RU2017987C1 - Silencer - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: silencer has cylindric case made of porous material, insert provided on a porous belt, receiving chamber positioned at the inlet to the case, and distributing grids secured in the case from the side of faces of the insert. Air enters the case made of porous material from the receiving chamber through the distributing grid. The case is provided with the insert made of porous material. Exhaust compressed air is discharged trough the second distributing grid to the atmosphere. In addition silencer has case made of porous material, insert made of porous belt received within the case and distributing grids secured within the case from the side of faces of the insert. EFFECT: enhanced silencing. 2 cl, 2 dwg

Description

 The invention relates to the field of noise reduction, and more particularly to reducing aerodynamic noise.

 Known silencer of aerodynamic noise, which is a closed chamber of permeable porous material [1].

 A disadvantage of the known silencer is the low sound absorption ability due to the fact that noise reduction is carried out when compressed air passes through the porous walls of the housing.

 Also known is a silencer of aerodynamic noise, the noise reduction of which is carried out in two stages: in the receiving chamber and in a permeable porous sleeve, muffled from above [2].

 The disadvantage of such a silencer is the low noise reduction efficiency due to the direct flow of compressed air through a permeable porous sleeve.

 The closest technical solution (prototype) is the decision on the application. Noise reduction in the silencer is carried out in a receiving chamber and a cylindrical body, inside of which there is an insert made in the form of a spiral [3].

 The disadvantage of this muffler is the low noise reduction efficiency due to the fact that the housing and the insert inside the housing, made in the form of a spiral, are made of compact materials.

 In the known silencer, the casing is made of a porous material, inside of which there is an insert of a porous tape made in the form of a spiral, the muffler is equipped with distribution grids fixed in the casing from the side of the insert ends.

 The silencer of aerodynamic noise has a body made of porous material, inside of which there is an insert made of a porous tape made in the form of a spiral. The use of a body made of a porous material and an insert made of a porous tape can significantly increase the effective sound absorption area in comparison with compact materials. When the air stream comes in contact with a developed porous medium, the sound-absorbing effect increases significantly. Distribution grilles contribute to a uniform distribution of compressed air over the cross section of the muffler, which increases its sound-absorbing ability.

 In FIG. 1 shows an aerodynamic noise muffler; in FIG. 2 is a section AA in FIG. 1.

 The aerodynamic noise silencer comprises a cylindrical housing 1 made of porous material with an inlet and outlet, an insert 2 made of a porous tape placed inside the housing 1 and made in the form of a spiral, a receiving chamber 3 with an inlet pipe 4 located at the entrance to the housing 1 , distribution grilles 5 and 6, fixed in the housing 1 from the side of the ends of the insert 2.

 Air from the pneumatic device through the inlet pipe 4 enters the receiving chamber 3, in which there is an initial decrease in the level of aerodynamic noise. From the receiving chamber 3, the air flow through the distribution grid 5 enters the housing 1 made of a porous material, inside of which there is an insert 2 of a porous tape made in the form of a spiral. The body 1 of a porous material with an insert 2 of a porous tape serves as the second step in reducing the level of aerodynamic noise. The exhaust compressed air leaves through the distribution grid 6 into the atmosphere. The effect of reducing exhaust noise is achieved by contacting evenly distributed compressed air with the developed surface of the housing 1 made of a porous material, and the insert 2 of a porous tape made in the form of a spiral.

 The use of a body of porous material and an insert of porous tape, as well as two distribution grilles, allows to achieve a significant effect of reducing aerodynamic noise.

Claims (2)

 1. SILENCER OF AERODYNAMIC NOISE, comprising a cylindrical body with inlet and outlet, an insert located inside the body and made in the form of a spiral, and a receiving chamber located at the entrance to the body, characterized in that the body is made of porous material, and the insert is made of porous tapes.  2. The muffler according to claim 1, characterized in that it is equipped with distribution grids fixed in the housing from the side of the insert ends.

Images