RU2334062C2 - Cubic custom-made acoustic absorber - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: cubic custom-made acoustic absorber consists of rigid frame that is suspended to production building ceiling with sound absorbing material that is wrapped in cloth and installed inside the frame. Frame is shaped as two cubic surfaces, one of which - external one - is made as perforated, and the other - internal one - as acoustically transparent. Sound absorbing material, which is wrapped with meshy capron fabric, is installed in the gap between the frames, which are connected between each other by means of resonance inserts of different diameter, and internal cavity is separated by partition into two resonance cavities, one of which is filled with acoustic absorber, at that lamps with power supply are installed in resonance inserts.

EFFECT: increase of sound-suppression efficiency and improvement of performance properties.

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Description

The invention relates to industrial acoustics, in particular to broadband sound attenuation, and can be used in all sectors of the economy for sound attenuation of production equipment by sound absorption.

The closest technical solution in terms of technical nature and the achieved result is a piece sound absorber (RF Patent No. 2059772, CL B04V 1/84, 1994), including a frame suspended on a supporting structure with sound absorbing elements rigidly fixed on it in the form of alternating active with sound-absorbing material and reactive cavities separated by partitions fixed to the bottom of the frame from its inside.

A disadvantage of the known technical solution adopted as a prototype is the relatively low noise attenuation efficiency due to the need to constantly adjust the pitch of the sound absorbing elements and select their angle of inclination to the reflective surface, which limits the spectral possibilities of sound attenuation due to the absence of resonant volumes tuned to a certain frequency band .

The technical result of the invention is to increase the efficiency of sound attenuation by expanding the frequency range and improving operational properties.

This is achieved by the fact that in a cubic piece sound absorber, consisting of a rigid frame suspended by hooks on cables to the ceiling of the industrial building, with sound-absorbing material located inside the frame wrapped in mesh nylon fabric, the frame is made in the form of two cubic surfaces, one of which - external - made of perforated, and the other - internal - acoustically transparent, and the sound-absorbing material wrapped in mesh nylon fabric is located in the gap between the frames, which are interconnected by resonant inserts of different diameters, and the internal cavity is divided by a partition into two resonant cavities, one of which is filled with a sound absorber,

The drawing shows a frontal section of the proposed cubic piece sound absorber.

The cubic sound absorber consists of a rigid frame 1, suspended by hooks on cables 2 to the ceiling of the industrial building 3. The frame is made in the form of two cubic surfaces, one of which is external 1 is perforated and the other internal 5 is acoustically transparent, moreover, the sound-absorbing material 4, wrapped with a mesh nylon fabric, is located in the gap between the frames, which are interconnected by resonant inserts 9 and 11 of different diameters of the holes 10 and 12, and the inner cavity divided by a partition 6 into two resonant cavities 7 and 8, one of which can be filled with a sound absorber. In resonant inserts 9 can be placed lamps 13 with power supply 14.

The filling is carried out with a sound-absorbing non-combustible material (for example, vinipore, fiberglass) with a protective layer of fiberglass, preventing the loss of sound absorber.

Piece sound absorber works as follows.

Sound waves propagating in the production room interact with 4 cavities filled with sound absorber. Sound absorption at low and medium frequencies occurs due to the acoustic effect constructed on the principle of Helmholtz resonators formed by cavities 7 and 8. Different volumes of resonant cavities serve to suppress sound vibrations in the required sound frequency range, usually large volumes to suppress noise in the low-frequency range , and small - in the medium and high frequencies.

The interaction of sound waves with active cavities filled with a non-combustible sound absorber 4 leads to sound attenuation in the high-frequency range, and due to the presence of cavities 8, the sound absorption surface increases, and, as a result, the sound absorption coefficient increases.

An advantage of the invention is its versatility of application for various production facilities having a wide variety of noise characteristics. At the same time, it should be noted the relative ease of tuning a piece of sound absorber to the required frequency range of noise reduction and its economically feasible effectiveness (meaning reducing noise to sanitary standards). In addition, the implementation of the sound absorber of non-combustible materials makes the design fireproof.

Claims (1)

A cubic piece sound absorber consisting of a rigid frame suspended from the ceiling of an industrial building with a sound-absorbing material inside the frame wrapped in fabric, characterized in that the frame is shaped in the form of two cubic surfaces, one of which is external, made perforated and the other the inner one is acoustically transparent, and the sound-absorbing material wrapped in a mesh nylon fabric is located in the gap between the frames, which are interconnected by means of onansnyh inserts of different diameters, and the inner cavity is divided by a partition into two resonant cavities, one of which is filled with a sound absorber, the inserts placed in the resonance lamps with power.