RU2576703C1 - Single-piece kochetov sound absorber - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to means of reducing noise in industrial and transport facilities. This is achieved in that in the piece absorbers, comprising a rigid perforated cage, within which is placed absorbent material, the frame is made of a bottom part of the conical shape with the lid and the upper part of cylindrical shape, which is attached to the cover bottom of the perforated framework by means of vibration damping pads allowing to dampen high frequency vibrations while the upper part of the cylindrical perforated frame pivoted element by means of which the frame is attached to a desired object, such as the ceiling of the production premises, and the cavities of the lower and upper portions of the perforated frame filled with sound-absorbing materials of different density, wherein around the upper part of the cylindrical shaped perforated frame is at least one sound-absorbing helical element piece absorber made in the form of a coil spring retardant dense absorbing material.

EFFECT: improving the efficiency of noise reduction at low and medium frequencies.

1 cl, 2 dwg

Description

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

The closest technical solution to the claimed object is a piece of sound absorber in cabins on river and sea vessels according to the patent of the Russian Federation No. 2495202 (prototype), made in the form of at least a trihedral pyramidal structure, consisting of inclined faces connected to form the apex fasteners, and the ship’s bulkhead is used as the base of the trihedral pyramid, to which perforated inclined panels are attached through vibration damping elements by means of fasteners and elastic ties nor, in this case, elastic ties are located inside the frame in a plane perpendicular to the ship’s bulkhead, with one end of the ties fastened to hooks fixed to the bulkhead and the other to fasteners tightening the inclined faces, on the inside of which are sound-absorbing non-combustible material wrapped an acoustically transparent material, while inside the frame between the layers of sound-absorbing material there is an air cavity.

The disadvantages of this sound absorber is the relatively low noise reduction efficiency at low and medium frequencies due to the lack of volumetric cavities filled with a sound absorber, absorbers of various densities.

The technical result is an increase in noise reduction efficiency at low and medium frequencies.

This is achieved by the fact that in a piece of sound absorber containing a rigid perforated frame, within which a sound-absorbing material is placed, the frame is made of the lower part of the conical shape with a lid 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 that allows damping high-frequency vibrations, while to the upper part of the cylindrical perforated frame the element is pivotally fixed by which the frame is attached to the required 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 various densities, and at least one screw sound-absorbing piece absorber is arranged around the upper part of the cylindrical shape of the perforated frame, made in the form of a cylindrical helical spring made of dense non-combustible sound-absorbing material.

In FIG. 1 shows a general view of a piece of sound absorber, in FIG. 2 is a sectional view of a sound absorbing screw element of a piece absorber.

The piece sound absorber consists of a rigid perforated frame (Fig. 1), consisting of a lower part 1 of a conical shape with a cover 2 and an upper part 4 of a cylindrical shape with an upper base 6 and a lower base 5, which is attached to the cover 2 of the lower part of the perforated frame by means of a vibration damping pad 8, which allows damping high-frequency oscillations transmitted from the object (not shown in the drawing). The gasket 8 can be made of vibration damping material, such as plastic compound type "Agate" or mastic VD-17.

An element 10 is pivotally fixed to the upper base 6 of the upper part of the cylindrical perforated frame by means of which the frame is attached to the desired object, for example, the ceiling of the production room, the bulkhead of the ship cabin, the supporting structure of the production equipment, the cavities of the lower part 1 and the upper part 4 of the perforated frame are filled respectively sound-absorbing materials 3 and 7 of various densities, suppressing noise, respectively, in different frequency bands, for example at low and medium frequencies otah, respectively.

Around the upper part 4 of the cylindrical shape of the perforated frame there is at least one screw sound absorbing element 9 of the piece absorber, made in the form of a cylindrical helical spring made of a dense non-combustible sound-absorbing material, for example, Vinipore, or thin glass fiber wrapped in an acoustically transparent material, for example fiberglass.

The screw sound-absorbing element 9 of the piece absorber (Fig. 2) can be made in the form of a hollow screw sound-absorbing element formed by the external 11 and internal 12 screw surfaces forming the cavity 14, while the space formed by the external 11 and internal 12 screw surfaces, for example, circular cross-section filled with sound-absorbing material 13.

It is possible that the cavity of the screw sound-absorbing element formed by its external and internal screw surfaces is filled with sound-absorbing material from rockwool basalt-based mineral wool, or URSA-type mineral wool, or P-75 basalt wool, or glass wool with lining with glass wool, and the sound-absorbing material over its entire surface is lined with an acoustically transparent material, such as fiberglass type EZ-100 or a polymer of the type “visible”, and the outer and inner screw over the screw sound-absorbing element is made of a material based on aluminum-containing alloys, followed by filling them with titanium hydride or air with a density in the range of 0.5 ... 0.9 kg / m with the following strength properties: compressive strength in the range of 5 ... 10 MPa, tensile strength bending within 10 ... 20 MPa, for example foam aluminum.

Piece sound absorber works as follows.

Sound waves propagating at industrial or transport facilities interact with sound absorbing materials 3 and 7 of different densities, which suppress noise 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 air cavities of a perforated frame. Different volumes of resonant cavities: the lower part 1 of the conical shape and the upper part 4 of the cylindrical shape, serve to suppress sound vibrations in the required sound frequency range, usually large volumes to suppress noise in the low frequency range, and small ones in the medium and high frequencies. The interaction of sound waves with a screw sound-absorbing element 9 leads to noise attenuation in the high frequency range, and the implementation of a sound absorber of non-combustible materials makes the design fireproof.

Claims (1)

A piece sound absorber containing a rigid perforated frame, inside of which a sound-absorbing material is placed, characterized in that the frame is made of the lower part of the conical shape with a lid 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, at the same time, an element is secured to the upper part of the cylindrical perforated frame by means of which the frame is attached to the 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 screw sound-absorbing piece absorber is arranged around the upper part of the cylindrical shape of the perforated frame, made in the form of a cylindrical helical spring made of dense non-combustible sound-absorbing material, and the screw sound-absorbing element of the piece absorber is made in the form of a hollow of an intact sound-absorbing element formed by the outer and inner helical surfaces forming a cavity, wherein the space formed by the outer and inner helical surfaces is filled with sound-absorbing material, and the cavity of the helical sound-absorbing element formed by its outer and inner helical surfaces is filled with sound-absorbing material from mineral wool on basaltic rockwool type, or mineral wool type URSA, or basaltic cotton wool type P-75, or glass wool lined with eklokom, and the sound-absorbing material over its entire surface is lined with an acoustically transparent material, such as fiberglass type EZ-100 or a polymer of the type "visible", and the outer and inner screw surfaces of the screw sound-absorbing element are made of material based on aluminum-containing alloys, for example, foam, followed by filling them with titanium hydride or air with a density in the range of 0.5 ... 0.9 kg / m ³ with the following strength properties: compressive strength in the range of 5 ... 10 MPa, tensile strength ib within 10 ... 20 MPa.

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