RU221838U1 - SOUND ABSORBING PANEL - Google Patents

Abstract

The utility model relates to the production of finishing materials, in particular to thin (up to 10 mm) sound-absorbing panels used for wall cladding for sound insulation in residential and public buildings and structures. The sound-absorbing panel contains two straight facing layers and support partitions placed between them, installed perpendicular to the straight facing layers and parallel to each other in increments of 3 to 10 mm. The facing layers and partitions are made of thermoplastic polymer with a density of 300 to 600 kg and form channels filled with high-density granular material. The ends of the panel are sealed with polyurethane sealant.

The utility model allows for sound insulation of radius enclosing structures of buildings and structures. 1 ill.

Description

The utility model relates to the production of finishing materials, in particular to thin (up to 10 mm) sound-absorbing panels used for wall cladding for the purpose of sound insulation in residential and public buildings and structures, industrial premises, recording studios, as well as for the construction of soundproofing boxes for industrial equipment , elevator shafts and other objects.

A sound-absorbing panel is known, containing two straight facing layers, supporting partitions placed between them, forming channels filled with high-density granular material, and edging elements covering the facing layers and delimiting the channels. This panel also contains separating layers, which are located between the facing layers and are permanently connected to them by supporting partitions, which in cross section form triangular or hexagonal honeycomb structures. (Patent for PM No. 141334, published May 27, 2014).

The known soundproofing panel is made in the form of a massive compacted tile consisting of several flat elements, representing two (upper and lower) thin straight layers with a wavy or honeycomb supporting structure of the internal space between them. This panel has sound-absorbing and heat-insulating properties, however, due to its high rigidity as a whole and its individual flat elements, it is intended for cladding only straight surfaces. At the same time, in practice there is a need to cover not only straight, but also radius surfaces.

The problem to be solved by the proposed utility model is the creation of a thin sound-absorbing panel that allows sound insulation of radial enclosing structures of buildings and structures.

The technical result consists in providing plasticity and flexibility of the sound-absorbing panel, sufficient for cladding radius surfaces.

The technical result is achieved by the fact that in a sound-absorbing panel containing two straight facing layers and support partitions placed between them, forming channels filled with high-density granular material, the straight facing layers and support partitions are made of thermoplastic polymer with a density from 300 to 600 kg/m ³ , with the partitions installed perpendicular to the facing layers and parallel to each other in increments of 3 to 10 mm, while the ends of the panel are sealed with polyurethane sealant.

Making straight facing layers and supporting partitions from thermoplastic polymer with a density of 300 to 600 kg/m ³ simultaneously provides the required strength and plasticity of the panel, which allows it to deform when taking the shape of a radius surface.

Installing the partitions perpendicular to the straight cladding layers and parallel to each other in increments of 3 mm to 10 mm ensures that the panel can take the shape of radius surfaces due to the bending of the straight layers between the partitions.

A certain step between the partitions ensures optimal panel rigidity, which affects the panel’s ability to take the shape of radius surfaces. When the step between the partitions is less than 3 mm, the panel becomes excessively rigid, which does not allow it to deform to take the required shape when facing surfaces. When the pitch between the partitions is more than 10 mm, the probability of depressurization of the ends of the panel increases when it deforms and, thereby, reducing the sound absorption properties.

Sealing the ends of the panel with polyurethane sealant allows you to limit the channels formed by the supporting partitions, while simultaneously ensuring the plasticity of the end surfaces of the panel, which allows you to maintain the integrity of the panel when it deforms during the cladding of radius surfaces. At the same time, adjusting the dimensions (trimming) of the panel along its partitions allows you to maintain the tightness of the panel and does not require any additional measures to protect the channels from spillage of granular material.

In fig. 1 shows the proposed utility model.

The sound-absorbing panel contains two straight facing layers 1 and 2 and partitions 3 located between them, installed parallel to each other with a pitch of 3 to 10 mm and rigidly connected to the facing layers 1 and 2. The facing layers 1 and 2 and partitions 3 are made of thermoplastic polymer with a density from 300 to 600 kg/m ³ Partitions 3, together with facing layers 1 and 2, form hollow channels 4. Channels 4 are filled with high-density loose granular material 5. The open ends of the channels 4 on the end surfaces of the panel are sealed with polyurethane sealant 6.

An example of the implementation of a utility model.

To impart sound-insulating properties to a section of a wall with a radius surface of 250 mm in radius, a sound-absorbing panel 5 mm thick was made, containing two straight cladding layers and partitions located between them, installed parallel to each other in increments of 5 mm. The base of the panel was made by extrusion by extruding polypropylene with a density of 500 kg/m ³ with an extruder. All channels formed by partitions and straight layers were filled with quartz sand, after which the ends of the panel were filled with polyurethane sealant.

Tests of the resulting panel showed that the manufactured panel has an airborne noise insulation index R _w =37 dB.

Claims (1)

A sound-absorbing panel containing two straight facing layers and supporting partitions placed between them, forming channels filled with high-density granular material, characterized in that the straight facing layers and supporting partitions are made of thermoplastic polymer with a density of 300 to 600 kg, and the partitions are installed perpendicularly facing layers and parallel to each other in increments of 3 to 10 mm, while the ends of the panel are sealed with polyurethane sealant.