RU2658924C2 - Resonance sound absorber - Google Patents

Abstract

FIELD: acoustics.

SUBSTANCE: invention relates to means of reducing noise in industrial and transport facilities. Device contains rigid frame from the upper, the active one, part and lower, the reactive one, parts. Reactive part is made in the form of at least three coaxially and axial symmetrically arranged resonance cylinders, which cavities are provided with holes of different diameters, performing the Helmholtz resonator necks functions, and located along the cylinders ends support disks rigidly and hermetically connect them to each other, forming the sound absorber rigid frame reactive part. Upper active part is made in the form of a rigid perforated cylindrical shell with a perforated cover and a solid base. Cavity of cylindrical shell is filled with sound absorbing material. Upper and lower parts are interconnected by a resilient damping element. To the cylindrical shell perforated cover an element is hinged, by means of which the frame is fixed to the desired object. Around the perforated cylindrical shell at least one helical sound-absorbing element is located, made in the form of enclosing the shell cylindrical helical spring, and resting against the support disk connected to the sound absorber reactive part. Reactive part is enclosed in the acoustically transparent spherical shell. Cavity between the spherical shell and the outer cylinder is filled with the sound absorber.

EFFECT: increase in the noise suppression efficiency at high frequencies by introduction into the single piece sound absorber of volumetric cavities for the Helmholtz resonators, which increase efficiency at high frequencies.

1 cl, 1 dwg

Description

The invention relates to noise reduction in industrial and transport facilities.

The closest technical solution to the technical nature and the achieved result is a piece sound absorber according to the patent of the Russian Federation No. 2485256 [1], containing a rigid perforated frame, inside of which a sound-absorbing material is placed, the frame is made of the lower part of the conical shape with the cover and the upper part of the cylindrical shape, which is attached to the cover of the lower part of the perforated frame by means of a vibration damping pad, which allows damping high-frequency vibrations, while to the upper part of the cylindrical about the perforated frame, the element is pivotally fixed by means of which the frame is attached to the desired object, for example, the ceiling of the production room, and the cavities of the lower and upper parts of the perforated frame are filled with sound-absorbing materials of different densities, and at least one around the upper part of the cylindrical shape of the perforated frame a screw sound-absorbing element of a piece absorber, made in the form of a cylindrical helical spring from a dense non-combustible sound-absorbing of material.

The disadvantages of this piece of sound absorber is the relatively low noise reduction efficiency at low and medium frequencies due to the lack of volume cavities for Helmholtz resonators and cavities filled with a sound absorber, i.e. absorbers of various densities.

EFFECT: increased efficiency of sound attenuation at high frequencies by introducing volume cavities for Helmholtz resonators into a piece sound absorber, which increase efficiency at high frequencies.

This is achieved by the fact that in a resonant sound absorber containing a rigid frame from the upper, active, part and lower, reactive part, the reactive part is made in the form of at least three coaxially and axisymmetrically located resonant cylinders, the cavities of which are provided with holes of different diameters, acting as the neck of the Helmholtz resonator, and the support disks located at the ends of the cylinders rigidly and hermetically connect them together, forming the reactive part of the rigid frame of the sound absorber, while The upper, active part is made in the form of a rigid perforated cylindrical shell with a perforated cover and a solid base, the cavity of the cylindrical shell is filled with sound-absorbing material, and the connection of the upper and lower parts is made by means of an elastic-damping element that allows damping high-frequency vibrations, while to the perforated cover of the perforated cylindrical the shell is pivotally fixed to the element by which the frame is attached to the desired object, and around the perforation At least one helical sound-absorbing element is arranged in the form of a cylindrical helical spring, covering the shell and resting on a support disk connected to the reactive part of the sound absorber.

The drawing shows a diagram of a resonant sound absorber.

The resonant sound absorber contains a rigid frame of the upper, active, part 1 and lower, reactive, part 4, made in the form of at least three coaxially and axisymmetrically located resonant cylinders 8, 9 and 11, the cavities of which are provided with openings 7, 10, 12 different diameters, performing the functions of the necks of the Helmholtz resonator. The supporting disks 13 and 14, located at the ends of the cylinders, rigidly and hermetically connect them together, forming the reactive part 4 of the rigid frame of the sound absorber.

The upper, active, part 1 is made in the form of a rigid perforated cylindrical shell 2 with a perforated lid and a solid base, and the cavity of the cylindrical shell is filled with sound-absorbing material. The connection of the upper 1 and lower 4 parts is made by means of an elastic damping element 5, which allows damping high-frequency vibrations, while an element is pivotally fixed to the perforated cover of the perforated cylindrical shell 2, by which the frame is attached to the desired object, for example, the ceiling of the room.

Around the perforated cylindrical shell 2 is located at least one screw sound-absorbing element 3, made in the form of a cylindrical helical spring, covering the shell 2 and resting on the supporting disk 6 connected to the reactive part 4 of the sound absorber.

The screw sound-absorbing element 3 is made in the form of a hollow screw sound-absorbing element formed by the external and internal screw surfaces forming a cavity (not shown in the drawing), while the space formed by the external and internal screw surfaces is filled with sound-absorbing material (not shown in the drawing) with a density less than that of a screw sound-absorbing element 3.

The reactive part 4, made in the form of at least three coaxially and axisymmetrically located resonant cylinders 8, 9 and 11, the cavities of which are provided with holes 7, 10, 12 of different diameters, which serve as the necks of the Helmholtz resonator, is enclosed in an acoustically transparent spherical shell 15 made in the form of a light perforated frame, the inner cavity of which is lined with soundproof material, and the cavity between the spherical shell 15 and the external resonant cylinder 9 is filled with a sound absorber 16, when this spherical shell 15 is fixed with its upper part on the supporting disk 14, connecting the upper ends of the cylinders 8, 9 and 11.

It is possible that the holes 7, 10, 12 of different diameters, performing the functions of the necks of the Helmholtz resonator, located in the resonant cylinders 8, 9 and 11, are equipped with bushings connecting the cavities of the resonant cylinders with the outer surface of the spherical shell 15.

The resonant sound absorber operates as follows.

Sound waves propagating at an industrial or transport facility interact with the sound-absorbing material of a screw sound-absorbing element 3 located in the upper, active, part 1 of the frame, as well as in the perforated cylindrical shell 2, while the noise is reduced at low, medium and high frequencies, respectively .

The connection of the upper 1 and lower 4 parts of the frame by means of an elastic damping element 5 allows you to damp high-frequency vibrations that can be emitted by a rigid frame, which allows it to be used to reduce noise on transport objects. Sound absorption at medium and high frequencies occurs due to the acoustic effect, built on the principle of Helmholtz resonators, formed by the air cavities of resonant cylinders 8, 9 and 11, the cavities of which are provided with openings 7, 10, 12 of different diameters, which serve as the neck of the Helmholtz resonator, to suppress noise in a given frequency band, while in order to suppress sound vibrations in the desired sound frequency range, as a rule, large volumes of cavities of resonant cylinders 8, 9 and 11 are chosen to suppress noise in low-frequency range, and small - in the medium and high frequencies. The interaction of sound waves with a screw sound-absorbing element 3 leads to noise attenuation in the high frequency range, and the implementation of a sound absorber from non-combustible materials makes the design fireproof.

Claims (2)

1. Resonant sound absorber containing a rigid frame of the upper, active, part and lower, reactive part, the reactive part is made in the form of at least three coaxially and axisymmetrically located resonant cylinders, the cavities of which are provided with holes of different diameters, performing the functions of the neck of the resonator Helmholtz, and the support disks located at the ends of the cylinders rigidly and hermetically connect them together, forming the reactive part of the rigid frame of the sound absorber, while the upper, active part filled in the form of a rigid perforated cylindrical shell with a perforated cover and a solid base, the cavity of the cylindrical shell is filled with sound-absorbing material, and the connection of the upper and lower parts is made by means of an elastic damping element that allows damping high-frequency vibrations, while the perforated cover of the perforated cylindrical shell is hinged with which the frame is attached to the desired object, and around a perforated cylindrical at least one screw sound-absorbing element is arranged in the form of a cylindrical helical spring, covering the shell and resting on a support disk connected to the reactive part of the sound absorber, while the screw sound-absorbing element is made in the form of a hollow screw sound-absorbing element formed by an external and internal helical surfaces forming a cavity, while the space formed by the external and internal helical surfaces is filled with sound absorbing material with a density lower than that of a screw sound-absorbing element, characterized in that the reactive part, made in the form of at least three coaxially and axisymmetrically located resonant cylinders, the cavities of which are provided with holes of different diameters, which serve as the neck of the Helmholtz resonator, is enclosed in acoustically transparent spherical shell made in the form of a light perforated frame, the inner cavity of which is lined with soundproof material, and the cavity between the spherical The shell and the external resonance cylinder are filled with a sound absorber, while the spherical shell is fixed with its upper part on the supporting disk connecting the upper ends of the cylinders. 2. The resonant sound absorber according to claim 1, characterized in that the holes of different diameters acting as the necks of the Helmholtz resonator located in the resonant cylinders are provided with bushings connecting the cavities of the resonant cylinders with the outer surface of the spherical shell.

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