RU2544349C2 - Resonance noise absorber - Google Patents

Abstract

FIELD: physics, acoustics.

SUBSTANCE: invention relates to means of protecting industrial areas from negative acoustic-noise action. The resonance noise absorber comprises interconnected panel with working holes in which removable elements are inserted, and a box. The removable elements have holes which act as orifices, the diameter of which, as well as the length of said elements, the distance between the centres of the orifices and between the back inner wall of the box and the end of the removable element are selected to ensure the required range of absorbed frequencies. Stiffening ribs can be used to increase rigidness of the device. The removable elements are installed to ensure tight contact between the elements and the panel.

EFFECT: creating conditions for more effective protection from acoustic-noise contamination of open technospheric areas while reducing the cost of each separate device.

6 cl, 7 dwg

Description

The invention relates to noise reduction structures, in particular to noise protection devices designed to protect industrial areas from negative noise exposure caused by vehicles, industrial facilities, work equipment, acoustic systems, etc.

A sound-absorbing panel [1] is known, comprising a frame and a sound-absorbing element located in its inner cavity.

The disadvantage of this device is the relatively low efficiency of sound attenuation due to the partial reflection of sound waves from the sound absorber, as well as the relatively narrow (exceptionally high frequencies) range of sound attenuation.

Known sound-absorbing honeycomb panel [2] containing placed between the surface sheets of honeycomb core, consisting of interlocked hollow cells having a constant cross-sectional area.

The disadvantage of this device is the insufficient efficiency of sound attenuation, since all its internal resonators are configured to absorb acoustic vibrations of only a certain frequency, while sound excitations on modern machines are usually broadband, which is caused by the existence of a large number of independent sound sources and the irregularity of some physical processes.

, где d - диаметр отверстия, м; f - резонансная частота, Гц; L - расстояние между отверстиями, м; h - глубина внутренней полости поглотителя, м; c_o - скорость звука в воздухе при 20°C; l_эф - эффективная длина горловины отверстия, м, определяемая зависимостью

, где l - толщина панели [3, стр.65, рис.3.17].The closest analogue of the claimed device is a resonant absorber, consisting of hermetically connected panels and ducts, and on the surface of the panel are made evenly spaced holes, which are the mouths of the resonators, in the mouth of which there is damping material, while the ratio of the panel thickness, the diameters of the necks, the distances between them, and the depth of the internal cavity of the absorber is also chosen in such a way as to provide the required spectrum of absorbed frequencies in accordance with the dependence

where d is the diameter of the hole, m; f is the resonant frequency, Hz; L is the distance between the holes, m; h is the depth of the internal cavity of the absorber, m; c _o is the speed of sound in air at 20 ° C; l _eff - the effective length of the neck of the hole, m, determined by the dependence

, where l is the panel thickness [3, p. 65, fig. 3.17].

This device is widely used to create a given acoustic spectral characteristics of the interior. The disadvantage of these absorbers is their lack of versatility when changing the frequency spectrum in the acoustic noise picture of the environment.

The objective of the invention is to expand the possibilities of using a noise absorber in various acoustic environments and, as a result, increase the effectiveness of protection against acoustic noise pollution in open industrial areas.

, где d - диаметр отверстия в сменном элементе, м; f - резонансная частота, Гц; L - расстояние между отверстиями, м; h - расстояние между задней внутренней стенкой короба и окончанием сменного элемента, м; c_o - скорость звука в воздухе при 20°C; l_эф - эффективная длина горловины отверстия, м, определяемая зависимостью

, где l - длина сменного элемента, м.This goal is achieved due to the fact that the resonant attenuator, consisting of hermetically connected panels and ducts, moreover, on the surface of the panel are necks of resonators, at the mouth of which damping material is placed, while the ratio of effective neck length, neck diameters, and distances between their centers, as well as the depth of the internal cavity of the absorber are selected in such a way as to provide the required spectrum of absorbed frequencies; it has interchangeable elements installed in technological holes in the panel, and the mouths of the resonators are holes made in replaceable elements, the depth of the internal cavity of the absorber is formed by the distance between the rear inner wall of the box and the end of the replaceable element, and the ratio of the lengths of replaceable elements, the diameters of the mouths of the resonators and the distances between their centers, as well as between the rear inner wall of the box and the end of the replaceable element are selected in accordance with the dependence

where d is the diameter of the hole in the replaceable element, m; f is the resonant frequency, Hz; L is the distance between the holes, m; h is the distance between the rear inner wall of the box and the end of the replaceable element, m; c _o is the speed of sound in air at 20 ° C; l _eff - the effective length of the neck of the hole, m, determined by the dependence

where l is the length of the replaceable element, m

.According to the second option, the choice of size ratio can be carried out in accordance with the dependence

.

According to the third embodiment, the noise absorber may have stiffeners connecting the duct and panel to each other.

According to the fourth embodiment, the box can be oriented in the working position so that the panel is located below.

In the fifth embodiment, the replaceable elements have damping material in the hole.

According to the sixth embodiment, interchangeable elements can be made in the form of a rod with a cover, by means of which the interchangeable element fits snugly against the panel, and a collar made around the circumference of the rod of the interchangeable element in such a way as to fix the interchangeable element in the technological holes on the panel.

A general view of a resonant noise absorber is shown in FIG. Figure 2 shows a view of the panel. Figure 3; 4 and 5 show possible options for constructing the device. 6 shows a replaceable element. Figure 7 shows the fixation of the replaceable element in the technological hole of the panel.

The sound absorber consists of a panel 1 with technological holes 2, a duct 3 and replaceable elements 4 with holes 5. In addition, the device may include stiffeners 6, and holes 5 may contain damping material 7. The replaceable element 4 may take the form of a rod 8 s lid 9 and shoulder 10.

The tight connection of the panel 1 and the duct 3 creates a closed volume. The presence of technological holes 2 on the panel 1 makes it possible to install identical replaceable elements 4. The diameter of the hole 5 in the replaceable element 4 and the length of the rod of the replaceable element are determined based on the frequency range in which noise absorption is necessary.

The presence of the cover 9 of the replaceable element 4 and the shoulder 10 provide fixation and snug fit of the replaceable element to the panel 2.

Thus, the device implements a set of Helmholtz resonators. Upon reaching the installation area of the noise absorber of the acoustic noise signal propagating in the technosphere medium, its absorption is ensured. The presence of stiffeners 6 increases the rigidity of the structure, increasing the ability of the resonators to absorb signals. The damping material 7 provides an increase in the active acoustic resistance and, as a consequence, the absorption coefficient of the resonator as a whole.

, где S - площадь сечения отверстия, м²; L - расстояние между отверстиями, м; h - расстояние между задней внутренней стенкой короба и окончанием сменного элемента, м; l - длина сменного элемента, м; c - скорость звука в воздухе при 20°C [3, стр.66]. С учетом соотношения

, где d - диаметр отверстия, м, проведем несложные преобразования и получим

. Последующие преобразования позволят получить выражения для определения одного из определяемых параметров при заданных остальных, например,

.The resonant frequency f of the Helmholtz resonator is determined by the expression

where S is the cross-sectional area of the hole, m ² ; L is the distance between the holes, m; h is the distance between the rear inner wall of the box and the end of the replaceable element, m; l is the length of the replaceable element, m; c is the speed of sound in air at 20 ° C [3, p. 66]. Given the ratio

, where d is the diameter of the hole, m, we carry out simple transformations and get

. Subsequent transformations will allow us to obtain expressions for determining one of the determined parameters for the given others, for example,

.

The device can be installed on various supporting structures in the zone of active acoustic noise pollution: on partitions, fences, barriers, walls of residential buildings and technical buildings, etc.

The technical result provided by the given set of features is to provide the possibility of using a resonant noise absorber in various acoustic environments and, ultimately, to provide more effective protection against acoustic noise pollution of open urbanized spaces while reducing the cost of each individual device.

Information sources

1. A.S. USSR No. 348755, F01N 1/04. Soundproofing Panel / 1970

2. Japanese Patent No. 6004306. IPC B32B 3/12. Publ. "Inventions of the countries of the world." 1996, issue 26, No. 9.

3. 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.

Claims (6)

1. The resonant noise absorber, consisting of hermetically connected panels and ducts, and on the surface of the panel are necks of resonators, at the mouth of which damping material is placed, while the ratio of the effective length of the neck, the diameters of the necks, the distances between their centers, as well as the depth of the internal cavity of the absorber are selected in such a way as to provide the required spectrum of absorbed frequencies, characterized in that in order to increase the efficiency of protection against acoustic noise pollution, it is equipped n replaceable elements installed in the technological openings on the panel, and the mouths of the resonators are holes made in replaceable elements, the depth of the internal cavity of the absorber is formed by the distance between the rear inner wall of the box and the end of the replaceable element, and the ratio of the lengths of replaceable elements, the diameters of the neck of the resonator and the distances between their centers, as well as between the rear inner wall of the box and the end of the replaceable element are selected in accordance with the dependence

where d is the diameter of the hole in the replaceable element, m; f is the resonant frequency, Hz; L is the distance between the holes, m; h is the distance between the rear inner wall of the box and the end of the replaceable element, m; c ₀ is the speed of sound in air at 20 ° C; l _eff - the effective length of the neck of the hole, m, determined by the dependence

where l is the length of the replaceable element, m 2. The resonant noise absorber according to claim 1, characterized in that the choice of aspect ratio can be carried out in accordance with the dependence

. 3. The resonant noise absorber according to claim 1, characterized in that the stiffeners are additionally applied, connecting the box and the panel. 4. The resonant absorber according to claim 1, characterized in that the design of the device is oriented in the operating position so that the panel is located below. 5. Resonant silencer according to any one of claims 1 to 4, characterized in that the replaceable elements have damping material in the hole. 6. Resonant attenuator according to any one of claims 1 to 4, characterized in that the interchangeable elements can be made in the form of a rod with a cover, by means of which the interchangeable element fits snugly against the panel, and a shoulder made around the circumference of the rod of the interchangeable element so that ensure the fixation of the replaceable element in the technological holes on the panel.

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