SU344087A1 - SOUND ABSORBING PANEL - Google Patents

Description

The invention relates to the production of building products and is intended for use in the construction of industrial and civil buildings with internal sources of noise. The invention can be used to introduce additional sound absorption in rooms with high acoustic requirements, as well as in ducts, ducts, mines to reduce the noise propagating through them.

The known sound-absorbing panel of porous material predominantly for lining the inner surface of the enclosing structures does not possess the necessary sound-absorbing properties in the low and high frequency region.

The described sound-absorbing panel with the aim of improving its sound-absorbing properties in the region of low and high frequencies is made with a contour frame, on which is fixed a grid filled with heavy material, such as cement mortar, cells, and the body of the panel contains oriented depending on the spectral composition of the noise and characteristics sound floor plate scales, made, for example, from glass.

horizontal cross section; in fig. 4-lamellar scales separated by filler and binder, transverse section. The sound-absorbing panel consists of a contour frame / with a tensioned grid 2, in the cells of which there is a heavy aggregate material. In addition, in the body of the panel there is a front sound-absorbing layer consisting of granular filler 4, a binder

5 and flake scales 6.

In the manufacture of a sound absorbing panel, a frame / with mesh 2 with heavy filler is placed in a cassette 7 with a removable cover 8 and a side wall 5.

When the cassette 7 is horizontally positioned, a mixture of filler, binder and plate flakes is deposited in it. In this case, a sound-absorbing layer 10 is formed on the surface of the net 2, in which the lamellar flakes have a predominantly horizontal orientation.

This layer can be single-shaped with a certain thickness in the range from 0.5 to 4 sig, and, in this case, it has one preferential orientation of plate flakes and, accordingly, pores between them. Lamellar cheschuyki form the front surface of the panel and perform both decorative and acoustic sound absorption functions. For high frequencies, the sound-absorbing layer of plaster is two-fold. At the same time, in the face layer 11, lamellar flakes are located perpendicular to the front surface. In order to obtain such a face layer, the cassette 7 is installed vertically together with the grid 2 therein, covered with the previously deposited sound-absorbing layer 10 with the orientation of the particles parallel to the grid. In the gap between this layer and the lid 8 of the cassette 7, a sound-absorbing layer // is deposited with a grid orientation of the plate-like masses perpendicular to the grid. This textured layer // has the property of increased sound absorption at high frequencies due to the fact that it has a large number of porcanals oriented perpendicularly to the sound-absorbing surface.

The heat treatment of the sound-absorbing panel is carried out directly in the cassette 7 and is aimed at securing the binder (polymer or lime-cement).

The sound-absorbing panel has sufficient rigidity and the necessary strength for its long-term storage or transportation and subsequent installation at the construction site. The panel has full factory readiness and can be mounted on the object. The construction of panels of standard sizes in accordance with the building module (for example, 610X610 II / I) allows them to be used in mass construction of typical civil and industrial buildings.

Absorption of a sound wave incident on the front surface of the sound-absorbing panel occurs due to losses due to internal friction and dissipation of sound energy by the front layer; active losses during vibrations of a flexible grid under the action of a sound wave; losses in the air gap between the sound-absorbing panel and the surface of the structure; energy losses due to friction in the gaps and gaps between the filler granules; resonance loss in the system of mass-elasticity.

The frequency response of the sound absorption panel can be easily adjusted depending on the frequency characteristics of the sound chamber by varying the thickness, weight and elasticity of the mesh, the porosity of the face layer and the corresponding orientation of the slats, as well as the thickness of the air gap.

The material for the contour frame can be used gypsum, wood, metal asbestos cement, mainly aluminum alloys, etc.

Cement mortar is used as the material for filling the grid cells, as well as ceramic and stone cast parts and sand and bitumen aggregate. In the latter case, sound absorption is enhanced at low sound frequencies. The design of the panel is simple.

device and cost. The acoustic calculation of the panel indicates that it allows obtaining a sound absorption coefficient in the range of 100-400 Hz, on the order of 0.8-0.95. Glass flakes are produced predominantly by drawing or rolling from a silicate melt, followed by cooling them in a chamber (precipitator together with the main one). The first layer is obtained by deposition on a horizontal plane in cassettes with heat-conducting walls. After deposition of a layer with a thickness of 0.5 to 4 cm, the cassette is rotated and installed vertically at a distance of 0.5-4 cm from the cassette cover to the previously applied layer. After this, the deposition of the second layer adjacent to the first layer is performed on the entire height of the cassette.

The front layer of the sound-absorbing panel to improve its decorative properties can be performed using masts made from colored glass. Since very little colored glass is used to make flakes, this process is cost-effective.

Subject invention

Claims (2)

1. Sound-absorbing panel of porous material, mainly for plating the inner surface of the enclosing structures, characterized in that, in order to increase its sound-absorbing properties in the low and high frequencies, it is made with a contour frame, on which is fixed a grid filled with heavy material , for example, cement mortar, cells, and in the body of the panel there are plate-shaped scales oriented depending on the spectral composition of the noise and characteristics of the sound floor. 2. A panel according to claim 1, characterized in that, in order to improve its decorative qualities, glass flakes are used as plate flakes.