RU2581236C1 - Kochetov combined vibration isolator - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building. Vibration isolator includes a housing and interconnected elastic elements. In housing are mounted in series resilient annular member and equifrequent disc-shaped element, which are fixed on inner diameter on rod arranged coaxially relative to housing. On outer diameter of resilient annular member is fixed on inner surface of housing. Housing can be fitted with series-arranged multiple resilient annular members. Spacing of resilient annular members can be either constant or variable. Disc-shaped equifrequent element is fixed on its housing base.

EFFECT: improved efficiency in the resonant mode of vibration isolation.

1 cl, 3 dwg

Description

The invention relates to mechanical engineering, instrumentation and can be used for vibration isolation of technological equipment, machine tools, devices.

It is known the use of plate-shaped elastic elements for vibration isolation of technological equipment in the textile industry [1, 2, 3]. The calculations show the high efficiency of the plate-type 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 dish-type element is low.

It is known to use plate-type vibration isolators [4, 5] with a pendulum suspension, in which a package of elastic disk elements is used, consisting of series-connected blocks of disk-shaped elastic elements, with each block of disk-shaped elastic elements made in the form of two coaxially located disk springs, upper and lower connected by inner and outer diameter using coaxially arranged T-shaped rings.

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 isolator with ring disk springs [6], containing a housing in the form of a base with a cover, and elastic elements in the form of at least two disk ring springs, each of which consists of upper and lower elastic rings connected by elastic plates, and fixed in the housing through elastic bushings made of elastomer, installed between the base, the lower rings of the springs and the cover.

Known plate vibration isolator [7], comprising a housing including a base with a lid, and a package of disk-shaped elastic elements placed therein, which consists of series-connected disk-shaped elastic elements, the inner surface of which interacts with a coaxially located sleeve, one end of which is rigidly fixed to the base, and the other interacts with the inner surface of the lid, made in the form of an inverted glass, the end part of which interacts with a plate elastic elements, p There is a gap between the end of the sleeve and the bottom of the cover.

The disadvantage of this type of vibration isolators is the “snapping” of the elastic elements in the opposite direction, i.e. passing at a certain load through zero rigidity, which somewhat reduces the effectiveness of vibration protection.

It is known to use plate-type vibration isolators [8, 9], consisting of series-connected blocks of disk-shaped elastic elements, while the block of disk-shaped elastic elements is made in the form of two coaxially located disk springs, upper and lower, connected by an inner and outer diameter using coaxially arranged rings T-shaped profile.

The disadvantage of this type of vibration isolators is the possibility of blocking plate-shaped elastic elements in packages of T-shaped rings, which can somewhat change their overall stiffness, and therefore the effectiveness of vibration protection.

The closest technical solution to the claimed object is an elastic plate-type element according to the patent of the Russian Federation No. 2285836, F16F 1/32, 10/20/2006 [10] (prototype), containing a plate-shaped elastic surface in the form of a truncated cone, on the surface of which is made in a plane parallel to the bases of the truncated cone, two through grooves with the formation of two truncated conical surfaces connected by two or three ribs directed along the lines forming the conical surface.

A disadvantage of the known device is the relatively low efficiency at resonance due to the absence 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 the combined vibration damper comprising the housing and interconnected elastic elements, an elastic ring element and a dish-shaped equal-frequency element are sequentially installed in the housing, which are fixed by the inner diameter on the rod coaxially located with the housing and the elastic ring element by the outer diameter respectively the inner surface of the housing, and a dish-shaped element of equal frequency on its base.

In FIG. 1 shows a general diagram of a vibration isolator, and FIG. 2 - an annular elastic element, in FIG. 3 - dish-shaped equal-frequency element.

The combined vibration isolator comprises a housing 12, in which an elastic ring element and a dish-shaped equal-frequency element are successively mounted, which are fixed by the inner diameter on the rod 13 coaxially located with the housing, and by the elastic ring element on the inner surface of the housing 12, respectively, and the dish-shaped equal-frequency element on it base 16.

The vibration isolator combined contains a housing 12 made in the form of a cylindrical shell with a groove 14 on the inner surface and the base 17 with a central hole. The groove 14 serves to fix the outer ring 1 of the elastic spring element, and a coaxially located cylindrical rod 13 with the groove 15 to fix the inner ring 2 of the elastic spring element with a central hole 5 (Fig. 1). In the housing 12, several (two or more) elastic spring elements can be sequentially installed. In this case, the number of grooves 14 corresponding to this number of elastic spring elements will be made in the case 12, and the corresponding number of grooves 15 in the rod 13 will be made, and the location step of the elastic spring elements can be either constant or variable, for example, increasing from the first elastic spring element to the latter, located closer to the supporting surface of the housing 12 (not shown in the drawing).

The elastic ring element (Fig. 2) contains at least two elastic coaxially located rings, external 1 and internal 2, with a Central hole 5, rigidly interconnected by at least two symmetric elastic diametrically located elements 3 and 4 with a through central groove 6 and 7, symmetrically located inside the element, and the side surfaces of the groove are mated at the ends with cylindrical surfaces formed by through holes 8, 9, 10, 11, respectively, located on the outer 1 and interior 2 rings. The lateral surfaces of the central groove can be made inclined with respect to the axis of the elastic elements (not shown in the drawing). Elements connecting the outer and inner rings are fixed to them by rivets of at least one from each end of the plate (rectangular profile) or a round rod (square section). Coaxially arranged rings, outer 1 and inner 2, form an annular gap “S” between themselves. Elements 3 and 4, connecting the outer and inner rings, can also be fixed to them by welding, for example contact, or fastening threaded elements, or as an adhesive joint.

The cavities formed by the outer 1 and inner 2 elastic coaxially arranged rings and diametrically located elements 3 and 4 are filled with an elastic-damping mesh element 33 made of a reinforced mesh frame filled with an elastomer, for example polyurethane.

The dish-shaped equal-frequency element (Fig. 3) contains at least two elastic rings located axially symmetrically and in parallel planes, an external 18 and an internal 19 rigidly connected to each other by means of at least two symmetric elastic diametrically arranged elements 20 and 21 with a through central a groove 22 and 23, symmetrically located inside the element. The lateral surfaces of the groove are mated at the ends with the surfaces formed by the through holes 24, 25, 26, 27, respectively, located on the outer 18 and inner 19 rings. Elements 20 and 21 connecting the outer and inner rings have bending lines 28, 29, 30, 31 and can also be fixed to them by welding, for example, contact, or fastening threaded elements, or as an adhesive joint.

The cavities formed by the outer 18 and inner 19 elastic rings arranged axisymmetrically and in parallel planes are filled with an elastic-damping mesh element 32 made of a reinforced mesh frame filled with an elastomer, for example polyurethane.

The density of the mesh structure of the elastic damping mesh element 32 is 1.5 times higher than the density of the mesh structure of the mesh elements 33.

A variant is possible (not shown in the drawing) when three intermediate vibration-damping layers are located between the lower surface of the dish-shaped equal-frequency element and the base 16 of the housing 12: the first layer of dispersed elastic-damping material, in which crumbs can be used, for example, the following materials: rubber, cork, polystyrene foam, kapron, foamed polymer, as well as crumbs of solid vibration-damping materials, for example, such as plastic compounds such as Agate, Anti-Vibrate, Shvim with a size of fractions of crumbs of 1.5 ÷ 2.5 mm, the second loi - 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 non-woven vibration-damping material can be used.

A variant is possible (not shown in the drawing) when between the lower surface of the outer ring 1 of the elastic spring element and the lower surface of the groove 14 on the inner surface of the housing 12 there is an intermediate vibration-damping layer of dispersed elastic-damping material, in which crumbs can be used, for example, of the following materials: rubber, cork, polystyrene foam, kapron, foamed polymer, as well as crumbs of solid vibration-damping materials, such as plastic compound such as Agate, Anti-Vibrate, Shvim erom fractions crumb 1.5 ÷ 2.5 mm.

The vibration isolator combined works as follows.

When vibrations of a vibroinsulated object mounted on the rod 13, connected to the inner ring 2 of the elastic spring element and resting on the dish-shaped equal-frequency element, provides spatial vibration protection of the object and protection against impacts relative to the supporting surface of the housing 12. Damping in the system is carried out due to the elastic-damping mesh elements 32 and 33, made reinforced from a mesh frame, filled with an elastomer, for example polyurethane.

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 s: p. 197, fig. 5.65.

2. Kochetov OS Calculation method of plate vibration isolators for looms // Izv. universities. Technology of the textile industry - 2000, No. 4. S. 98 ... 104.

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

4. Kochetov O.S., Kochetova M.O., Khodakova T.D., Shesterninov A.V. Dish vibration absorber with pendulum suspension // Patent for invention No. 2279580. Published on July 10th, 2006. Bulletin of inventions No. 19.

5. Kochetov O.S., Kochetova M.O., Khodakova T.D. Dish vibrator with pendulum suspension // Patent for invention No. 2287727. Published on November 20, 2006. Bulletin of inventions No. 32.

6. Kochetov O.S., Kochetova M.O., Khodakova T.D. Vibration isolator Kochetov with ring cup springs // Patent for invention No. 2285834. Published on October 20, 2006. Bulletin of inventions No. 29.

7. Kochetov O.S., Kochetova M.O., Khodakova TD, Kochetov S.S., Kochetov Sergey Sergeevich. Domed vibration isolator Kochetov // Invention patent No. 2285835. Published on October 20, 2006. Bulletin of inventions No. 29.

8. Kochetov O.S., Kochetova M.O., Khodakova TD, Stareev M.E., Kochetov S.S., Kochetov Sergey Sergeevich. Vibration isolator Kochetova plate type // Patent for invention No. 2293228. Published 02/10/07. Bulletin of inventions No. 4.

9. Kochetov O.S., Kochetova M.O., Khodakova T.D., Shesterninov A.V., Stareev M.E. Plate type vibration isolator // Patent for invention No. 2285838. Published on October 20, 2006. Bulletin of inventions No. 29.

10. Kochetov O.S., Kochetova M.O., Khodakova T.D. The elastic element of the plate type // Patent for the invention No. 2285836. Published on October 20, 2006. Bulletin of inventions No. 29.

Claims (1)

A combined vibration isolator comprising a housing and interconnected elastic elements, an elastic ring element and a dish-shaped equal-frequency element are sequentially installed in the housing, which are fixed by the inner diameter on the rod coaxially located with the housing, and by the elastic ring element on the inner surface of the housing, and the disk an equal-frequency element on its base, the body is made in the form of a cylindrical shell with a groove for fixing the outer ring of the elastic ring of the element, and a coaxially located cylindrical rod with a groove for fixing the inner ring of the elastic ring element, which is made in the form of at least two elastic coaxially arranged rings, external and internal, rigidly interconnected by at least two symmetrical elastic diametrically located elements with through the Central groove symmetrically located inside the element, and the side surfaces of the groove are mated at the ends with cylindrical surfaces, about developed through holes, respectively located on the outer and inner rings, several elastic ring elements can be sequentially installed in the housing, and the spacing of the elastic ring elements can be either constant or variable, for example, increasing from the first elastic ring element to the last, located closer to the supporting surface of the housing, and the dish-shaped element of equal frequency contains at least two elastic located axisymmetrically and in parallel planes bones of the ring, external and internal, rigidly interconnected by means of at least two symmetric elastic diametrically located elements with a through central groove symmetrically located inside the element, and the elements connecting the outer and inner rings have bending lines and can be fixed to the rings by welding, for example, contact, or fastening threaded elements, or as an adhesive connection, while the cavities formed by the external and internal elastic coaxially located to rings and diametrically located elements of the elastic ring elements are filled with an elastic-damping mesh element made of a mesh frame filled with an elastomer, for example polyurethane, as well as cavities formed by external and internal elastic, axially symmetrical ring-shaped rings located parallel to the axes and parallel to the planes, filled with elastic an element made of a mesh frame reinforced with an elastomer, for example polyurethane, and between the bottom surface of the dish-shaped equal-frequency element and the base of the housing are three intermediate vibration-damping layers: the first layer of dispersed elastic-damping material, in which crumbs can be used, for example, the following materials: rubber, cork, foam, capron, foamed polymer, as well as crumbs of solid vibration-damping materials , for example, such as plastic compound of the type “Agate”, “Anti-vibration”, “Shvim” with the size of fractions of crumbs 1.5 ÷ 2.5 mm, the second layer of knitted elastic synthetic fibers, and ep cells crocheted from elastic filament by 10 ÷ 15% smaller size fractions crumb vibration-damping material; and a third layer of continuous damping material, in which sponge rubber, needle-type material “Vibrosil” based on silica or alumino-borosilicate fiber, as well as non-woven vibration damping material, characterized in that between the lower surface of the outer ring of the elastic ring element and the lower surface, can be used grooves on the inner surface of the housing is an intermediate vibration damping layer of dispersed elastic damping material, in which crumb can be used and, for example, the following materials: rubber, cork, polystyrene foam, kapron, foamed polymer, as well as crumbs of solid vibration-damping materials, such as plastic compounds such as Agate, Anti-Vibrate, Shvim, with a size of fractions of crumbs of 1.5 ÷ 2.5 mm.

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