RU2649209C2 - Sound absorbing panel and industrial room - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: inventions relate to the field of construction, in particular to industrial premises protecting means against industrial noise. Sound-absorbing panel contains a perforated wall with resonant holes that perform the functions of the Helmholtz resonator neck, and sidewalls, filled with soundproof material placed into a protective soundproof shell, and the channel shaped end covers. Sidewalls are made with longitudinal grooves for the vibration damping material placement therein and with collar beads for the soundproof material with a protective soundproof shell resting and fixing on the perforated wall by embracing of its edges. Collar beads are equipped with the elements of the sound-absorbing panel hanging on the room wall. End caps contain protrusions and grooves of the tongue-and-groove joint with the possibility of their subsequent coupling with the vibration damping material. Panel may comprise a rear sound-reflecting wall adjacent to the sound-impermeable shell of the sound-insulating material and fixed in the sound-absorbing panel by means of the front wall sidewalls shoulder beads, that forms a volumetric resonator. Sidewalls with collar beads are made by double flanging of the front panel wall edges. Resonance holes in the perforated wall can be made planar or with the necks flanging directed inside the panel. On the perforated wall front side a decorative coating is applied. Production room contains walls and partitions lined with sound-absorbing panels containing a perforated wall with resonant holes and sidewalls filled with soundproofing material placed into a protective soundproof shell, connected to a vibration damping material by channel shaped end covers. Sound-absorbing panels perforated walls sidewalls are made with longitudinal grooves and collar beads, and end caps are with protrusions and grooves of the tongue-and-groove joint. Sound-absorbing panels adhere to the room wall with a soundproof material protective soundproof shell and the perforated wall sidewalls collar beads, connected to each other with vibration damping harnesses and gaskets made of elastic materials, forming the volumetric resonators with the room wall. Partitions are made soundproof and are made of paired sound-absorbing panels with channel shaped end caps. At least one of the sound-absorbing panels contains a rear sound-reflecting wall adjacent to the paired panel sound-insulating material protective soundproof shell, separately forming volumetric resonators, and are connected to each other by vibration damping harnesses embedded into the panels perforated walls sidewalls longitudinal grooves, mounted in the grooves of the I-profile and / or channel shape posts, filled with vibration damping material. Sound-absorbing panels are fixed to the wall by the hinge elements by means of stoppers made with a head and installed on the channel shaped busbars, vertically fixed on the room wall. Paired sound-absorbing panels of the partition are covered from the above by the channel shaped cover.

EFFECT: invention allows to reduce the material consumption and labor intensity of sound-absorbing panels manufacturing and rooms finishing.

8 cl, 6 dwg

Description

The invention relates to the field of construction, in particular to means for protecting industrial premises from industrial noise.

Known resonant attenuator containing interconnected panel with technological holes, which are inserted interchangeable bushings that perform the functions of the necks of the resonator, and the box with stiffeners. (Patent RU No. 2544349 C2. Resonant noise absorber. IPC EV04 / 03, 20.03.2015.)

A sound-absorbing panel is known comprising a frame and a noise-attenuating insert located in its internal cavity. The frame is made in the form of a parallelepiped formed by the front and rear walls, between which are layers of sound-absorbing materials of different densities, made with uniformly distributed hollow tetrahedra. (Patent RU No. 2528362 C1. Sound-absorbing panel of Kochetov. IPC E04B 1/82, 09/10/2014. Patent RU No. 2528356 C1. Sound-absorbing structure of Kochetov. IPC E04B 1/84, 09/10/2014.)

Known sound-absorbing acoustic panel containing parallel upper perforated sheet, middle and lower hard sheets made of organic glass, between which is sound-absorbing material of mineral wool and wood fiber, wrapped in a non-combustible fabric. Between themselves, the sheets at the edges are connected by a frame of organic glass. (Patent RU No. 162968 U1. Sound-absorbing acoustic panel. IPC Е04В 1/84, G10K 11/168, 07/10/2016.)

Known sound-absorbing panel design made of two perforated walls, between which there is a two-layer sound-absorbing element, one of the layers of which is made sound-absorbing, and the other layer is made of sound-reflecting material with evenly distributed hollow tetrahedrons. The perforated walls contain resonant holes, which in shape can be made with a round, triangular, rectangular or rhomboid profile. Basalt-based mineral wool slabs or glass wool lined with acoustically transparent fiberglass or polymer are used as sound-absorbing material. (Patent RU No. 2598236 C1. Sound-absorbing construction. IPC E04B 1/84, 09/20/2016.)

A sound-absorbing panel is known comprising a housing and a sound-absorbing insert located in its inner cavity. The body is made in the form of a rectangular parallelepiped formed by a perforated front and continuous rear walls of the panel. Each wall has lateral ribs of a U-shape. The walls of the panel are fixed to each other by covers made of a U-shape with cells filled with vibration damping mastic to connect the panels. Between the walls is a two-layer combined sound-absorbing material of different densities, made with evenly distributed hollow tetrahedra. (Patent RU No. 2611652 C1. Sound-absorbing panel of Kochetov. IPC Е04В 1/82, G10K 11/16, 02/28/2017.) This technical solution is taken as a prototype.

A well-known acoustic construction of the workshop, comprising a frame, load-bearing walls with fences in the form of a floor and a ceiling, lined with sound-absorbing structures, interconnected by vibration-damping material, as well as piece sound absorbers in which sound-absorbing material is placed, placed in a protective acoustically transparent shell. (Patent RU No. 2480561 C1. Acoustic design of the workshop. IPC E04B 1/84, 04/27/2013. Patent RU No. 2543826 C2. Acoustic finish of the workshop. IPC E04B 1/84, 03/10/2015.) These inventions are taken as a prototype.

A disadvantage of the known technical solutions is the complexity and high cost of manufacturing sound-absorbing panels and decoration of industrial premises.

The main task, to the solution of which the claimed technical solution is directed, is to simplify the design, reduce material consumption and the complexity of the manufacture of sound-absorbing panels and decoration of industrial premises.

The technical result is the reduction of material consumption and the complexity of manufacturing sound-absorbing panels and decoration of industrial premises.

The specified technical result is achieved by the fact that in the known sound-absorbing panel containing a perforated wall with resonant holes that serve as the neck of the Helmholtz resonator, and sidewalls filled with soundproofing material, placed in a protective soundproof shell, and end caps, according to the proposed technical solution

the sidewalls are made with longitudinal grooves for laying vibration-damping material in them and shoulders for stopping and fixing the soundproofing material with a protective soundproof shell on the perforated wall by covering its edges, and the shoulders are equipped with hinge elements of the sound-absorbing panel on the room wall, and the end caps contain protrusions and tongue grooves connection with the possibility of subsequent pairing them with vibration damping material;

it may contain a rear sound-reflecting wall adjacent to the soundproof shell of the soundproofing material and fixed in the sound-absorbing panel using the shoulders of the sidewalls of the front wall, forming a volume resonator;

sidewalls with shoulders are double flanged edges of the front wall of the panel;

resonant holes in the perforated wall can be made planar or with flanging of the necks directed inside the panel;

a decorative coating is applied on the front side of the perforated wall.

The specified technical result is achieved by the fact that in a known production room containing walls and partitions lined with sound-absorbing panels containing a perforated wall with resonant holes and side walls, filled with soundproofing material, placed in a protective soundproof shell, mated with end caps of the channel profile with vibration damping material proposed technical solution

the sides of the perforated walls of the sound-absorbing panels are made with longitudinal grooves and shoulders, and the end caps are with protrusions and grooves of the stud connection, while the sound-absorbing panels adjoin the room wall with a protective sound-permeable shell of soundproofing material and the shoulders of the sides of the perforated wall, interfaced with vibration damping and damper made of elastic materials, forming volume resonators with the wall of the room, and partitions are made sound permeable and made of paired sound-absorbing panels with end covers of the channel profile, at least one of the sound-absorbing panels contains a rear sound-reflecting wall adjacent to the protective sound-permeable sheath of the soundproofing material of the coupled panel, forming separate volume resonators, and are interconnected by vibration damping joints longitudinal grooves of the sides of the perforated walls of the panels mounted in the grooves of the racks of the I-beam and / or channel profile, s filled with vibration damping material;

sound-absorbing panels are fixed to the wall with hinge elements by means of stoppers made with a head and mounted on the channels of the channel profile, vertically mounted on the wall of the room;

paired sound-absorbing panels of the partition from above are closed by a channel profile lid.

The analysis of the prior art cited by the applicant made it possible to establish that there are no analogs characterized by sets of features identical to all the features of the claimed sound-absorbing panel and the production room. Therefore, the claimed technical solutions meet the condition of patentability "novelty."

The search results for known solutions in the art in order to identify features that match the distinctive features of the prototype of the claimed group of technical solutions have shown that they do not explicitly follow from the prior art. From the prior art determined by the applicant, the influence of the transformations provided for by the essential features of the claimed group of technical solutions on the achievement of the specified technical result is not revealed. Therefore, the claimed technical solutions meet the condition of patentability "inventive step".

The claimed technical solutions can be successfully used in the construction of industrial buildings and protect working personnel from the effects of industrial noise. Therefore, the claimed technical solutions meet the condition of patentability "industrial applicability".

In FIG. 1 shows the structure of a sound absorbing panel; in FIG. 2 - the same, with a rear sound-reflecting wall; in FIG. 3 - perforated wall of the sound-absorbing panel; in FIG. 4 - resonant holes: a) - planar, b) - with flanging of the necks; in FIG. 5 is a diagram of a hinge of sound-absorbing panels on a room wall; in FIG. 6 - structure of a soundproof partition.

The sound-absorbing panel contains a perforated wall 1 with resonant holes 2, which serve as the neck of the Helmholtz resonator, and sidewalls 3, filled with soundproofing material 4, placed in a protective soundproof shell 5 and end caps 6 of the channel profile. (Fig. 1). A decorative coating is applied to the front side of the perforated wall 1. The sound-absorbing panel may include a rear sound-reflecting wall 7 adjacent to the sound-permeable sheath 5 of the sound-insulating material 4 and fixed in the sound-absorbing panel using the shoulders 8 of the sidewalls 3, forming a volume resonator (Fig. 2). The end caps 6 contain the protrusions 9 and the grooves 10 of the stud connection with the possibility of subsequent pairing them with vibration damping material. The sides 3 are made with longitudinal grooves 11 for laying vibration-damping material in them and shoulders 8 for fixing the soundproofing material 4 with a protective soundproof shell 5 on the perforated wall 1. The shoulders 8 are equipped with hinge elements 12 of the sound-absorbing panel on the room wall (Fig. 3). Sidewalls 3 with shoulders 8 are made by double flanging of the edges of the front wall 1 of the panel. Resonant holes 2 in the front wall 1 can be made planar (Fig. 4, a) or with flanging of the necks 13 (Fig. 4, b), directed inside the panel.

The production room contains walls and partitions lined with sound-absorbing panels 14, containing a perforated wall 1 with resonant holes 2 and sidewalls 3, filled with soundproofing material 4, placed in protective soundproof shells 5, interconnected by means of sidewalls 3 with vibration damping bundles 15 and end caps 6 channel profile with vibration damping gaskets 16 (Fig. 5). To do this, the sides 3 of the perforated walls 1 of the sound-absorbing panels 14 are made with longitudinal grooves 11 for laying vibration damping rods 15 and shoulders 8 in them, and the end caps 6 with protrusions 9 and grooves 10 of the threaded connection with the possibility of pairing them with vibration-damping gaskets 16. Sound-absorbing panels 14 adjoin the room wall 17 with a soundproofing sheath 5 of soundproofing material 4 and shoulders 8 of the sidewalls 3 of the perforated wall 1, interconnected with vibration damping ropes 15 and gaskets E 16 made of elastic material forming the wall 17 cavities premises. Sound-absorbing panels 14 are mounted on the wall with hinge elements 12 by means of stoppers 18, made with a head and mounted on the tires 19 of the channel profile, vertically mounted on the wall 17 of the room. The partitions are made soundproof and made of twin sound-absorbing panels 14 with end caps 6 of the channel profile. At least one of the sound-absorbing panels 14 comprises a rear sound-reflecting wall 7 adjacent to the protective sound-permeable sheath 5 of the sound-insulating material 4 of the paired panel 14, forming separate volume resonators, and interconnected with vibration damping ropes 15 embedded in the longitudinal grooves 11 of the side walls 3 of the perforated walls 1 panels 14, mounted in the grooves of the racks of the I-beam 20 and / or channel 21 profile with vibration damping material (Fig. 6). Paired sound-absorbing panels 14 of the partition from above are closed by a cover 22 of the channel profile.

Sound-absorbing panels 14 are suspended on the walls 17 of the production room on stoppers 18 made with a head mounted on tires 19 and interconnected by sidewalls 3 with vibration damping rods 15 embedded in longitudinal grooves 11 of sidewalls 3, as well as protrusions 9 and grooves 10 of the end caps 6 channel profile with vibration damping gaskets 16. Soundproof partitions are made of paired sound-absorbing panels 14, closed from the top by a cover 22 of the channel profile. At least one of the sound-absorbing panels 14 comprises a rear sound-reflecting wall 7, forming separate volume resonators. Sound-absorbing panels 14 of soundproof partitions are interconnected by vibration damping rods 15 embedded in the longitudinal grooves 11 of the sidewalls 3 of the perforated walls 1 of the panels 14 and are mounted in the grooves of the I-beam posts 20 and / or the channel 21 profile filled with vibration-damping material. Sound energy emanating from a noise source, such as equipment located in the production room, spreading, falls on the perforated walls 1 of the sound-absorbing panels 14 mounted on the walls and partitions of the room. Part of the sound energy from the noise source, propagating through the room, is reflected from the front side of the perforated wall 1 of the sound-absorbing panel 14 again into the room. Another part of the energy, passing through the resonant holes 2 of the perforated wall 1 of the sound-absorbing panel 14, interacts with the soundproofing material 4 and the protective soundproof shell 5 made of a mesh polymer material adjacent to the perforated wall 1 on its inner side. When a sound wave passes through a soundproofing material 4 and a soundproof shell 5, a partial attenuation (absorption) of the sound wave and the transfer of sound energy to the thermal energy of the medium occur. The remaining part of the sound energy, passing through the soundproofing material 4 with a soundproof shell 5, falls onto the room wall 17 and / or the rear sound-reflecting wall 7 of the sound-absorbing panels 14. The reflected sound waves from the room wall 17 and / or the rear sound-reflecting walls 7 of the sound-absorbing panels 14 are returned through soundproof shell 5 in the soundproofing material 4, in the latter the sounds are completely suppressed. The dissipation of sound energy into thermal energy occurs by dissipating energy in the pores of the soundproofing material 4 and the soundproof shell 5, which are a model of the Helmholtz cavity, where energy losses occur due to friction of the mass of air in the resonator, which has the form of a branched pore network, of the soundproofing material 4. Due to the vibration damping harnesses 15 and gaskets 16 between the sidewalls 3 and the end caps 6, vibration protection of the sound-absorbing panels 14 is carried out.

The proposed technical solutions are an effective means of protecting industrial premises from industrial noise.

Claims (8)

1. Sound-absorbing panel containing a perforated wall with resonant holes that serve as the neck of the Helmholtz resonator, and sidewalls, filled with soundproofing material, placed in a protective soundproof shell, and end covers of the channel profile, characterized in that the sidewalls are made with longitudinal grooves for laying in them vibration damping material and shoulders for emphasis and fixing soundproofing material with a protective soundproof shell on a perforated wall by coverage of its edges, and the shoulders are equipped with hinge elements of the sound-absorbing panel on the wall of the room, and the end caps contain protrusions and grooves of the threaded connection with the possibility of their subsequent pairing with vibration-damping material. 2. The panel according to claim 1, characterized in that it can comprise a rear sound-reflecting wall adjacent to the sound-permeable sheath of the sound-insulating material and fixed in the sound-absorbing panel by means of the shoulders of the side walls of the front wall, forming a volume resonator. 3. The panel according to claim 1, characterized in that the sidewalls with shoulders are made by double flanging of the edges of the front wall of the panel. 4. The panel according to claim 1, characterized in that the resonant holes in the perforated wall can be made planar or with flanging of the necks directed inside the panel. 5. The panel according to claim 1, characterized in that a decorative coating is applied on the front side of the perforated wall. 6. A production room containing walls and partitions lined with sound-absorbing panels containing a perforated wall with resonant holes and sidewalls filled with soundproofing material, placed in a protective soundproof shell, mated with end caps of the channel profile with vibration damping material, characterized in that the side walls of the perforation panels are made with longitudinal grooves and shoulders, and end caps with protrusions and grooves of tenon joint pressure, while the sound-absorbing panels are adjacent to the wall of the room with a protective sound-permeable shell of soundproofing material and shoulders of the sides of the perforated wall, interconnected with vibration damping rods and gaskets made of elastic materials, forming volume resonators with the wall of the room, and the partitions are made soundproof and made of paired sound-absorbing panels with end covers of the channel profile, at least one of the sound-absorbing panels The lay contains a rear sound-reflecting wall adjacent to the protective sound-permeable shell of the soundproofing material of the paired panel, forming separate volume resonators, and are interconnected by vibration damping rods embedded in the longitudinal grooves of the sides of the perforated panel walls, mounted in the grooves of the racks of the I-beamed and / or groove profile material. 7. The room according to claim 6, characterized in that the sound-absorbing panels are fixed to the wall with hinge elements by means of stoppers made with a head and mounted on the channel profile tires, vertically mounted on the room wall. 8. The room according to claim 6, characterized in that the paired sound-absorbing panels of the partition from above are covered by a channel profile lid.

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