RU2610028C1 - Kochetov single-piece sound absorber - Google Patents

Abstract

FIELD: physics, acoustics.

SUBSTANCE: invention relates to industrial acoustics, particularly to single-piece sound absorbers. Said sound absorber includes a frame filled with sound-absorbing material, placed in a protective shell. The frame is made from a rigid perforated external cylindrical shell which, through rigid upper and lower flat bases, is connected to an inner coaxially arranged cylindrical shell made of sound-reflecting material. The shells of the frame form an inner cylindrical central cavity which is axially symmetrical to the frame. The upper and lower flat bases of the frame, arranged opposite each other, are made of perforated areas, arranged in peripheral parts thereof, in contact with the cavity between the shells, filled with sound-absorbing material. The central parts of the flat bases of the frame are sound-insulating and are respectively arranged in the upper and lower parts of the central cavity and are double-layered. One of the layers is made of sound-reflecting material and the other is made of sound-absorbing material, arranged between the sound-reflecting material and the external surface of the bases. The resonance part of the sound-absorber is attached to the rigid perforated outer cylindrical shell. The former is made in the form of at least two necks of a Helmholtz resonator, made in form of cylindrical tubes, rigidly connected to the outer cylindrical shell of the frame and installed perpendicular to its axis. The cavities of the tubes are connected to the inner, axially symmetrical to the frame, cylindrical cavity, serving as the resonance cavity of the Helmholtz resonator, the volume of which is calculated for the required frequency.

EFFECT: invention provides high efficiency of soundproofing.

4 cl, 2 dwg

Description

The invention relates to industrial acoustics.

The closest technical solution to the technical nature and the achieved result is a piece of sound absorber according to the patent of the Russian Federation No. 2531152, class. E04B 1/84 [prototype], comprising a frame with sound-absorbing lining, a suspension system.

The disadvantage of the technical solution adopted as a prototype is the relatively low efficiency of sound attenuation due to the relatively low coefficient of sound absorption.

The technical result is an increase in the efficiency of sound attenuation.

This is achieved by the fact that in a piece sound absorber consisting of a frame filled with sound-absorbing material placed in a protective sheath, the frame is made of a rigid perforated outer cylindrical shell, which is connected to the inner coaxially located cylindrical shell made of rigid upper and lower flat bases reflecting material, while the shell shells form an axially symmetric inner shell of a cylindrical central cavity, with the upper and later, the flat base of the frame, located opposite each other, is made with perforated sections located in their peripheral parts in contact with the cavity between the shells filled with sound-absorbing material, and the central parts of the flat base of the frame are soundproof and hermetically located in the upper and lower parts of the central cavity and are made two-layer, consisting of a layer of sound-reflecting material, for example foam aluminum, or cermets, or metal foam, and sound-absorbing material located between the sound-reflecting material and the outer surface of the bases, and to the rigid perforated outer cylindrical shell of the frame attached to the resonant part of the sound absorber, made in the form of at least two necks of the Helmholtz resonator, made in the form of cylindrical tubes rigidly connected to the outer cylindrical shell of the frame and mounted perpendicular to its axis, while the cavity of the tubes are connected to the inner, axisymmetric frame, cylindrical cavity, which serves as the resonant cavity of the Helmholtz resonator, the volume of which is calculated at the required frequencies, the noise level at which must be reduced with the help of the resonant part of the sound absorber.

In FIG. 1 shows a general view of a piece of sound absorber, in FIG. 2 - section AA, perpendicular to the axis of the piece sound absorber.

The piece sound absorber (Fig. 1) contains a frame that is made of a rigid perforated outer cylindrical shell 1, which is connected via a rigid upper 3 and lower 4 flat bases to an inner coaxially located cylindrical shell 2 made of sound-reflecting material. Shells 1 and 2 of the frame form an axially symmetric internal frame with a cylindrical central cavity 6. An element 8 is pivotally fixed to the upper base 3 of the frame, by which the frame is attached to the desired object, for example, the ceiling of the production room.

In this case, the cavity between the shells 1 and 2 is filled with sound-absorbing material 5, for example rockwool-type basalt mineral wool or URSA-type mineral wool, the sound-absorbing material over its entire surface lining with an acoustically transparent material (not shown), for example, fiberglass type EZ-100 or polymer type "Poviden."

The upper 3 and lower 4 flat base of the frame, located opposite each other, are made with perforated sections 12 and 13 located in their peripheral parts in contact with the cavity between the shells 1 and 2, filled with sound-absorbing material 5. Central parts 14 and 15 of the flat base 3 and 4 frames are made soundproof and hermetically located in the upper and lower parts of the central cavity 6, respectively. The central parts 14 and 15 of the flat bases facing toward the central cavity 6 are double-layer Consisting of a layer of a reflecting material, for example aluminum foam or sintered metal, or metalloporolona and sound absorbing material disposed between a reflecting material and the outer surface of the base. At the same time, rockwool type mineral wool or URSA type mineral wool was used as sound-absorbing material.

The resonant part (Fig. 2) of the sound absorber is made to a rigid perforated outer cylindrical shell 1 of the frame, made in the form of at least two necks 7 and 9 of the Helmholtz resonator, made in the form of cylindrical tubes rigidly connected to the outer cylindrical shell 1 of the frame and mounted perpendicular to it axis, while the cavity of the tube is connected to the inner axisymmetric frame of the cylindrical Central cavity 6, which serves as the resonant cavity of the Helmholtz resonator, the volume of which is calculated frequency at the required frequencies, the noise level at which it is necessary to reduce using the resonant part (Fig. 2) of the sound absorber.

A variant is possible when at least two additional resonant holes 10 and 11 connected to the central cavity 6 are made on one of the necks, for example the neck 9 of the resonator.

The perforated external rigid cylindrical shell 1 of the frame has the following perforation parameters: hole diameter - 3 ÷ 7 mm, perforation percentage 10 ÷ 15%, and the shape of the hole can be made in the form of holes of a round, triangular, square, rectangular or rhomboid profile, while in the case of non-circular holes, the maximum diameter of the circle inscribed in the polygon should be considered as the conditional diameter.

As a sound-reflecting material of a rigid inner coaxially located cylindrical shell 2, foam aluminum, or cermets, or metal foam is used.

Piece sound absorber works as follows.

Sound waves propagating from an object of intense noise (not shown) interact with sound-absorbing material 5, where noise is suppressed in different frequency bands, for example, at low and medium frequencies, respectively. Sound absorption at medium and high frequencies occurs due to the acoustic effect built on the principle of Helmholtz resonators formed by the necks 7 and 9 of the Helmholtz resonator, made in the form of cylindrical tubes rigidly connected to the outer cylindrical shell 1 of the frame and mounted perpendicular to its axis, with the neck 7 and 9 of the resonator are connected to the Central cavity 6, which serves as the resonant cavity of the Helmholtz resonator.

Claims (4)

1. Piece sound absorber, consisting of a frame filled with sound-absorbing material placed in a protective shell, characterized in that the frame is made of a rigid perforated outer cylindrical shell, which is connected via a rigid upper and lower flat bases to an inner coaxially located cylindrical shell made of reflecting material, while the shell shells form an axially symmetric inner shell with a cylindrical central cavity, the upper and lower e the flat base of the frame, located opposite each other, is made with perforated sections located in their peripheral parts in contact with the cavity between the shells filled with sound-absorbing material, and the central parts of the flat base of the frame are made soundproof and hermetically located in the upper and lower parts of the Central cavity and are made two-layer, consisting of a layer of sound-reflecting material, for example foam aluminum, or cermets, or metal foam, and a sound-absorbing material located between the sound-reflecting material and the outer surface of the bases, and to the rigid perforated outer cylindrical shell of the frame is attached a resonant part of the sound absorber, made in the form of at least two necks of the Helmholtz resonator, made in the form of cylindrical tubes rigidly connected to the outer cylindrical shell of the frame, and installed perpendicular to its axis, while the cavity of the tubes are connected to the inner axisymmetric cylindrical frame cavity serving as the resonant cavity of the Helmholtz resonator, the volume of which is calculated at the required frequencies, the noise level at which must be reduced using the resonant part of the sound absorber. 2. The piece sound absorber according to claim 1, characterized in that at least two additional resonant holes connected to the central cavity are made on one of the neck of the resonator. 3. The piece sound absorber according to claim 1, characterized in that the perforated external rigid cylindrical shell of the frame has the following perforation parameters: hole diameter - 3 ÷ 7 mm, perforation percentage of 10 ÷ 15%, and the shape of the holes can be made in the form of round holes , triangular, square, rectangular or rhomboid profile, while in the case of non-circular holes, the maximum diameter of a circle inscribed in a polygon should be considered as a conditional diameter. 4. The unit sound absorber according to claim 1, characterized in that foam aluminum, or cermet, or metal foam is used as the sound-reflecting material of the rigid inner coaxially located cylindrical shell.

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