RU194873U1 - SOUND-PROTECTING PANEL - Google Patents

Abstract

A soundproofing panel is proposed, which is made of upper and lower steel plates in the form of separate geometric shapes. The plates are fixed to each other on both sides on a flexible material. The panel is made of two layers of geometric shapes. In addition, a cutout h is made in the plates in an amount equal to half the thickness of the plate, to ensure the flexibility of the panel during operation. The flexibility of the plate provides a constant overlap of the gap (S) to the middle (flexible) layer. The number of gaps depends on the length of the plates and the size of the panel. The utility model relates to transport engineering, industrial and architectural acoustics, in particular to broadband sound attenuation, and can be used in the design of building structures and soundproofing devices used in marine, river, air and land transport systems. The proposed technical solution allows to increase the sound insulation of the plate and its flexibility when fitting the curved surface of the body of the protected object, as well as to reduce the tensile stress in the supporting metal mesh during its bending due to the fact that the rectangular plates are mated on a rectangular surface, providing a constant overlap of the plates and a clean bending of the bearing flexible mesh when fitting the body. 3 ill.

Description

The utility model relates to transport engineering, industrial and architectural acoustics, in particular to broadband sound attenuation, and can be used in the design of building structures and soundproofing devices used in marine, river, air and land transport systems.

The soundproofing panel is known (patent RU 2588410 C1, IPC B60R 13/08, publ. 06/27/2016, Bull. No. 18), made in the form of geometric shapes, for example, square plates, fixed to each other on both sides on a flexible material using a tie screws.

The soundproofing panel contains steel plates lower 2 and upper plates 3 in the form of separate geometric figures, for example, square, fixed to each other on both sides of the flexible material 4 by means of exhaust rivets 5, while holes in the lower and upper plates are made with a countersink expanding parts of the rivets, and in the assembly plate there are nests with protrusions covering the lower plates along the perimeter and providing a uniform gap S between the plates, which helps to reduce stiffness panel and reduces resonances, and thereby improves the sound insulation. Rivets are used to simplify the process of assembling a soundproofing panel and simplify the manufacturing process. Across the panel area there are acoustic holes - gaps between the plates, providing flexibility of the barrier. They have a variable cross section due to the bevel of the side faces of the plates.

However, the disadvantage of the invention is the lack of sound insulation associated with the location of the acoustic holes in two mutually perpendicular directions of the panel.

The task of the invention is to reduce this negative effect and increase the effectiveness of the panel.

The technical result of the application of the invention will be to increase the sound insulation of the panel without loss of flexibility.

This technical result is achieved in that the panel is made of steel plates lower and upper in the form of separate geometric shapes, for example, a rectangular shape. The rectangular shape of the plates is chosen intentionally to ensure that the gap overlaps. At the same time, a cut-out (h) is made in the upper plates by an amount equal to half the thickness of the plate, which provides the flexibility of the panel and, "transforming" during operation, provides constant overlap of the gap between the lower plates (S) to the middle layer, represented by a flexible material. The number of gaps depends on the length of the plates and the size of the panel.

Assessment of the degree of sound insulation in comparison with the prototype was carried out in accordance with the methodology developed by the authors earlier, for example, “Study of the features of sound insulation with flexible panels / E.A. Romanenko [et al.] // Problems of mechanical engineering: materials of the II Intern. scientific and technical conf. (Omsk, Feb. 27-28, 2018) / OmSTU. - Omsk, 2018 .-- S. 103-108., Or Romanenko E.A. Development of a mathematical model of sound insulation with flexible panels [Electronic resource] / E.A. Romanenko, G.S. Russkikh, Z.N. Sokolovskiy // Mechanical Science and Technology Update: conference proceeding (Omsk, February 27-28) / Omsk State Technical University. - Omsk, 2018 .-- DOI: 10.1088 / 1742-6596 / 1050/1/012070 DOCUMENT TYPE: Scopus. Moreover, the estimated increase in the degree of sound insulation of the panel in comparison with the prototype is at least 20%.

In FIG. 1 shows a fragment of the design of the panel

In FIG. 2 - top view

In FIG. 3 - isometry.

Consider the assembly process of the proposed soundproof panel.

On the assembly plate having slots with protrusions, lay the lower 2 layer of the plate, while the slots with protrusions cover the lower 2 plates around the perimeter and provide a uniform gap S (Fig. 1) between the plates without shifting the plates one above the other, lower 2 on top of the plate impose a flexible material 4. On the flexible material 4 on top of each plate of the bottom 2 lay the top plate 3, which is fixed diagonally on each plate of the bottom 2 in the holes with two clamps, which avoids the mutual displacement of the plate during assembly Astin and provide a uniform gap S between the plates (Fig. 1).

An exhaust rivet 5 is inserted into the free hole of the plate of the upper 3, which fastens the lower plate 2 and the upper plate 3 onto the flexible material 4 with a rivet. The operation of fastening the bottom plate 2 and the top plate 3 with a second rivet 5 along the diagonal of the plates into the second free hole is repeated.

Then two clamps are removed, fixing each lower plate 2 and upper 3 plate, and two rivets 5 are inserted diagonally into the two holes released from the clamps and fasten the lower 2 rivets and the upper 3 plate together with each other on a flexible material using a rivet.

Similarly, they fasten diagonally to each other on a flexible material 4 the remaining plates lower 2 and upper 3 with rivets 5 with a rivet.

The claimed invention ensures the achievement of the claimed technical result, namely, simplifying the manufacturing process of the panel and increasing its sound insulation.

The proposed technical solution allows to increase the sound insulation of the plate and its flexibility when fitting the curved surface of the body of the protected object, as well as reduce the tensile stress in the carrier metal mesh when it is bent due to the fact that the rectangular plates are mated on a rectangular surface, ensuring constant overlap of the plates and clean bending of the carrier flexible mesh when fitting the body.

Claims (1)

The soundproofing panel made of steel plates lower and upper in the form of separate geometric figures fixed to each other on both sides on a flexible material, characterized in that the panel is made of two layers of geometric figures, while the upper plates are cut h for an amount equal to half the thickness of the plate, to ensure the flexibility of the panel during operation, which ensures constant overlap of the gap S between the lower plates to the middle layer of flexible material, the number of gaps depends on the length Astin and panel size.

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