SU1477915A1 - Gas flow silencer - Google Patents

Abstract

The invention makes it possible to increase the efficiency of noise suppression and the service life of a silencer. The inlet expansion chamber (K) 5 is located in the central part of the housing 1 and is formed using two transverse partitions 12 and 13. The inlet 2 is installed on the side surface of the housing 1 in the center of K 5. The rotor 8 is made in the form of two interconnected blades 9 round plates 10, and its distribution holes 11 are made in the plates 10 and placed diametrically opposite. Intermediate K 6 and exhaust K 7 are placed on both sides of K 5, and K 6 is equipped with an additional coaxial cylinder 16 installed in a coaxial cylinder 14, made perforated, with the formation of an annular gap 15 closed from the side of the outlet 3 with an annular end cap 17. In outlet holes 3, made coaxially in the end walls 4, are perforated, partially placed in K 7, dividers 22. The dividers 22 can be equipped with end caps 24, the bypass holes 23 of partitions 12 and 13 can be made in de annular slit nozzle 2 and is mounted tangentially. Additional noise suppression is provided by the rotor 8 and batch bypassing of gas through its openings 11 in K 6 and 7. 3 Cp. F.

Description

Fig1

The invention relates to mechanical engineering, in particular, to silencers of gas flow noise, mainly compressor units, air motors and internal combustion engines, producing pulsating or constant aerodynamic noise.

The aim of the invention is to increase the efficiency of the silencer and the service life.

FIG. 1 shows a muffler, a longitudinal section; in fig. 2 shows section A-A in FIG. one.

The gas flow noise silencer contains a cylindrical body 1 with an inlet pipe 2, exhaust ports 3 and end walls 4, an inlet expansion port 5, an intermediate 6 and an outlet 7 of the chamber, and a rotor 8 made in the form of two circular plates interconnected with blades 10, the latter being provided with distribution holes 11, which are diametrically opposed. The inlet expansion chamber 5 is located in the central part of the housing 1 and is formed using a transverse partition 12 and an additional transverse partition 13, and the inlet 2 is mounted on the side surface of the housing 1 in the center of the intake chamber 5.

The intermediate 6 and exhaust 7 cameras are located on both sides of the inlet chamber 5 and are formed using a coaxial cylinder 14 mounted in housing 1 to form an annular gap 15, and an additional coaxial cylinder 16 mounted in cylinder 14 to form an annular gap closed on the side outlet 3 annular end cap 17, and the coaxial cylinder 14 is made perforated. The intermediate chamber 6 and the annular gap 15 are divided into sections 18 and 19 by means of at least four longitudinal partitions 20 and 21. Outlet openings 3 are made coaxial, placed in the end walls 4 and provided with perforated, partially placed in the outlet chamber 7 The intermediate chamber 6 is connected to the inlet chamber 5 by means of bypass holes 23, made in the transverse partitions 12 and 13.

The dividers 23 can be provided with end caps 24, the bypass holes 23 of the transverse partitions 12 and 13 can be made in the form of an annular gap, and the inlet 2 is set tangentially.

The muffler works as follows.

The gas flow through the inlet pipe 2 enters the inlet expansion chamber 5, where it expands and, hitting the blades 9 of the rotor 8, leads to the rotator0

This is the last movement. When - the rotation of the rotor 8 distribution holes 11 alternately serves the gas from the chamber 5 in the cavity sections 18 of the intermediate chamber 6,

from which gas through perforations of the coaxial cylinder 14 enters the cavities of sections 19 of the annular gap 15. Next, the gas enters the outlet chamber 7, from which it is discharged into the environment by means of perforated dividers 22. When the gas moves

its expansion, change of direction of movement, and partial conversion of kinetic energy into heat and rotational energy of the rotor 8, which ensures effective noise absorption. An additional effect of noise suppression occurs due to the reduction of pulsations of the gas flow, which is provided by the rotor 8 and batch transfer of gas through the distribution holes 11 of the rotor 8 in

0 intermediate chamber 6 and the further connection of the individual parts of the gas in the exhaust chamber 7.

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Claims (4)

1. A gas flow noise silencer comprising a cylindrical body with an inlet pipe, outlet ports and end walls, an inlet expansion chamber, an intermediate chamber and an outlet chamber, and a rotor with vanes and at least one distribution opening, the rotor being placed in the inlet chamber and exhaust chambers are formed by coaxially 5 of the cylinder mounted in the housing with the formation of an annular gap are divided into sections using at least four longitudinal partitions and separated from the inlet chamber by means of a transverse partition with overflow openings, characterized in that, in order to increase the noise attenuator efficiency and service life, the inlet the expansion chamber is located in the central part of the hull and is formed by with a transverse partition and an additional transverse partition, the inlet is installed on the side surface of the housing in the center of the inlet chamber, the rotor is made in the form of two interconnected plates using round blades, the distribution holes of the rotor are made in plates and are diametrically opposed, intermediate and outlet placed on both sides of the inlet chamber, the intermediate chamber is equipped with an additional A coaxial cylinder mounted in a coaxial cylinder, made perforated to form an annular gap, closed on the side of the outlet, an annular end cap, and in outlet openings made coaxially in the end walls, perforated, partially placed in the outlet chamber, dividers. 2. A silencer according to claim 1, characterized in that the dividers are provided with end caps. 3. The silencer on PP. 1 and 2, characterized in that the bypass openings of the transverse partitions are made in the form of an annular gap. 4. Silencer on Mon. 1-3, due to the fact that the inlet pipe is set tangentially. nineteen sixteen TO Shig.2