SU1732071A1 - Flexible-damping assembly - Google Patents

Abstract

Usage: mechanical engineering, to protect components from impacts. SUMMARY OF THE INVENTION: The assembly is provided with a rack rigidly connected to the housing for interaction with the side surface of the control / roro element. The gasket is installed with a radial clearance relative to the rack and with an axial gap between the collar and the stop. 2 Il.

Description

The invention relates to mechanical engineering and can be used to protect components and blocks of electronic equipment from vibrations and shocks.

Elastic-damping assemblies are known, comprising an insert mounted in the housing and axially spring-loaded with a stop at its outer end for communication with the object to be protected.

The drawbacks of these devices are the essentially small amount of damping, resulting in significant resonant overloads, as well as the absence of elastic restoring force when operating in the horizontal direction, leading to a decrease in the reliability and efficiency of vibration isolation.

Also known is an elastic-damping unit containing an axially spring-loaded liner in the housing, interconnected by a side surface with a toroidal friction element.

The drawbacks of the device are the reduced damping capacity when operating in the horizontal direction, as well as increased dimensions, which do not allow the device to be used to protect the small-sized radioelectronic equipment from mechanical effects.

Closest to the invention is an elastic-damping unit, comprising a housing with a flange facing inward, having a central opening, installed in the last insert with stops at the ends, a gasket with a shoulder installed on the flange, and an elastic element placed between the gasket, the shoulder and one of stops.

The interrelation of the friction gasket and liner only by means of an elastic element leads to the fact that there is no friction in the device in the initial part of the deformation. Thus, when operating in any direction, the device has a reduced damping capacity.

The lack of friction on the initial part of the deformation leads to a decrease in resistance to torsional vibrations when the liner turns relative to the body.

The lack of increased frictional force when the device deforms in the horizontal direction leads to

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damping ability and reducing vibro-impact protection properties with increased horizontal displacements of the insert relative to the body. The absence of an elastic restoring force in the device when the liner is displaced in the horizontal direction leads to shock-related overloads, a decrease in the stability of the work in the horizontal direction and, consequently, a decrease in the quality of protection against mechanical effects.

The aim of the invention is to increase damping.

The essence of the invention is that the elastic-damping unit, comprising a housing with a flange facing inward, having a central opening, installed in the last insert with stops at the ends, a gasket with a shoulder mounted on the flange and an elastic element, is provided with a rack rigidly connected with the housing to interact with the side surface of the elastic element, the gasket is installed with a radial clearance relative to the stand and with an axial clearance between the shoulder and the stop.

Increasing the damping capacity is achieved by ensuring the operation of friction forces on any part of the device's deformation during its operation in any direction, by ensuring the increase of friction forces when the device is operated in a horizontal direction, and also by increasing the resistance to torsional vibrations of the liner relative to the body and ensuring elastic restoring force when operating in the horizontal direction due to the fact that the elastic-damping unit is equipped with a rack rigidly connected to the body for Procedure with the side surface of the elastic member, the gasket mounted with radial clearance relative to the column, and an axial gap between the shoulder and the abutment.

FIG. 1 shows an elastic-damping unit, an axial section; in fig. 2 - gasket plan.

Elastic damping node includes a housing 1 with a flange 2 facing inward, having a central hole installed in the last insert 3 with stops 4 and 5 at the ends, a gasket 6 with a shoulder 7 mounted on the flange 2, and an elastic element 8 placed between the gasket b, collet 7 and one of the stops 4 and 5. A support 9 is rigidly connected with the housing 1 to interact with the lateral surface of the elastic element 8. The gasket 6 is installed with

radial clearance 10 relative to the rack 9 and with an axial gap 11 between the collar 7 and the stop 4.

The node works as follows.

When axial oscillations occur in the liner 3 relative to the housing 1, the liner 3 moves with friction against the shoulder 7, ensuring the dissipation of the oscillation energy. Friction is realized due to the pressing of the collar 7 to the liner 3 with the help of an elastic element 8. This preload is provided by making the gasket 6 out of its component parts with gaps relative to each other. The elastic restoring force is provided by the element 8. At the same time, the axial compression of the element 8 due to the fact that it is enclosed between the shoulder 7 and the pillar 9, leads to an increase in the elastic force of the element 8 in the horizontal direction. This ensures an increase in pressing the collar 7 to the liner 3 and, consequently, an increase in friction force. With horizontal oscillations of the liner 3 relative to the housing 1, the liner 3 moves with friction the gasket 6 within the gap 10 along the surface of the flange 2, damped vibrations due to the work of friction forces. The elastic restoring force is provided in this direction by the element 8. In this case, the horizontal compression of the element 8 due to the fact that its vertical deformation is limited by the stop 4 and the gasket 6 leads to an increase in the elastic force of the element 8 in the vertical direction (perpendicular to the plane of the gasket 6). This achieves an increase in pressing the gasket 6 to the surface of the flange 2 and, consequently, an increase in the frictional force with increasing horizontal displacement of the liner 3 relative to the housing 1.

The presence of friction in the initial part of the device deformation, as well as the increase in friction with increasing displacement of the liner 3 relative to the housing 1, provide the moment of frictional forces that prevents rotation of the liner 3 relative to the housing 1. Thus, increasing the resistance to torsional vibrations and the stability of the friction forces impact.

The elastic restoring force of the elements 8 in the horizontal direction prevents the selection of the radial gaps between the liner 3 and the flange 2. and between the gasket 6 and the pillar 9. This ensures the elimination of shock overloads when the liner 3 moves relative to the housing 1.

The design of the elastic-damping unit allows one to increase the damping properties by ensuring the operation of the friction pairs from the initial moment of movement of the liner 3 relative to the body 1 in any direction, as well as by ensuring the increase in friction forces with increased vibration amplitudes.

Due to the presence of an elastic restoring force in the horizontal direction, as well as an increase in the moment of resistance to rotation of the liner 3 relative to the housing 1 in the device, the stability and stability of oscillations in any direction are increased, as well as the exclusion of shock loads.

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Claims (1)

Claims of the invention: The elastic-damping unit comprising a housing with a flange facing inwards, having a central opening, installed in the last insert with stops on the ends, a gasket with a shoulder installed on the flange, and an elastic element placed between the gasket, the shoulder and one of the stops, differing in that, in order to increase the damping, the assembly is provided with a support rigidly connected to the housing to interact with the lateral surface of the elastic element, the gasket is installed with a radial clearance relative to the support and with the axes the gap between the collar and the abutment. eight 7 3 and %