WO2020017995A1

WO2020017995A1 - Covering and plate for reducing the energy of vibrations originating from a solid surface

Info

Publication number: WO2020017995A1
Application number: PCT/RU2019/000402
Authority: WO
Inventors: Александр Генриевич Боганик
Original assignee: Александр Генриевич Боганик; Общество С Ограниченной Ответственностью "Акустик Групп Маркетинг"
Priority date: 2018-07-16
Filing date: 2019-06-04
Publication date: 2020-01-23
Also published as: EA201800641A1; RU2698355C1

Abstract

The invention relates to construction and can be used for reducing the level of noise and vibrations in residential, public and production premises. A covering for reducing the energy of vibrations originating from a surface, a wall, a ceiling, a pillar or a joist consists of two or more plates joined together at the ends. A plate consists of a single layer or of two or more alternating layers of equal or unequal thickness of materials having identical or different coefficients of vibration energy loss. The one or more plates of the covering are provided with two or more length-adjustable supports. The invention makes it possible to increase the sound-proofing and vibration-absorbing properties of a covering and to adjust the mutual arrangement of panels and the shape of the covering and the distance from the panels to the surface of an enclosing structure, and compensates for uneven walls.

Description

Coating and plate to reduce vibration energy,

coming from a hard surface

The invention relates to construction and can be used to reduce noise and vibration in residential, public and industrial premises, mainly to improve sound insulation of walling: walls, ceilings, floors, columns, beams.

Known coating and plate to reduce the energy of vibrations emanating from a solid surface, in the form of one or more plates joined together by ends (Handbook for protection against noise and vibration of residential and public buildings. Edited by V.I. Zaborov. - Kiev , Budivelnyk, 1989, p. 55).

The known coating does not sufficiently reduce the energy of vibrations emanating from an uneven surface for the following reasons.

1. The fastening of the component plates by means of gypsum beacons does not provide a sufficient distance between the plates and the surface and can lead to the contacts of the plates with the surface. When the plates come in contact with the protruding fragments of the surface (in the absence of an air gap between the plates and the surface), the energy of vibrations and sound vibrations is directly transferred from the surface to the plates, which leads to a decrease in the vibration-insulating and sound-insulating properties of the coating.

2. When the plates cover an uneven surface, they may appear at different distances from it, which will lead to a decrease in the coating thickness at the junction of the plates and can even lead to the formation of gaps between the plates, which leads to a decrease in the soundproofing properties of the coating.

3. During the operation of a building or structure (as a result of its settlement, changes in temperature or humidity conditions), changes in the position of the plates in space (their orientation, distance between the plates and the surface), distortion of the shape of the plates, leading to the contact of the plates with the surface and distortion of shape, are possible coverings. In addition, gypsum beacons can be destroyed, as a result of which some plates may come into contact with the surface. The presence of these factors can lead to a deterioration in the soundproofing properties of the plate.

However, gypsum beacons have high rigidity, which also contributes to the transmission through them of vibrations from the surface to the plates. An increase in the thickness of gypsum beacons requires an additional consumption of gypsum, which makes the device more expensive, and in view of the impossibility of regulating their thickness, the distance between the plates and the surface can be significant, which will lead to an unreasonable decrease in the volume of the isolated room.

The technical result from the use of the proposed coating is to increase its soundproof properties by reducing the energy of vibrations and sound vibrations emanating from the surface, by ensuring the absence of contact of the plates with an uneven surface at any point and the possibility of adjusting the shape of the coating by adjusting the shape of the plates, changing their relative position orientation in space and distance to the surface.

The technical result from the use of the proposed coating is also to reduce the energy of vibrations and sound vibrations emanating from the surface, by providing the ability to control the thickness of the coating at the joints between the plates, eliminating the gaps between them.

The technical result from the use of the proposed coating in comparison with the use of gypsum beacons of small thickness is also providing the possibility of forming an air gap of a selected (for example, minimal) thickness between the plates and the uneven surface covered by them by regulating it, and in comparison with the option of using gypsum beacons of greater thickness, in saving gypsum and the volume of the isolated room.

These technical results are achieved by the fact that in the coating to reduce the energy of vibrations emanating from the surface of the wall, ceiling, column, crossbar, consisting of two or more plates joined together by ends, one or more plates are equipped with two or more length-adjustable stops.

The known plate does not sufficiently reduce the energy of vibrations emanating from an uneven surface for the following reasons.

1. Mounting the plate with gypsum beacons does not provide a sufficient distance between the plate and the surface and can lead to contact of the plate with the surface. When the plate comes into contact with protruding fragments of the surface (in the absence of an air gap between the plate and the surface), the energy of vibrations and sound vibrations is directly transferred from the surface to the plate, which leads to a decrease in the vibration-insulating and sound-insulating properties of the coating.

2. During the operation of a building or structure (as a result of its settlement, changes in temperature or humidity conditions), changes in the position of the plate in space (their orientation, distance between the plate and the surface) and distortion of its shape, leading to the contact of the plates with the surface and its distortion, are possible forms. The presence of these factors can lead to a deterioration in the soundproofing properties of the plate and the coating as a whole. In addition, gypsum beacons can be destroyed, as a result of which the plate may come into contact with the surface. The presence of these factors can lead to a deterioration in the soundproofing properties of the plate.

However, gypsum beacons have high rigidity, which also contributes to the transmission through them of vibrations from the surface to the plate. An increase in the thickness of gypsum beacons requires an additional consumption of gypsum, which makes the device more expensive, and in view of the impossibility of regulating their thickness, the distance between the plate and the surface can be significant, which will lead to an unreasonable decrease in the volume of the isolated room.

The technical result from the use of the proposed plate is to increase its soundproofing properties by reducing the energy of vibrations and sound vibrations emanating from the surface, by ensuring the absence of contact of the plate with an uneven surface at any point and the possibility of adjusting the shape of the plate, changing its orientation in space and distance to the surface.

The technical result from the use of the proposed plate in comparison with the option of using gypsum beacons of small thickness is also to enable the formation of an air gap of the selected (for example, minimal) thickness between the plates and the uneven surface covered by them by regulating it, and in comparison with the option of using gypsum beacons thickness - in saving gypsum and the volume of the isolated room.

These technical results are achieved in that the plate for reducing the energy of vibrations emanating from the surface of a wall, ceiling, column, girder, consisting of one layer or two or more alternating layers of equal or unequal thickness from materials with the same or different coefficients of vibration energy loss, is provided two or more adjustable length stops. The emphasis adjustable in length can be made in the form of a threaded connection mounted in a through hole; in the form of an eccentric in the form of an ellipsoid; in the form of a pair of wedges; in the form of a pair of beveled cylinders.

The plate may be made with one or more additional through holes for attachment to the surface.

The walls of one or more additional holes can be coated with a material with a coefficient of energy loss of vibrations, large or much greater than the coefficient of energy loss of vibrations of one or more layers; this or the same material can fill the entire internal volume of one or more additional holes.

The layer of the plate may consist of two sublayers displaced relative to each other in one or two mutually perpendicular directions in the plane of its own location by an amount less than its overall size.

The density of its plate layer may be variable in volume.

If the shape of the plate is distorted, it can come into contact with the surface, as a result of which a “sound bridge” is formed, through which the vibration energy, bypassing the air gap possessing the highest sound-insulating and vibration-insulating properties, is transferred directly from the surface to the plate. Elimination of distortion of the plate shape provides a double effect: elimination of the “sound bridge” and restoration of the original shape of the plate. Moreover, the coating as a whole, along with the advantages obtained from the restoration of the shape of the plates, acquires additional advantages: eliminating gaps between the plates, restoring the original thickness of the coating at the junction of the plates.

In FIG. 1 shows the proposed coating, in FIG. 2 - the proposed plate with adjustable lengthwise emphasis in the form of a threaded connection, in FIG. 3 - the proposed plate with adjustable lengthwise emphasis in the form of an eccentric in the form of an ellipsoid, in FIG. 4 - the proposed plate with adjustable lengthwise emphasis in the form of a pair of wedges, in FIG. 5 - the proposed plate with adjustable length emphasis in the form of a pair of beveled cylinders.

The coating to reduce the energy of vibrations emanating from a solid surface, contains two-layer plates 1 with holes 2, the walls of which are covered with elastic material 3, adjustable in length of the stops 4, made or in the form of a threaded connection, consisting of a nut 5 with a screw 6 screwed into it; or in the form of an eccentric 7; or a pair of wedges 8, or a pair of beveled cylinders 9. The plates are attached by fasteners 10, for example, screws or nails to a solid surface 1 1 separated from the stops by elastic gaskets 12.

The coating is mounted as follows. The plates 1 with stops 4 ending in elastic gaskets 12 are pre-fixed on the solid surface 1 1 with fasteners 10 through holes 2, the walls of which are covered with elastic material 3. The formation of the coating surface and the adjustment of its shape and shape of the plates 1 are made by selecting the depth of immersion in the surface 1 1 fasteners 10 and regulating the length of the stops of all or some of the plates 1: either by rotating the screws 6 in the threads of the nuts 5, or by rotating the eccentrics 7, or by the relative displacement of the pairs of wedges 8 or the pairs Cylinders 9.

When using plates 1, the design of which allows them to dock with adjacent plates 1 to form a surface of a given shape, for example, two-layer plates with tongue-and-groove joints, some plates 1 may not contain stops.

Claims

Claim

1. A coating to reduce the energy of vibrations emanating from the surface of a wall, ceiling, column, crossbar, consisting of two or more plates joined together by ends, characterized in that one or more plates are equipped with two or more length-adjustable stops.

2. A plate for reducing the energy of vibrations emanating from the surface of a wall, ceiling, column, crossbar, consisting of one layer or two or more alternating layers of equal or unequal thickness from materials with the same or different coefficients of loss of vibration energy, characterized in that it is equipped two or more adjustable length stops.

3. The plate according to paragraphs. 2, characterized in that the length-adjustable stop is made in the form of a threaded connection mounted in a through hole.

4. The plate according to claim 2, characterized in that it is made with one or more additional through holes for attachment to the surface.

5. The plate according to claim 4, characterized in that the walls of one or more additional holes are coated with a material with a coefficient of energy loss of vibrations, large or much greater than the coefficient of energy loss of vibrations of one or more layers.

6. The plate according to paragraphs. 4 or 5, characterized in that the entire internal volume of one or more additional holes is filled with material with a coefficient of energy loss of vibrations, large or much greater than the coefficient of energy loss of vibrations of one or more layers.

7. The plate according to any one of paragraphs. 2-4, characterized in that the layer of the plate consists of two sublayers offset from each other in one or two mutually perpendicular directions in the plane of its own location by an amount less than its overall size.

8. The plate according to any one of paragraphs. 2-4, characterized in that the density of its layer is variable in volume.