pendulum suspension // Patent for invention No. 2269699. Posted on 02/10/06. Bulletin of inventions No. 4.

11. Mironov E.M. Spring shock absorber // USSR copyright certificate for invention No. 717438, class. F16F 9/30. Published 02/25/1980. Bulletin of inventions No. 7.

Claims (1)

A vibration damper spring comprising a housing made of a hollow and hollow elastic steel tube, inside of which at least one additional elastic steel tube is coaxially and axisymmetrically installed with a gap, and at least one friction element with a high coefficient of thermal expansion is located in the gaps between the tubes compared with steel, while the surface of the housing and the additional elastic steel tube are in contact with the surfaces of the friction elements, and their axes coincide with a set of turns of the case, while the screw elastic rod is made centrally coaxial and axisymmetric to the case, made solid, characterized in that the friction element is made in the form of a granular backfill of sintered friction material based on copper, which contains zinc, iron, lead, graphite, vermiculite, copper, chromium, antimony and silicon in 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 is the rest.

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