RU21206U1 - SOUND PANEL - Google Patents

Abstract

1. A soundproofing panel made of metal, in which partitions with cavities between them are located, characterized in that the panel is made of a porous material with internal cavities in the form of a spherical and / or spheroidal shape, the linear dimensions of adjacent cavities are different, and a combination of different cavity sizes made in the form of repeating blocks. 2. The soundproofing panel according to claim 1, characterized in that it is made of foam aluminum with a porosity of at least 60%, and the ratio of the thickness of the panel to its length lies in the range from 0.01 to 0.1.3. The soundproofing panel according to claim 1 or 2, characterized in that it is mounted in a rigid frame. A soundproofing panel according to any one of claims 1 to 3, characterized in that a layer of viscoelastic material is applied to one or both of its surfaces, the ratio of the thickness of which to the thickness of the panel is in the range from 0.1 to 2.0.5. The soundproofing panel according to claim 1, or 2, or 3, or 4, characterized in that a protective decorative layer is applied to one or both surfaces of the panel.

Description

Sound absorbing panel

The utility model relates to noise barriers designed to reduce noise in residential and industrial premises, in office areas, in a map-car car, tractor-and shipbuilding, etc.

Flat panels of fencing with limited weight have a low sound insulation in the low frequency region.

A device for protection against traffic and industrial noise, containing a frame with mounted on it with inclined ribs, the frame is made with cross members (USSR Author's Certificate No. 787589, IPC: E04 B 1/82, 1980).

A disadvantage of such a device is the difficulty in determining the optimal parameters of discrete hard metal edges located on the panel and the low noise reduction efficiency using such a panel.

A device is known that contains a metal panel with ribs located on it in the form of stringers and frames dividing the panel into many cells (Bogolepov I.I. industrial isolation, L. Shipbuilding. 1986. S. 189-197).

The disadvantage of this panel is the complexity of manufacture and its bulkiness, as well as the practical lack of sound insulation in the low-frequency region.

Known soundproofing panel made of hollow pipes interconnected to form (USSR Author's Certificate No. 1574751, IPC: E04 B 1/82, 1982)

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The disadvantage of this panel is the complexity of manufacture and large dimensions. Also known is a soundproofing panel made of metal, inside of which there are flat partitions. The structure of such a metal is similar to a honeycomb. (Bogolepov I.I. Industrial soundproofing, L. Shipbuilding, 1986, p.197206, prototype).

The disadvantage of such a panel is a narrow low-frequency region where sound insulation is observed, the complexity of manufacturing the panel.

This utility model eliminates the disadvantages of analogues and prototype.

The technical result of this utility model is to simplify the design of the panel, simplify manufacturing techniques, increase sound insulation in the low-frequency region.

The technical result is achieved by the fact that the soundproofing panel made of metal, in which the partitions are located, with cavities between them, the panel is made of porous material, with internal cavities in the form of a sphere-like and / or spheroidal shape, the linear dimensions of the adjacent cavities are different, and the combination of different the dimensions of the cavities are made in the form of repeating blocks, the soundproofing panel is made of foam aluminum with a porosity of at least 60%, and the ratio of the thickness of the panel to its length ranges from 0.01 to 0.1., sound oliruyuschaya reinforced panel in a rigid frame, on one or both surfaces thereof a layer of visco-elastic material which otnoschepie thickness to the thickness of the panel lies in the range from 0.1 to 2.0, on one or both surfaces coated protective panel, the decorative layer ..

figure 1 presents the element of the cross section of the panel made on the basis of foam. Figure 2 presents the values of sound insulation in the field of low frequencies. The curve indicated by circles corresponds to a non-aluminum panel with a porosity of 85%, with a thickness of 18 mm, with dimensions of 0.5 to 1.0 meters. The curve marked with asterisks corresponds to a panel made on the basis of foam aluminum, with a porosity of 70%, with a thickness of 9.0 mm, with dimensions of 0.5 by 0.7 m. Both panels are located in a rigid frame. The panel works as follows.

The sound wave incident on the panel is divided into reflected, absorbed on the surface in the panel layer, and forgiven through the panel. With a decrease in the value of the forgiving sound wave, the sound insulation increases. Therefore, panels with a porosity of less than 60% are not effective in terms of sound insulation, because in such panels, the number of pores is small and their presence has practically no effect on stiffness (increase in resistance) or internal losses, with porosity over 85% the panel becomes brittle. Correlation of linear dimensions with a large panel thickness, for example, 70 mm, even at the highest porosity reaches 30 kg / sq.m. With a panel thickness of about 7-10 mm, the sound insulation effect is manifested only in the field of infrasound.

With this set of features of the panel, an increase in the resistance to the sound wave occurs due to the presence of internal spherical-shaped partitions. The resistance due to the compression resistance of the gas located in the internal cavities increases, the attenuation of the sound wave during its passage in the porous metal and in the viscoelastic layer increases. This layer is made of polyvinyl acetate.

polyvinyl chloride and polyethylene. Fixing the panel in a rigid frame increases the reflection of the sound wave. Applying a protective, decorative layer on both surfaces of the panel further increases the effect of reflection of the sound wave, prevents the possibility of damage to aluminum partitions. This layer can be made of wood, hard plastic, metal foil.

Claims (5)

1. A soundproofing panel made of metal, in which partitions with cavities between them are located, characterized in that the panel is made of a porous material with internal cavities in the form of a spherical and / or spheroidal shape, the linear dimensions of adjacent cavities are different, and a combination of different cavity sizes made in the form of repeating blocks.  2. The soundproofing panel according to claim 1, characterized in that it is made of foam aluminum with a porosity of at least 60%, and the ratio of the thickness of the panel to its length lies in the range from 0.01 to 0.1.  3. The soundproofing panel according to claim 1 or 2, characterized in that it is mounted in a rigid frame.  4. Soundproofing panel according to any one of claims 1 to 3, characterized in that a layer of viscoelastic material is applied to one or both of its surfaces, the ratio of the thickness of which to the thickness of the panel is in the range from 0.1 to 2.0. 5. The soundproofing panel according to claim 1, or 2, or 3, or 4, characterized in that a protective decorative layer is applied to one or both surfaces of the panel.