RU33626U1 - Elastic Damping Device - Google Patents

Abstract

1. Elastic-damping device containing an elastic element made in cross section in the form of a sleeve with an annular groove installed in the body of the object, a sleeve placed in the elastic element fixing its fastening element, characterized in that the outer side surface of the elastic element is made curved, for example, barrel-shaped and the sleeve is made with flanges of various diameters, the smaller of which is in contact with the base and its inner end surface is not parallel to the outer, while the diameter of the sleeve is pain e diameter mating with it a resilient member aperture, and the height of the annular groove formed by the flanges is less than the height of the elastic elementa.2. The device according to claim 1, characterized in that the inner end surface of the smaller diameter flange is made in the form of a truncated cone, and the outer one has corrugation. The device according to claim 1, characterized in that the diameter of the larger flange may be equal to or greater than the diameter of the end face of the elastic element.

Description

   ° М1ЖР16Р 13/00, 3/00

Elastic Damping Device

The utility model relates to mechanical engineering, in particular to means for reducing vibration.

Unrug-damping device (RF patent No. 2044192, IPC F 16F 13/00, 1995) containing an elastic ring element made in the form of an oval with axes located at an angle to the longitudinal axis passed through the elastic ring element of the core is known from the prior art. made with the possibility of connection with one of the objects located in contact with the narrow part of the elastic element, enclosing the elastic element of the housing, made with the possibility of fixing on another object and having a bottom with a recess opposite the core.

A disadvantage of the known technical solution is the possibility of subsidence of the elastic ring element during exposure to operational loads and the impossibility of returning it to its original position, as well as the impact between the core and the bottom of the housing.

A device is known (RF patent No. 2098687, IPC F 16F 3/08, 01 D 29/00 1996), containing a conical ring made in the shape of an oval and having a sprung or unsprung object of a contact zone, the central circles of which are located at different distances relative to the central axis of the cone-shaped ring. The elastic hinge-centering device contains two cone-shaped rings facing each other with smaller bases in contact with a movable element connected to one of the objects, the contact zones of the cone-shaped rings with the object of the same name being obliquely symmetrical with respect to the central

longitudinal axis. The elastic centering device differs from the elastic hinge-centering device in the arrangement of conical rings to each other with large bases.

A disadvantage of the known technical solution is the difficulty of replacing the elastic elements during operation due to the complexity of installation and dismantling.

The closest in technical dryness and achieved results to the claimed solution is a device (VB Karpushin. Vibrations and shocks in radio equipment, M., Sovetskoe Radio, 1971, p. 283 (prototype)), containing an elastic element made in cross section in the form of a sleeve with an annular groove mounted in the body of the object.

A sleeve with a flange is placed in the elastic element. The outer diameter of the sleeve is less than the inner diameter of the elastic element. The elastic element is installed in the body of the object with the subsequent installation of the sleeve with the flange and its expansion for mounting the supporting washer.

A pin passes through the sleeve, screwed into the base with a nut on the other end of the pin, fixing the object to the base.

The disadvantages of this device are.

Low efficiency of using the elastic element with alternating alternating loads due to the gap between the sleeve and the elastic element.

The difficulty of replacing the elastic element during operation due to the complexity of dismantling and installation.

The inability to reuse the sleeve when replacing the elastic element.

The technical result of the utility model is aimed at reducing the complexity of mounting and dismounting an elastic damping device during operation and optimizing the loads acting on it.

The technical result is achieved due to the fact that the elastic damping device comprises an elastic element made in cross section in the form of a sleeve with an annular groove installed in the body of the object, a sleeve placed in the elastic element that fixes its fastening element. In addition, the outer side surface of the elastic element is made curved, for example, barrel-shaped, and the sleeve is made with flanges of various diameters. The smaller flange contacts the base and its inner end surface is not parallel to the outer. The diameter of the sleeve is larger than the diameter of the hole of the elastic element mating with it. The height of the annular groove formed by the flanges is less than the height of the elastic element.

The inner end surface of the flange of a smaller diameter can be made in the form of a truncated cone, and the outer has a corrugation.

The diameter of the larger flange may be equal to or greater than the diameter of the end face of the elastic element.

Distinctive features of the prototype is that, the outer side surface of the elastic element is made curved, for example, barrel-shaped, and the sleeve is made with flanges of various diameters. The smaller flange contacts the base and its inner end surface is not parallel to the outer. The diameter of the sleeve is larger than the diameter of the hole of the elastic element mating with it. The height of the annular groove formed by the flanges is less than the height of the elastic element.

The inner end surface of the flange of a smaller diameter can be made in the form of a truncated cone, and the outer has a corrugation.

The diameter of the larger flange may be equal to or greater than the diameter of the end face of the elastic element.

This technical solution reduces the complexity of mounting and dismounting the elastic damping device during operation and optimizes the loads acting on it.

The essence of the utility model is illustrated by drawings.

In FIG. 1 shows a General view of the device; figure 2 is a view of the housing with the installed elastic element and the sleeve; Fig. 3 is a view of an elastic element; figure 4 is a view of the sleeve.

The elastic damping device (FIG) contains an elastic element 1, a housing 2, a sleeve 3, a fastening element 4, a base 5.

The elastic element 1 (Fig. 1, 2, 3) is made in the form of a sleeve with an inner hole 6, an outer barrel-shaped surface 7 with a symmetrical annular groove and is placed in the groove of the housing 2, interacting with the annular groove 8 with the annular protrusion 9 of the housing.

The sleeve 3 (figure 1, 4) is made with flanges 10, 11 of different diameters in this case: where: D - the diameter of the smaller flange of the sleeve;

d is the diameter of the inner hole of the elastic element.

The diameter of the large flange D1 and the diameter dl of the end face of the elastic element is determined by the ratio:

where: D1 is the diameter of the larger flange of the sleeve; dl is the diameter of the end face of the elastic element.

Reflection is made on the outer end surface of the flange 10 (Figs. 1, 2, 4) in contact with the base 5, and the inner end surface 15 is not parallel to the outer and is made in the form of a truncated cone. Flanges 10, 11 (Fig. 4) of the sleeve 3 form an annular

D / d 1.25

D1 dl

a groove 14, the diameter of which is larger than the hole 6 of the elastic element 1 mating with it (Fig. 2, 3,4} and is determined by the ratio: where: B is the diameter of the annular groove 14.

The height h of the annular groove 14 is less than the height H of the elastic element 1 and is determined by the ratio: The device is used as follows.

In the bore 15 of the housing 2 (figure 2) we install the elastic element 1 by compressing the barrel-shaped surface 7, ensuring the diameter of the inlet part of the element 1 is equal to the inner diameter of the annular protrusion 9 of the housing 2, and the installed elastic element 1 is fixed by the protrusion 9. The symmetry of the annular groove 8 eliminates the need special orientation of the elastic element 1 during installation.

,9

H / h 1,2

Claims (3)

1. Elastic-damping device containing an elastic element made in cross section in the form of a sleeve with an annular groove installed in the body of the object, a sleeve placed in the elastic element fixing its fastening element, characterized in that the outer side surface of the elastic element is made curved, for example, barrel-shaped and the sleeve is made with flanges of various diameters, the smaller of which is in contact with the base and its inner end surface is not parallel to the outer, while the diameter of the sleeve is pain e diameter mating with it a resilient member aperture, and the height of the annular groove formed by the flanges is less than the height of the elastic member. 2. The device according to claim 1, characterized in that the inner end surface of the flange of a smaller diameter is made in the form of a truncated cone, and the outer one has corrugation. 3. The device according to claim 1, characterized in that the diameter of the larger flange may be equal to or greater than the diameter of the end face of the elastic element.