RU2534097C1 - Isolation pad (versions) - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: isolation pad comprises resilient element of flat springs , each being provided with central horizontal part and lateral flange with thrust section at its end. In compliance with first and second version, each of said spring is composed of six symmetric flanges made integral with central part. Planes of bends of adjacent lateral flanges are directed upward and downward relative to spring central part plane. Damping elements of damping material are arranged between said springs and, in compliance with first version, composed of washers and, in compliance with second version, composed of liners. In compliance with third version, each of said spring is composed of two symmetric flanges made integral with central part. Damping elements composed of damping liners are arranged between said springs.

EFFECT: lower labour input, higher efficiency of damping.

3 cl, 6 dwg

Description

The group of inventions relates to mechanical engineering and can be used to protect technological equipment, apparatus and devices from vibration and shock loads.

Known vibration mount containing elastic elements formed by a package of flat springs of arched type, alternating in mutually perpendicular directions, and damping elements. Each of the flat springs contains a central horizontal part and two side flanges, made integral with the central horizontal part, bent at an angle of 135 ° to the central horizontal part and having supporting sections at the ends. The damping element is made friction in the form of rivets arranged parallel to the axis, made of friction material and connecting flat springs interacting with the base (patent RU 2295071, IPC F16F 7/08 (2006.01), F16F 3/00 (2006.01)).

A disadvantage of the known device is the increased complexity of manufacturing, due to the fact that each flat spring has its own individual dimensions and requires different devices for their production.

The closest technical solution to the claimed objects in terms of technical nature and the achieved result (prototype) is a spring-type vibration mount containing a mounting unit, elastic elements, of flat springs, each of which is equipped with a central horizontal part and a side shelf made integral with the central horizontal part, bent to an angle greater than 90 ° with respect to the central horizontal part and having a supporting portion at the end. The mounting block consists of three plates. Elastic elements are located below and above the fastener. In each elastic element located below or above, one of the ends of at least three flat springs is fixed between two plates, and the other ends are connected using an annular bend on the supporting sections of the flat springs with friction shoes made in the form of U-shaped struts, rigidly connected with the base of the shoes. The axes of the U-shaped shoe racks are covered with a layer of friction material, and friction pads are attached to the shoe base on the surface side in contact with the mounting plane. Thus, the spring consists of two parts formed by the flat springs of the elastic element, one of the ends of each of which is fixed between the two plates (patent RU 2293231, IPC F16F 7/08 (2006.01), F16F 3/02 (2006.01)).

The main disadvantage of the described device is the increased complexity of manufacturing due to the need for the production of springs, consisting of two parts, and the low efficiency of vibration isolation due to the relatively high stiffness of these springs.

The present invention solves the problem of reducing the complexity of manufacturing the device and increasing the efficiency of vibration isolation.

The problem is solved in that in the vibration mount according to the first embodiment, containing an elastic element of flat springs, each of which is equipped with a central horizontal part and a side shelf, made integral with the central horizontal part, bent at an angle greater than 90 °, relative to the central horizontal part and having a supporting section at the end, according to the invention, each of the springs of the elastic element formed by a package of flat springs is made in the form of at least six symmetrically located side strips to integral with the central horizontal part, and the plane of the bends of the adjacent side shelves located up and down relative to the plane of the central part of the spring. Between the springs there are damping elements made in the form of washers from vibration-absorbing material. Moreover, the number of springs in the package, their thickness, length and width of the shelves along the upper and lower tiers, as well as the bending angle, are selected based on the operational requirements for the vibration mount.

The problem is solved in that in the vibration mount according to the second embodiment, comprising an elastic element of flat springs, each of which is equipped with a central horizontal part and a side shelf, made integral with the central horizontal part, bent at an angle greater than 90 °, relative to the central horizontal part and having a supporting section at the end, according to the invention, each of the springs of the elastic element formed by a package of flat springs is made in the form of at least six symmetrically located side strips to integral with the central horizontal part, and the plane of the bends of the adjacent side shelves located up and down relative to the plane of the central part of the spring. Between the springs there are damping elements made in the form of gaskets made of vibration-absorbing material. Moreover, the number of springs in the package, their thickness, length and width of the shelves along the upper and lower tiers, as well as the bending angle, are selected based on the operational requirements for the vibration mount.

The problem is solved in that in the vibration mount according to the third embodiment, containing an elastic element of flat springs, each of which is equipped with a central horizontal part and a side shelf, made integral with the central horizontal part, bent at an angle greater than 90 °, relative to the central horizontal part and having a supporting section at the end, according to the invention, each of the springs of the elastic element formed by a package of flat springs is made in the form of at least two symmetrically located side strips to at the same time with the central horizontal part. Between the springs there are damping elements made in the form of gaskets made of vibration-absorbing material.

The implementation of a flat spring as a single element simplifies the design and, accordingly, reduces the complexity of manufacturing vibration mounts, and varying the number and thickness of the flat springs in the elastic element, as well as the lengths of the shelves, makes it possible to provide the necessary operational characteristics of the vibration mounts in general and increase the efficiency of vibration isolation.

The invention is illustrated by drawings, where figure 1 shows the design of the vibration mount according to the first embodiment, top view; figure 2 is the same as in figure 1, a cross section; figure 3 presents the design of the vibration mount according to the second embodiment, top view; figure 4 is the same as in figure 3, a cross section; figure 5 presents the design of the vibration mount according to the third embodiment, a top view; figure 6 is the same as in figure 5, a cross section.

The vibration mount according to the first embodiment comprises an elastic element formed by a pack of flat springs 1. Each of the springs 1 is provided with a central horizontal part made integrally with symmetrically located side shelves bent at an angle greater than 90 ° with respect to the central horizontal part. The number of side shelves is at least six. The limb plane of the adjacent side shelves, shelves 2 and 3 with supporting sections 4 and 5 at the ends, face up and down relative to the plane of the central part of the spring 1 (Fig.1, 2). Between the springs 1 there are damping elements made in the form of washers 6 of vibration-absorbing material, for example rubber. The height of the washers 6 is selected based on ensuring tight contact of the side surfaces of the shelves with each other. The number of springs 1 in the package, their thickness, length and width of the shelves along the upper and lower tiers, as well as the angle of bending, are selected based on the operational requirements for the vibration mount.

The vibro-support according to the second embodiment contains an elastic element formed by a pack of flat springs 7. Each of the springs 7 is provided with a central horizontal part made integrally with symmetrically located side shelves bent at an angle greater than 90 ° with respect to the central horizontal part. The number of side shelves is at least six. The limb plane of the adjacent side shelves, shelves 8 and 9 with supporting sections 4 and 5 at the ends, face up and down relative to the plane of the central part of the spring 7 (Fig. 3, 4). Between the springs 7 there are damping elements made in the form of gaskets 10 of vibration-absorbing material, for example rubber. The lower tier of the side shelves is equipped with supporting elements 11. The number of springs 7 in the package, their thickness, length and width of the shelves along the upper and lower tiers, as well as the angle of bending, are selected based on operational requirements for the vibration mount.

The vibro-support according to the third embodiment contains an elastic element formed by a package of flat springs 12. Each of the springs 12 is provided with a central horizontal part made integrally with symmetrically located side shelves 13, bent by an angle greater than 90 ° with respect to the central horizontal part and having supporting sections 4 and 5 at the ends (Figs. 5, 6). The number of side shelves 13 is at least two. Between the springs 12 there are damping elements made in the form of gaskets 14 of vibration-absorbing material, for example rubber. The side shelves 13 are provided with support elements 15. The vibro-support according to the first embodiment works as follows. When exposed to external loads of elastic elements, elastic elements formed by a package of flat springs 1 are deformed in the axial and radial directions. Due to the tight contact of the elastic elements in their middle part, mutual friction and, accordingly, damping of vibration occur.

Vibration support according to the second embodiment works as follows. When exposed to external loads, the elastic elements formed by the package of flat springs 7 are deformed in the axial and radial directions. Thanks to gaskets 10 of vibration-absorbing material between the springs 7, a significant damping of vibration occurs.

Vibration support according to the third embodiment works as follows. When exposed to external loads, the elastic elements formed by the package of flat springs 12 are deformed in the axial and radial directions. Thanks to gaskets 14 of vibration-absorbing material between the springs, a significant damping of vibration occurs.

Thus, the application of the proposed device can simplify its manufacture of the device and increase the efficiency of vibration isolation.

Claims (3)

1. Vibration support containing an elastic element of flat springs, each of which is equipped with a Central horizontal part and a side shelf, made integral with the Central horizontal part, bent at an angle greater than 90 °, relative to the Central horizontal part and having a supporting section at the end, characterized in that each of the springs of the elastic element formed by a package of flat springs is made in the form of at least six symmetrically located side shelves integral with the central horizontal part, and the bends of the adjacent side shelves are located up and down relative to the plane of the central part of the spring, damping elements are installed between the springs, made in the form of washers of vibration-absorbing material, the number of springs in the package, their thickness, length and width of the shelves in the upper and lower tiers, as well as the bending angle are selected based on the operational requirements for the vibration mount. 2. Vibration support containing an elastic element of flat springs, each of which is equipped with a central horizontal part and a side shelf made integrally with the central horizontal part, bent at an angle greater than 90 ° with respect to the central horizontal part and having a supporting portion at the end, characterized in that each of the springs of the elastic element formed by a package of flat springs is made in the form of at least six symmetrically located side shelves integral with the central horizontal part, wherein the bends of the adjacent side shelves are located up and down relative to the plane of the central part of the spring, damping elements are installed between the springs, made in the form of gaskets of vibration-absorbing material, the number of springs in the package, their thickness, length and width of the shelves in the upper and lower tiers, as well as the bending angle are selected based on the operational requirements for the vibration mount. 3. Vibration support containing an elastic element of flat springs, each of which is equipped with a central horizontal part and a side shelf made integral with the central horizontal part, bent at an angle greater than 90 ° with respect to the central horizontal part and having a supporting portion at the end, characterized in that each of the springs of the elastic element formed by a package of flat springs is made in the form of at least two symmetrically located side shelves integral with the central horizontal part, and between the springs we installed damping elements made in the form of gaskets made of vibration-absorbing material.

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