RU158599U1 - SOUND SUPPRESSING CELL PANEL - Google Patents

Abstract

Sound-absorbing cellular panel containing parallel sheets with elements installed between them, characterized in that the upper, middle and lower sheets of monolithic polycarbonate, with the pyramid-shaped cells made of monolithic polycarbonate installed between them, are interconnected by adhesive, while the cells of the first layer connected by bases to the top sheet, the vertices of which are connected to the middle sheet in the ribs of the bases of the cells of the second row, the bases of which are connected to the middle sheet, and the top us - a backsheet, in addition, the free space between the cells is filled with mineral wool.

Description

The utility model relates to industrial acoustics and can be used to reduce noise in residential, public and industrial premises.

Known sound-suppressing cellular panel containing an intermediate layer, rigidly and hermetically connected on one side with the bases of the truncated vertices of the protrusions of the cellular aggregate, and on the other hand with the outer panel lining. An additional hole is made on the basis of the truncated top of each hollow pyramidal protrusion of the cellular aggregate. Two holes in the intermediate layer are made coaxially to the two holes on the basis of each truncated apex of the honeycomb core, connected to two channels made in the wall of the outer lining facing the intermediate layer and through the other two holes in the intermediate layer, communicating with the chamber enclosed between the cellular filler and intermediate layer (RU 2239238, IPC G10K 11/16, publ. 10/27/2004).

A disadvantage of the known panel is the design complexity and lack of sound absorption.

The closest in technical essence to the proposed technical solution is a sound-canceling structured panel containing elements made of sheet material installed between two parallel sheets and rectangular plates perpendicular to them, connected to inclined plates located between them, which are connected to parallel sheets (RU 96884, IPC IPC E04B 1/82, E04C 2/36, publ. 08/20/2010).

 A disadvantage of the known panel is the low sound-canceling properties.

The technical result is to improve the sound-suppressing properties.

The technical result is achieved by the fact that the sound-suppressing honeycomb panel contains parallel upper, middle and lower sheets of monolithic polycarbonate with pyramid-shaped cells made of monolithic polycarbonate installed between them, interconnected by adhesive. The cells of the first layer are connected by bases to the top sheet, the vertices of which are connected to the middle sheet in the edges of the bases of the cells of the second row, the bases of which are connected to the middle sheet, and the vertices to the bottom sheet. The free space between the cells is filled with mineral wool.

In FIG. 1 shows a general view of the structure of a sound-cancellous mesh panel; in FIG. 2 - cell; in FIG. 3 is a side view of the panel.

Sound-absorbing cellular panel (Fig. 1-3) contains the upper 1, middle 2 and lower 3 sheets of monolithic polycarbonate with a thickness of 2 mm (TU 2246-002-81057157-2008) with pyramid-shaped cells installed between them of the first 4 and second 5 layers of monolithic polycarbonate with a thickness of 2 mm (TU 2246-002-81057157-2008). The cells of the first layer 4 are connected by bases with the top sheet 1, and the vertices of the cells of the first layer 4 are connected with the middle sheet 2 at the edges of the bases of the cells of the second layer 5. The cell bases of the second layer 5 are connected with the middle sheet 2, and the vertices with the lower sheet 3. Free space between cells 4, 5 is filled with mineral wool 6 (GOST 4640-2011 Mineral wool VM-35). Cells 4, 5 are connected to the upper 1, middle 2 and lower 3 sheets by means of an adhesive joint.

When exposed to sound waves on the top sheet 1, their partial reflection occurs. Part of the sound waves transmitted through the top sheet 1 enters the cells of the first layer 4, where the sound energy is reflected from their side faces, which ensures the formation of counterpropagating sound streams with antiphase, thereby obtaining the effect of absorption of sound energy. Then, part of the sound waves that passed through the cells of the first layer 4 fall into the free space filled with mineral wool 6, which converts the energy of the sound wave into the internal energy of the medium. The remaining sound energy falls on the middle sheet 2, reflected from it, partially passes, falling on the side faces of the cells of the second row 5, reflected from them provide the formation of opposing sound flows with antiphase, thereby obtaining the effect of absorption of sound energy. Then part of the sound waves that passed through the cells of the second layer 5 fall into the free space filled with mineral wool 6, which converts the energy of the sound wave into the internal energy of the medium. The remaining sound energy falls on the bottom sheet 3. The necessary sound absorption can be controlled depending on the noise level and the size of the room, increasing the number of sheets and cell layers.

A method of manufacturing a sound suppressing mesh panel is as follows. The upper 1, middle 2 and lower 3 sheets of monolithic polycarbonate are placed parallel to each other, between them are placed cells 4, 5 of a pyramid shape, interconnected by adhesive. The free space between the side faces of cells 4, 5, upper 1, middle 2 and lower 3 sheets is filled with mineral wool 6.

Compared with the known solution, the proposed one improves the sound-suppressing properties of the panel.

sound energy. Then, part of the sound waves that passed through the cells of the first layer 4 fall into the free space filled with sound-absorbing material 6, which converts the energy of the sound wave into the internal energy of the medium. The remaining sound energy falls on the middle sheet 2, reflected from it, partially passes, falling on the side faces of the cells of the second row 5, reflected from them provide the formation of opposing sound flows with antiphase, thereby obtaining the effect of absorption of sound energy. Then, part of the sound waves that passed through the cells of the second layer 5 fall into the free space filled with sound-absorbing material 6, which converts the energy of the sound wave into the internal energy of the medium. The remaining sound energy falls on the bottom sheet 3. The necessary sound absorption can be controlled depending on the noise level and the size of the room, increasing the number of sheets and cell layers.

A method of manufacturing a sound suppressing mesh panel is as follows. The upper 1, middle 2 and lower 3 sheets of monolithic polycarbonate are placed parallel to each other, between them are placed cells 4, 5 of a pyramid shape, interconnected by adhesive. The free space between the side faces of cells 4, 5, upper 1, middle 2 and lower 3 sheets is filled with sound-absorbing material 6.

Compared with the known solution, the proposed one improves the sound-suppressing properties of the panel.

Claims (1)

A sound-suppressing cellular panel containing parallel sheets with elements installed between them, characterized in that the upper, middle and lower sheets of monolithic polycarbonate, with the pyramid-shaped cells made of monolithic polycarbonate installed between them, are interconnected by adhesive, while the cells of the first layer connected by bases to the top sheet, the vertices of which are connected to the middle sheet in the ribs of the bases of the cells of the second row, the bases of which are connected to the middle sheet, and the top us - a backsheet, in addition, the free space between the cells is filled with mineral wool.

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