RU2584323C2 - Vibration isolator with rope damper - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building. Vibration isolator comprises flat resilient and friction damping elements. Flat resilient elements are made as a package of arc-type resilient elements consisting of flat springs alternating in mutually perpendicular directions and resting against a base. Each flat spring consists of horizontal flange and two lateral flanges bent at angle 135° to horizontal flange and provided with thrust sections at ends. Damping element is a compound one and consists of a friction part and an elastic part. Friction part is made as bushes with flanges at ends and a section of a rope wound on bushes in a closed loop. Bushes are coupled with resilient elements by rivets. Elastic part is composed of resilient damping ring from elastomer embracing outside pigtail. Sleeves are made hollow from elastic material. Cavity between inner surfaces of sleeves and external surfaces of rivets are filled with vibration damping material, for example polyurethane. To friction parts of damping element is fixed plate of vibration dampening material, for example polyurethane.

EFFECT: higher efficiency of vibration isolation.

1 cl, 1 dwg

Description

The invention relates to mechanical engineering and can be used to protect technological equipment, apparatus and devices, as well as the human operator from exposure to vibration and shock loads.

The closest technical solution to the claimed object is a vibration isolator containing a base, spring elastic elements and support nodes according to the RF patent No. 2451849, F16F 3/08 (prototype).

The disadvantage of the known device is the relatively low efficiency of vibration isolation due to the relatively high stiffness of the springs and insufficient damping.

The technical result of the invention is improving the efficiency of vibration isolation.

This is achieved by the fact that in a vibration isolator with a cable damper containing flat elastic and frictional damping elements, the flat elastic elements are made in the form of a package of elastic elements of arch type in the form of a set of flat springs alternating in mutually perpendicular directions, resting on the base, each of the flat springs consists of a horizontal shelf and two side shelves, bent at an angle of 135 ° to the horizontal shelf and having supporting sections at the ends, and the damping element of the vibration isolator is made combi It consists of friction and elastic parts, and the friction part is made in the form of bushings located parallel to the axis of the vibration isolator with flanges at the ends and a cable segment, wound in a closed loop in a plane perpendicular to the axis of the vibration isolator, on the bushings that are connected to the elastic elements through rivets, and the elastic part is made in the form of an elastic damping ring, covering the outside of the cable, wound in a closed loop in a plane perpendicular to the axis of the vibration absorber, on the sleeve.

The drawing shows a frontal section of the proposed vibration isolator.

The vibration isolator with cable damper contains flat elastic elements 3 and 4, made in the form of a package of elastic elements of arch type in the form of a set of flat springs alternating in mutually perpendicular directions, resting on the base 11. Each of the flat springs 3 and 4 consists of a horizontal shelf and two side shelves bent at an angle of 135 ° to the horizontal shelf and having supporting sections 5 and 6 at the ends.

The damping element of the vibration isolator is combined and consists of friction and elastic parts, and the friction part is made in the form of bushings 7 and 8 parallel to the axis of the vibration isolator with flanges at the ends and a length of cable 9, wound along a closed path in a plane perpendicular to the axis of the vibration isolator, on the bushings 7 and 8, which are connected to the elastic elements by means of rivets 10, and the elastic part is made in the form of an elastic damping ring 12, covering the outside of a piece of cable, wound in a closed loop in loskosti perpendicular to the axis of the isolator on the sleeve.

As the material of the ring, an elastomer, for example rubber, polyurethane or a combined material, in the form of a rubber-cord casing is used.

The installation of the elastic part of the damping element of the vibration isolator is carried out in a static state with an interference fit on the friction part.

The vibration-insulated object is fixed (not shown in the drawing) to the vibration isolator using a bolt 1 with a nut 2.

A variant of a vibration isolator is possible when bushings 7 and 8 of the friction part located parallel to the axis of the vibration isolator, with flanges at the ends, and which are connected to the elastic elements by rivets 10, are made of hollow material, and cavities 13, between the inner surfaces of the bushings and the outer surfaces of the rivets, filled with vibration damping material, such as polyurethane.

A variant of a vibration isolator is possible when a plate 14 made of a vibration-damping material, for example polyurethane, is attached to the friction part of the damping element, to the surfaces of the rivets 10 from the side facing the base.

A variant of a vibration isolator is possible when the plate 14, which is attached to the surfaces of the rivets 10 from the side facing the base, is made of a combined layered vibration damping material, while layers made of soft vibration damping material, such as polyurethane, alternate with layers made of hard vibration damping material , such as "Agate".

A vibration isolator with a cable damper operates as follows.

When exposed to external loads, the elastic elements 3 and 4 are deformed in the axial and radial directions. The radial deformation of the elastic elements is accompanied by a change in the diameter of the centers of the rivets 10 and deformation in the radial directions of the friction damping element associated with the elastic elements through the bushings 7 and 8. In this case, all sections of the cable 9 located between the bushings 7 and 8 are bent, resulting in scattering part of the energy supplied to the vibration isolator due to the mutual friction between the wires and the strands of the cable 9, the friction of the cable 9 itself against the bushings 7 and 8 at significant contact pressures between the wires and the strand E and between the cable and the sleeves, which are caused to bend the cable bushings 7 and 8.

In addition, additional energy dissipation occurs as a result of the interaction of the elastically damping ring 12, covering the outside of the cable segment 9. The alternation of the mutual arrangement of the flat springs 3 and 4, constituting the elastic elements of the arch type, in mutually perpendicular directions provides a gap between the flat springs, which eliminates their mutual friction during deformation of an elastic element. Due to the functional separation of the structural units into elastic and damping elements, as well as the simplicity of their assembly, it is possible to quickly select the elastic-damping characteristics of the vibration isolator for specific operating conditions.

The proposed technical solution provides an increase in carrying capacity with a lower weight of the vibration isolator, simplification of the design, increase of the vibration-isolating qualities in the resonance frequency zone, the speed of selecting elastic-damping characteristics for specific operating conditions, as well as the possibility of increasing the vibration-proof qualities at resonance.

Claims (2)

1. A vibration isolator with a cable damper containing flat elastic and friction damping elements, flat elastic elements made in the form of a package of elastic elements of arch type in the form of a set of flat springs alternating in mutually perpendicular directions, resting on the base, each of the flat springs consisting of a horizontal shelf and two side shelves, bent at an angle of 135 ° to the horizontal shelf and having supporting sections at the ends, and the damping element of the vibration isolator is combined and consists of fr iktsionnoy and elastic parts, and the friction part is made in the form of bushings parallel to the axis of the vibration isolator with flanges at the ends and a piece of cable wound in a closed loop in a plane perpendicular to the axis of the vibration isolator, on the bushings that are connected to the elastic elements by rivets, and the elastic part is made in the form of an elastic damping ring, covering the outside of a piece of cable, wound in a closed loop in a plane perpendicular to the axis of the vibration isolator, on the bushings, while as a material used elastomer, for example rubber, polyurethane or a combined material, in the form of a rubber-cord casing, and the installation of the elastic part of the damping element of the vibration isolator is carried out in a static state with an interference fit on the friction part, characterized in that the sleeve of the friction part located parallel to the axis of the vibration isolator, with flanges at the ends, which are connected to the elastic elements by means of rivets, are made hollow from an elastic material, and the cavities between the inner surfaces of the bushings and the outer ones awns rivets filled vibration damping material, eg polyurethane, and a friction portion of the damping member, to the surfaces of the rivets on the side facing to the base plate is fastened vibration damping material such as polyurethane. 2. The vibration isolator according to claim 1, characterized in that the plate, which is attached to the surfaces of the rivets from the side facing the base, is made of a combined layered vibration damping material, while layers made of soft vibration damping material, such as polyurethane, alternate with layers, made of hard vibration damping material, for example, type "Agate".

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