RU2300645C1 - Aerodynamic noise silencer - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: invention relates to devices designed for suppression of aerodynamic noises of pneumatic equipment and exhaust systems of compressed gas or air. Proposed noise silencer contains intake branch pipe and housing made of porous material and rigidly connected with intake branch pipe. Housing has base made in form of cup with bead in its upper part. At least two members made of porous material engage with said bead. Porous material members are made in form of cylindrical outer and inner bushings whose upper bases are connected with cover provided with bead for locking the bushings and are rigidly connected with base of cylindrical cup by threaded stud arranged coaxially to cup, bushings and cover and provided with washers and nuts on ends. Ratio of height of housing (A=C) to height of porous materials bushings B is within the range of optimum values (A=C)/B=1.5-2.5, and ratio of diameter "d" of inner bushing to diameter D of outer bushing made of porous material is within the range of optimum values d/D=0.3-0.7, and ratio of thickness "b" of bushings made of porous material to their height B is within the range of optimum values b/B=0.05-0.1.

EFFECT: improved efficiency of noise suppression.

4 cl, 1 dwg

Description

The invention relates to silencing aerodynamic noise of pneumatic equipment and systems for the release of compressed gas or air.

The closest technical solution in technical essence is an exhaust silencer containing an inlet pipe and an adjacent body of porous material (AS USSR No. 666279, F01N 1/24, 1972 - Prototype).

A disadvantage of the known technical solution is the relatively low efficiency of noise attenuation at low frequencies.

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

This is achieved by the fact that in the noise suppressor containing the inlet pipe and the housing made of porous material rigidly connected to it, the housing contains a base made in the form of a cup with a shoulder in its upper part, with which at least two elements of porous material interact in the form cylindrical outer and inner bushings, the upper bases of which are connected to a cover having a flange for fixing the bushings, and are rigidly connected to the base of the cylindrical glass by means of a threaded rod located coaxially to the glass , bushings and cover and having washers and nuts at the ends, and the ratio of the height of the entire body (A + C) to the height of the bushings of porous material B is in the range of optimal values: (A + C) / B = 1.5 ... 2 , 5, and the ratio of the diameter d of the inner sleeve to the diameter D of the outer sleeve of porous material is in the range of optimal values: d / D = 0.3 ... 0.7, and the ratio of the thickness b of the bushings of the porous material to their height B is in the range of optimal values: b / B = 0.05 ... 0.1.

The bushings can be made of cermet with a degree of porosity that is in the range of optimal values: 30 ... 45%, or in the form of layer-wise and cross-wound from porous threads wound on an acoustically transparent frame, such as a wire frame, or from a rigid porous noise-absorbing material , for example metal foam or shell stone.

The drawing shows a frontal section of the proposed silencer.

The noise suppressor contains an inlet pipe 2 and a housing 1 rigidly connected to it. The housing contains a base 1 made in the form of a cup with a shoulder 3 in its upper part 4, with which at least two elements 5 and 6 of a porous material in the form of a cylindrical 5 and inner 6 bushings, the upper bases of which are connected to the cover 7, having a flange for fixing the bushings, and are rigidly connected to the base 1 of the cylindrical glass by means of a threaded rod 8 located coaxially to the glass 1, the bushings 5 and 6 and the cover 7 and having on to the ends of the washer 10 and 11 and the nut 9 and 12. The ratio of the height of the entire housing 1 (A + C) to the height B of the bushings 5 and 6 of porous material is in the range of optimal values: (A + C) / B = 1.5 .. .2.5, and the ratio of the diameter d of the inner sleeve 6 to the diameter D of the outer sleeve 5 of porous material is in the range of optimal values: d / D = 0.3 ... 0.7, and the ratio of the thickness b of the bushings 5 and 6 of porous material to their height B is in the range of optimal values: b / B = 0.05 ... 0.1.

The bushings 5 and 6 can be made of cermet with a degree of porosity that is in the range of optimal values: 30 ... 45%, or in the form of layer and cross winding of porous threads wound on an acoustically transparent frame (not shown), for example a wire frame , or from a rigid porous sound-absorbing material, for example, metal foam or shell rock.

Silencer works as follows.

Sound waves together with a turbulent stream of compressed air from pneumatic equipment enter through the inlet pipe 2, through its opening into the housing 1. In this case, the phenomenon of radiation effect is completely eliminated due to the presence of bushings 5 and 6 of a porous material, and the noise attenuation efficiency increases due to the selection of geometric the parameters of the housing and bushings and the porosity of the structure of the proposed noise absorbing materials.

Claims (4)

1. A noise suppressor comprising an inlet pipe and a housing rigidly connected to it, comprising elements of a porous material, characterized in that the housing comprises a base made in the form of a cup with a shoulder in its upper part, with which at least two porous elements interact material in the form of cylindrical outer and inner bushings, the upper bases of which are connected to a cover having a collar for fixing the bushings and are rigidly connected to the base of the cylindrical glass by means of a threaded rod coaxial to the glass, bushings and cover and having washers and nuts at the ends, the ratio of the height of the entire body (A + C) to the height of the bushings of porous material B is in the range of optimal values: (A + C) / B = 1.5. ..2.5, and the ratio of the diameter d of the inner sleeve to the diameter D of the outer sleeve of porous material is in the range of optimal values: d / D = 0.3 ... 0.7, and the ratio of the thickness b of the bushings of the porous material to their height B is in the range of optimal values: b / B = 0.05 ... 0.1. 2. The silencer according to claim 1, characterized in that the bushings are made of cermet with a degree of porosity in the range of optimal values: 30 ... 45%. 3. The silencer according to claim 1, characterized in that the bushings are made in the form of a layer-wise and cross-wound of porous threads wound on an acoustically transparent frame, such as a wire frame. 4. The silencer according to claim 1, characterized in that the bushings are made of a rigid porous sound-absorbing material, for example, metal foam or a shell rock.