RU2757554C1 - Noise muffler (nm) - Google Patents

Abstract

FIELD: noise reduction.

SUBSTANCE: invention relates to the field of noise reduction of aerodynamic sources; it can be used in air duct networks of ventilation and air conditioning systems. A noise muffler contains a case with at least one row of sound-absorbing elements located in it, stretched across the flow, installed to form channels for air passage between each other, wherein each sound-absorbing element is equipped with a partition including a dihedral angle with an inner area located on the side of the input of sound waves to the muffler, and outer surfaces of faces facing channels for air passage. Partitions are profiled, with a +-cross-shaped profile in profile cross sections or in the form of corrugated plates of a W-shaped profile in profile cross sections.

EFFECT: when implementing the invention, the creation of a noise muffler is ensured, which has a higher efficiency of noise reduction with a variable direction of air flow and a higher convenience of installing a muffler in an air duct network.

3 cl, 2 dwg

Description

The proposed invention relates to the field of noise reduction of aerodynamic sources and can be used in duct networks of ventilation and air conditioning systems.

Known is a tubular noise muffler containing a pipe made of perforated sheet material or mesh, forming a channel for the passage of air, and enclosing it a sealed casing, the space between which is filled with sound-absorbing material (G.L. Osipov, E.Ya. Yudin, G. Hübner and others - M .: Stroyizdat, 1987).

This muffler is convenient in that the shape of the perforated pipe and the enclosing casing do not depend on each other, which makes it possible to use free space for its installation in tight spaces. However, the disadvantage of such a muffler is that it cannot be used for air ducts with a cross-sectional size exceeding 500 mm. This is due to the fact that when the specified size of the duct is exceeded, the sound absorption decreases due to the weakening of the effect of the absorbing walls on the sound field in the middle of the muffler.

The prototype of the proposed noise muffler can be a noise muffler containing a housing with at least one extended across the flow row of sound-absorbing elements installed to form channels for air passage, and each sound-absorbing element is equipped with a partition that includes a dihedral angle with an inner area located on the side of the entrance of sound waves into the muffler and the outer surfaces of the edges facing the channels for the passage of air (RF patent for invention No. 2178124, class F24F 13/24, publ. 10.01.2002).

The disadvantage of this silencer is a low degree of noise reduction with a variable direction of flow and the lack of ease of installation of the silencer in the duct network.

The technical problem is to create a variant of the design of the device, which has a higher efficiency in reducing the noise level with a variable direction of air flow and a higher ease of installation of the muffler in the air duct network.

The technical result of the design of the muffler is to increase the degree of noise reduction with a variable direction of air flow and to increase the convenience of installing the muffler in the air duct network.

An additional technical result is an increase in the degree of noise reduction with a variable direction of air flow and a decrease in the noise level.

The specified technical result in the proposed embodiment of the design of the noise muffler is achieved by the fact that in the known noise muffler containing a housing with at least one row of sound-absorbing elements elongated across the flow, installed with the formation of channels for air passage, each the sound-absorbing element is equipped with a partition, which includes a dihedral angle with an inner area located on the side of the entrance of sound waves into the muffler and the outer surfaces of the edges facing the channels for air passage, while each of the partitions consists of a pair of opposite dihedral corners with intersecting edges and " + "- shaped cross-section, while the inner region of one of the dihedral corners is located on the side of the entrance of sound waves into the muffler, like an acoustic screen, and the inner region of the other dihedral angle is located on the side of the exit of sound waves and air from the muffler, and The outer surfaces of the faces of the dihedral corners are directed towards the channels for the passage of air or the partitions are made in the form of corrugated plates of the W-shaped profile in profile cross-sections, and each corrugated plate includes a pair of dihedral corners, the inner regions of which are located on the side of the entrance of sound waves into the muffler, by the type of acoustic screens, and the outer surfaces of the two lateral faces of the dihedral corners are directed towards the channels for the passage of air, while the other two outer surfaces of the two faces are located on the side of the exit of sound waves and air from the muffler.

An increase in the degree of noise reduction with a variable direction of air flow is achieved by the fact that each sound-absorbing element is made in the form of a cylinder facing a cylindrical wall towards the outlet and inlet of the air flow into the muffler.

Reducing the noise level is achieved by the fact that the cylinders of each subsequent row stretched across the air flow overlap the channels between the cylinders of the previous row to the lumen.

The essence of the design variant of the noise muffler is illustrated by drawings: in Fig. 1 schematically shows a noise damper with + -shaped baffles in cross-sections (longitudinal section); in fig. 2 schematically shows a silencer with baffles in the form of corrugated W-shaped plates.

The noise muffler contains partitions 1, each of which consists of a pair of opposite dihedral corners 2 with intersecting edges and a + -shaped cross-section or partitions in the form of corrugated plates of the W-shaped profile 3, including a pair of dihedral corners 4 and sound-absorbing elements in the form cylinders 5.

The muffler works as follows.

The sound from the fan enters the muffler through one of the open ends of the housing and begins to propagate both through the channels formed by sound-absorbing elements in the form of cylinders 5 and inside the latter, the inner space of which around the partitions 1, consisting of a pair of opposite dihedral corners 2 (in Fig. 1) or partitions in the shape of corrugated plates of the W-shaped profile 3 (in Fig. 2) is filled with mineral wool. The energy of acoustic vibrations of air due to friction against the fibers of mineral wool decreases and turns into heat. In this case, sound waves, passing inside the sound-absorbing elements, meet partitions 1 or 3 on their way and are partially reflected from them towards the sound source and pass again through a layer of sound-absorbing material (mineral wool), as a result of which their sound energy dissipates, which leads to to reduce the total noise level. Each partition 1 includes two opposite dihedral angles 2, the inner region of one of which is located on the side of the entrance of sound waves into the muffler, like an acoustic screen, and the inner region of the other dihedral angle 2 is located on the side of the exit of sound waves and air from the muffler, and the outer surfaces the faces of the two dihedral corners 2 are directed towards the channels for the passage of air. When the direction of the air flow changes, the muffler performs its function and can also effectively reduce the noise level. The partitions can be made in the form of corrugated plates of the W-shaped profile 3 in profile cross-sections, while each corrugated plate 3 includes a pair of connected to each other dihedral corners 4, the inner regions of which are located on the side of the entrance of sound waves into the muffler, along type of acoustic screens, and the outer surfaces of the two lateral faces of the dihedral corners 4 are directed towards the channels for the passage of air, while the other two outer surfaces of the two faces are located on the side of the exit of sound waves and air from the muffler. When the direction of the air flow changes, the muffler performs its function and can also effectively reduce the noise level. In the case of performing sound-absorbing elements in the form of streamlined bodies - cylinders 5, the air passing through the muffler under the action of the pressure forces generated by the fan flows around the cylinders 5 with the formation of a minimum number and scale of vortices or without them at all. This reduces the noise generated by the muffler itself, which further contributes to improved noise reduction. Each sound-absorbing element is made in the form of a cylinder 5 and faces a cylindrical wall towards the outlet and inlet of the air flow into the muffler, while the longitudinal axes of the cylinders 5 are parallel to each other, and the cylinders 5 of each subsequent row stretched across the air flow overlap the channels to the lumen between cylinders 5 of the previous row. High-frequency sound waves propagate mainly in a straight line and poorly bend around obstacles, therefore, when leaving the channels formed by the cylinders 5 of the previous row, these waves immediately meet the cylinders 5 of the next row on their way, which in this case play the role of obstacles, partially reflecting from which, and partly passing further through them, they lose their energy, contributing to this additional noise reduction. The highest degree of noise reduction is observed when the cylinders 5 of each successive row overlap the channels between the cylinders 5 of the previous row to the lumen. When the direction of the air flow changes, the muffler performs its function and can also effectively reduce the noise level due to the symmetrical shape of the cylinders 5.

Claims (3)

1. A noise muffler comprising a housing with at least one lengthwise-elongated series of sound-absorbing elements arranged therein to form channels for air passage, each sound-absorbing element being provided with a partition including a dihedral angle with an internal region located on the inlet side sound waves into the muffler, and the outer surfaces of the edges facing the channels for the passage of air, characterized in that each of the baffles consists of a pair of opposite dihedral angles with intersecting edges and has a + -shaped cross-section, while the inner region of one of of the dihedral corners is located on the side of the entrance of sound waves into the muffler, like an acoustic screen, and the inner region of the other dihedral angle is located on the side of the exit of sound waves and air from the muffler, and the outer surfaces of the faces of the dihedral corners are directed towards the channels for the passage of air, or the partitions are They are in the form of corrugated plates of a W-shaped profile in profiled cross-sections, and each corrugated plate includes a pair of dihedral corners, the inner regions of which are located on the side of the entrance of sound waves into the muffler, similar to acoustic screens, and the outer surfaces of the two lateral faces of the dihedral corners are turned into the side of the channels for the passage of air, while the other two outer surfaces of the two faces are located on the side of the exit of sound waves and air from the muffler. 2. The muffler according to claim. 1, characterized in that each sound-absorbing element is made in the form of a cylinder facing the cylindrical wall towards the exit and entrance of sound waves into the muffler. 3. A muffler according to claim 2, characterized in that the cylinders of each subsequent row stretched across the air flow overlap the channels between the cylinders of the previous row to the lumen.

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