RU200529U1 - Anti-vibration mount - Google Patents

Abstract

This utility model relates to building acoustics and can be used to fix any structures that require vibration isolation. The vibration isolation mount includes a support bracket for attachment to the support, consisting of a base and sidewalls, an elastic vibration damping element located above and below the base of the support bracket, two restraining brackets put on the elastic element from two opposite ends, respectively, but not in contact with the support bracket , and a fastener for attaching the structure to it, passing through the base of the support bracket, the elastic vibration damping element and the tops of the restraining brackets. The technical result of the claimed utility model is to increase the reliability, bearing capacity and vibration isolation properties of the fastening.

Description

This utility model relates to building acoustics and can be used to fix any structures that require vibration isolation.

Known vibration isolation universal mount Vibrofix SP [RF patent for useful model 95693, publ. 10.07.2010], which consists of a metal bracket (support bracket) for attachment to the support, two metal washers, an elastic material that is placed above and below the metal bracket, a metal bolt (fastener) to which the structure is attached, a metal nut, which compresses the elastic parts of the attachment, the metal stopper stopper, made in the form of a hollow tube, which is put on a metal bolt between two washers. In this case, the length of the stopper depends on the specified technical characteristics for fastening the structure. A structure requiring vibration isolation can be attached to a metal bolt without touching the elastic vibration damping element using a U-shaped bracket (supporting suspension). Moreover, the direction of the location of the metal bolt (from its clamping element to the end of the rod) coincides with the direction of the U-shaped bracket (from its base to the end of the sidewalls).

The disadvantages of the known technical solution include low reliability and limited bearing capacity of the fastening caused by possible displacement and misalignment of the bolt on which the structure is fixed during vibration.

The technical result of the claimed utility model is to increase the reliability, bearing capacity and vibration isolation properties of the fastening.

The claimed technical result is achieved due to the fact that the vibration isolation mount includes a support bracket for attachment to the support, consisting of a base and sidewalls, an elastic vibration damping element located above and below the base of the support bracket, two restraining brackets put on an elastic element from two opposite ends, respectively, but not in contact with the support bracket, and a fastener for attaching the structure to it, passing through the base of the support bracket, an elastic vibration damping element and the tops of the restraining brackets.

A variant of the development of the main technical solution is possible, which consists in the fact that the elastic vibration damping element is made in one piece and the base of the support bracket is threaded through it.

A variant of the development of the main technical solution is possible, which consists in the fact that the elastic vibration damping element is made composite of at least two parts located above and below the base of the support bracket.

Thus, due to the specified set of essential features, it was possible to increase the reliability, bearing capacity and vibration isolation properties of the fastening by eliminating the skew of the fastener with the structure, since two limiting brackets during the operation of the fastening, closing with each other, provide the rigidity of the fastening for bending and displacement in different planes, which prevents the fastener from displacing with the structure inside the fastening.

The essence of the claimed utility model and the possibility of its practical implementation is illustrated by the description below and drawings.

FIG. 1 is a front view of a vibration isolation mount.

FIG. 2 is a side view of the vibration isolation mount.

The vibration-proof mount (Fig. 1 and 2) includes a support bracket 1 for attachment to a support (not shown in the drawing), consisting of a base and sidewalls, an elastic vibration damping element 2, which is located above and below the base of the support bracket 1, two limiting brackets 3 and 4, put on the elastic element 2 from two opposite ends, respectively, but not in contact with the support bracket 1, and the fastener 5 for attaching the structure to it (not shown in the drawing), passing through the base of the support bracket 1, the elastic damping element 2 vibrations and tops of the limiting brackets 3 and 4.

At the base of the support bracket 1, in the elastic element 2, at the top of each bracket 3 and 4, through holes are formed coaxially to each other (not shown in the drawing) through which the fastener 5 passes, which is a bolt, screw, self-tapping screw, stud, etc. provided with washers 6 and / or nuts 7. The fastener 5 is positioned in the fastener in such a way that its direction from the clamping element to the end of the rod is opposite to the direction of the support bracket 1 from its base to the end of the sidewalls.

The elastic element 2 can be made composite and formed from one or more layers of elastic material. Moreover, the layers of elastic material can be made both with one modulus of dynamic elasticity, and with different moduli, and can have different shapes, for example, cylindrical or rectangular. In this case, in the case of the formation of a multilayer elastic element 2, the layers can be glued or pressed together. In this case, parts of the elastic element 2 can be glued to the support bracket 1. The elastic element 2 can be made in one piece and a slot can be made in it at any level, in which the middle part of the base of the support bracket 1 is located. the elastic element 2 is made in the form of an elastic band (not shown in the drawing) passing through the hole in the support bracket 1 and insulates the body of the fastener 5 from contact with the support bracket 1.

The support bracket 1 can be made of metal, wood or polymer, for example, in the form of a flat tape that has the ability to elastically bend and unbend, or a volume bar, to which a structure requiring vibration isolation is attached. Part of the base of the support bracket 1 is located in the elastic element 2 and can be fixed in it, for example, by clamping between the layers of the elastic element 1 or by making a slot in the one-piece elastic element 2 (not shown) into which this part of the support staples 1.

Additional holes (not shown in the drawing) can be made in the support bracket 1 in the part free from connection with the elastic element 2, by means of which the fastening unit can be fixed on the support. The number of holes is selected depending on the required anchoring strength.

Each limiting bracket 3 and 4 is U-shaped, for example, made of metal or other material, depending on the application of the fastener. The top and sides of each bracket 3 and 4 can be made of solid material or stiffeners. Restraining brackets 3 and 4 are installed on the elastic element 2 so as not to touch the body of the support bracket 1 to ensure the vibration isolation properties of the attachment, i.e. the sidewalls of the support bracket 1 and the sidewalls of the restraining brackets 3 and 4 are rotated relative to each other at right angles so that when the sidewalls of the restraining brackets 3 and 4 are closed they do not interfere with the sidewalls of the support bracket 1. For this, the size of the elastic element 2 exceeds the size of the sidewalls of the restraining brackets 3 and 4 and prevents touching. In this case, when the elastic element 2 is compressed, the staples 3 and 4 close and form a compression limiter for the elastic element 2, which ensures that the fastener 5 is not displaced inside the fastener under the influence of the load. The size of the elastic element 2 and the size of the sidewalls of the brackets 3 and 4 depend on the specified technical characteristics for fastening the structure. The length of the restraining brackets 3 and 4 is determined depending on the elastic properties of the layers of the elastic element 2 and based on the mass of a particular load and the range of operating frequencies of the cladding, equipment or structures that are fixed. The heavier the equipment, the more elastic must be the elastic element 2. When the clamps 3 and 4 are closed, the elastic element must be in an elastically compressed state.

The vibration-proof mount is assembled and used as follows: the support bracket 1 is connected to the elastic element 2, the restrictive brackets 3 and 4 are put on the elastic element 2 from both ends, the fastener 5 is inserted into their through holes (not shown in the drawing) 5. Then, with the fastener 5 tighten the elastic element 2 until the clamps 3 and 4 close, fixing the tightening of the elastic element 3 at the required level, based on the given load and the operating frequency range of the lining, equipment or structures that are fixed. Using the support bracket 1, a vibration-proof mount is attached to the support (not shown in the drawing). Then, a structure (not shown in the drawing) is attached to the fastener 5 without touching the elastic vibration damping element 2, for example, using a U-shaped bracket (not shown in the drawing).

Claims (3)

1. The vibration-proof mount includes a support bracket for attachment to the support, consisting of a base and sidewalls, an elastic vibration damping element located above and below the base of the support bracket, two restraining brackets put on the elastic element from two opposite ends, respectively, and a fastener for fastening a structure to it, passing through the base of the support bracket, an elastic vibration damping element and the tops of the limiting brackets. 2. Vibration-insulating mount according to claim 1, characterized in that the elastic vibration damping element is made in one piece and the base of the support bracket is threaded through it. 3. The vibration-proof mount according to claim 1, characterized in that the elastic vibration damping element is made up of at least two parts located above and below the base of the support bracket.

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