RU197720U1 - Soundproof ventilation device - Google Patents

Abstract

The invention relates to the field of construction and can be used to reduce the noise penetrating apartments through window openings. The device is formed by a frame, between the vertical bars of which a perforated sound-absorbing cassette is mounted movably, mounted on the inner cover. The extension of the cartridge into the room creates air ducts through which the outside air enters the room. Due to the perforation on the walls of the cassette, the incoming air loses some of the noise energy. Variations in the size of the slotted perforation holes and the depth of the cassette provide adaptation of the frequency response of the cassette to the actual acoustic noise environment. The technical result consists in the possibility of adapting the frequency response of the absorption of acoustic noise by the sound-absorbing cassette to the actual acoustic situation in the street. 2 s.p. f-ly, 4 ill.

Description

The utility model relates to the field of construction and can be used to reduce the noise penetrating apartments through window openings.

From the prior art it is known noise insulation ventilation device [RF Patent PM No. 4325, E06B 5/20. Soundproof ventilation device // Agafonov L.E., Remizov Yu.V., Krasnevsky B.V., Leibov L.V., Anikin V.A. Publ .: 16.06.1997], including a frame, between the vertical bars of which a perforated sound-absorbing cassette is mounted movably mounted on the inner lid, and air ducts, the sound-absorbing cassette being perforated along the side and front surfaces, filled with sound-absorbing material and equipped with additional side walls forming air ducts with the cassette, and outlet openings with the inner lid, while a screen is mounted outside the cassette on the frame bars, forming holes with additional side walls of the cassette that communicate with the air ducts.

The disadvantage of this device is the inability to adapt the frequency response of a sound-absorbing cassette to the conditions of a real noise environment.

The problem to which the claimed device is directed is to provide the possibility of adapting the frequency response of acoustic noise absorption by a sound-absorbing cassette to a real acoustic situation in a street area.

This goal is achieved due to the fact that in the noise-proof ventilation device, including a frame, between the vertical bars of which a perforated sound-absorbing cassette is movably mounted, fixed on the inner cover, and air ducts, the sound-absorbing cassette being perforated on the side and front surfaces, filled with sound-absorbing material and equipped with additional side walls forming air ducts with the cassette and outlet openings with the inner lid, while outside the cassette on the frame bars

a screen is mounted that forms holes with additional side walls of the cassette in communication with air ducts, an additional internal wall is included in the sound-absorbing cassette, forming a tight connection with the walls of the cassette, which is installed in such a way as to form a profile of variable depth relative to the front and side surfaces of the sound-absorbing cassette, while perforating the holes on the sound-absorbing cassette look like gap gaps.

где b - ширина щели, м; L - расстояние между отверстиями, м; h - расстояние между внутренними поверхностями стенки и перегородки внутри кассеты, м;

- толщина стенки кассеты, м; с - скорость звука в воздухе при 20°С, обеспечить требуемый спектр поглощаемых частот.Additionally, the dimensions of the slotted perforations and the distance between the perforations are determined so that in accordance with the relationship

where b is the width of the slit, m; L is the distance between the holes, m; h is the distance between the inner surfaces of the wall and the partition inside the cartridge, m;

- wall thickness of the cartridge, m; c - the speed of sound in air at 20 ° С, to provide the required spectrum of absorbed frequencies.

где h - расстояние между внутренними поверхностями стенки и перегородки внутри кассеты, м; b - ширина щели, м;

- резонансная частота, Гц; L - расстояние между щелями, м;

- толщина стенки кассеты, м; с - скорость звука в воздухе при 20°С, обеспечить требуемый спектр поглощаемых частот.Additionally, the distance between the inner surfaces of the wall and the partition inside the cassette is selected so that, in accordance with the dependence

where h is the distance between the inner surfaces of the wall and the partition inside the cassette, m; b - slot width, m;

- resonant frequency, Hz; L is the distance between the cracks, m;

- wall thickness of the cartridge, m; c - the speed of sound in air at 20 ° С, to provide the required spectrum of absorbed frequencies.

The technical result provided by the given set of features is the ability to adapt the frequency response of acoustic noise absorption by a sound-absorbing cassette to a real acoustic situation in a street area.

In FIG. 1 shows a general view of the device from the room; FIG. 2-section AA of FIG. 1 in the closed position of the device, in FIG. 3 - the same in ventilation mode, in FIG. 4 is a section BB of FIG. 1 in the closed position of the device.

Soundproof ventilation device includes a frame 1, between the vertical bars of which a perforated sound-absorbing cassette 2 is movably mounted, having a perforation 3 on the side 4 and front 5 surfaces. Inside the cassette there is a partition 6, which is tightly connected to the walls of the cassette 2. The cavity of the cassette is filled with sound-absorbing material 7. The cassette 2 has an inner cover 8 and additional side walls 9, forming air ducts 10 with the side surfaces 4, and outlet openings 11 with the inner cover 7 On the bars of the frame 1 outside, opposite the cassette 2 is mounted a screen 12, which forms with additional side walls 9 inlet openings 13 in communication with the ducts 10. The device operates as follows.

In the closed position with the inner cover 8 closed, the front surface 5 of the cassette 2 is tightly adjacent to the screen 12. In the ventilation mode it is open, the sound-absorbing cassette 2 is shifted towards the room, the outlet 11 and the inlet openings 13 are open. The air enters through the openings 13 into the air ducts 10 and passing through the perforated walls 4 and 5 of the cassette 2, loses some of the noise.

The presence of perforations on the walls 4 and 5 of the cassette in combination with the partition 6, hermetically connected to the walls of the cassette 2, forms a system known as the Helmholtz resonator, which has the property of absorbing an acoustic wave.

резонатора Гельмгольца для случая выполнения отверстий в виде щелей определяется выражениемResonant frequency

Helmholtz resonator for the case of holes in the form of slots is determined by the expression

- резонансная частота, Гц; h - расстояние между внутренними поверхностями крышки и внутренней перегородки, м; b - ширина щели, м; L - расстояние между щелями, м;

- глубина щели, м; с - скорость звука в воздухе при 20°С [Булкин В.В., Беляев В.Е., Сергеев В.Н. Конструкторские расчеты элементов РЭС в условиях механических и акустических воздействий: Учеб. пособие / Под ред. В.В. Булкина. - Муром: ИПЦ МИ ВлГУ, 2004. - 132 с. (стр. 66)]. Проведя несложные преобразования, получим выражения для вычисления одного из определяемых параметров при заданных остальных, например -

Where

- resonant frequency, Hz; h is the distance between the inner surfaces of the lid and the inner partition, m; b - slot width, m; L is the distance between the cracks, m;

- slit depth, m; c is the speed of sound in air at 20 ° С [Bulkin V.V., Belyaev V.E., Sergeev V.N. Design calculations of elements of RES in the conditions of mechanical and acoustic influences: Textbook. allowance / Ed. V.V. Bulkin. - Murom: CPI MI VlSU, 2004 .-- 132 p. (p. 66)]. After conducting simple transformations, we obtain expressions for calculating one of the determined parameters for the rest given, for example -

Since, when indicated in FIG. 2 and FIG. 3 position of the internal partition inside the cassette, a profile of variable depth is formed, the expression necessary to calculate one of the determined parameters for the given others is also found from (1), for example

The choice of hole parameters, cassette wall thickness, and other sizes included in (1) will provide the opportunity to change the frequency response of acoustic noise absorption, adapt the device to the real acoustic noise environment.

Sources of information

1. RF patent PM №4325, E06B 5/20. Soundproof ventilation device // Agafonov L.E., Remizov Yu.V., Krasnevsky B.V., Leibov L.V., Anikin V.A. Published: 06/16/1997

2. Bulkin V.V., Belyaev V.E., Sergeev V.N. Design calculations of elements of RES in the conditions of mechanical and acoustic influences: Textbook. allowance / Ed. V.V. Bulkin. - Murom: IGTs MI VlSU, 2004 .-- 132 p.

Claims (3)

1. Soundproof ventilation device, including a frame, between the vertical bars of which a perforated sound-absorbing cassette is mounted movably mounted on the inner cover, and air ducts, the sound-absorbing cassette being perforated along the side and front surfaces, filled with sound-absorbing material and equipped with additional side walls forming with the cassette air ducts, and with the inner lid - outlet openings, while on the outside opposite to the cassette on the frame bars there is a screen forming, with additional side walls of the cassette, holes communicating with air ducts, characterized in that an internal partition is formed in the sound-absorbing cassette forming a tight connection with the walls of the cassette installed in such a way as to form a profile of variable depth relative to the front and side surfaces of the sound-absorbing cassette, while the perforations on the sound-absorbing cassette have the form of slotted gaps. 2. Soundproof ventilation device according to claim 1, characterized in that the dimensions of the slotted perforations and the distance between them are determined so that, in accordance with the dependence

where b is the width of the slit, m; L is the distance between the holes, m; h is the distance between the inner surfaces of the wall and the partition inside the cartridge, m; l is the wall thickness of the cartridge, m; c - the speed of sound in air at 20 ° С, to provide the required spectrum of absorbed frequencies. 3. Soundproof ventilation device according to claim 1, characterized in that the distance between the inner surfaces of the wall and the partition inside the cassette is selected so that, in accordance with the dependence

where h is the distance between the inner surfaces of the wall and the partition inside the cartridge, m; b - slot width, m; f is the resonant frequency, Hz; L is the distance between the cracks, m; l is the wall thickness of the cartridge, m; c - the speed of sound in air at 20 ° С, to provide the required spectrum of absorbed frequencies.

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