SU872783A1 - Gas flow noise silencer - Google Patents

Description

(54) GAS STREAM NOISE REMOVER

Claims (2)

The invention relates to a technique for blanking noise and can be used to silence gas noise. Known silencers gas flow, containing a cylindrical body, divided by means of coaxial with him shell, at least two cavities, central and peripheral, communicated with each other through perforations in the shell, prnmzhuyu to the first end wall of the body, the inlet gas in the central cavity placed in the second end wall to (fpus, gas outlet pipe to the atmosphere connected to the peripheral cavity, neff grooved partitions separating the latter into a series of consecutive expansion chambers The ep, and a perforated cone with a sound-absorbing material enclosed in it, mounted on the first end wall II. Dunn1) 1e silencers provide noise reduction in a wide frequency range, but they do not fully use the internal research institute volume of the silencer, which reduces the effectiveness of noise suppression. The purpose of the invention - noise efficiency is soundproof. To achieve this goal, in the silencers, the shell is made in the form of a cylinder with transverse partitions installed with possibility. changes in their axial position in the cylinder and provided with through holes, with a conical nozzle installed in each of the holes. FIG. 1 shows a muffler, a longitudinal section; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one; in fig. 4 shows a section B-B in FIG. 1. Ch. 1) The noise stream of the gas stream contains a cylindrical body 1, in which a shell 2 is concentrically mounted, dividing the case into two cavities, the central 3 and the peripheral 4, communicated with each other through perforations in the shell 2. The perforation 5 is made in the zone of the deaf end wall 6 of the housing 1. The silencer is equipped with a gas inlet pipe 7 into the central cavity 3 located in the end wall 8 of the housing 1 and a gas outlet 9 to the atmosphere connected to the peripheral cavity 4. In prices 3 and the periphery of the 4th silencer cavity are equipped with movable partitions 10 and 11 with through holes. From axial displacement, the partitions 10 and 11 are fixed to the pins 12 by nuts 13. In each of the openings of the partitions 10 of the central cavity 3 there is a conical nozzle 14. The partitions 10 and I divide the cavities 3 and 4 into a series of expansion chambers. At the exit from the central cavity 3 on the end stand 6 of the housing 1, a perforated cone 15 is fixed with sound-absorbing material 16 enclosed in it. When the engine is running, gases go through the inlet 7 of the inlet to the expansion chambers of the central cavity 3, where they lose speed and reduce noise. Part of the gas enters the perforated cone 15, in which noise is absorbed by its sound-absorbing material 16. From the central cavity 3, gases through perforation 5 of the shell 2 are fed into the peripheral cavity 4 of the silencer, where in its expansion chambers there is an additional damping of noise, and then released into the atmosphere through pipe 9 release. Thus, the execution of a shell in the form of a cylinder with transverse partitions equipped with conical nozzles and installed with the possibility of changing their axial position in the cylinder allows a more efficient use of the volume of the central cavity, thereby increasing noise jamming and ensuring unification of silencers this type. Claims of Invention A gas flow P1uma silencer comprising a cylindrical body divided by a shell that is coaxial with it, at least into two cavities, central and peripheral, communicated with each other through perforations in the shell adjacent to. the first yurtsovy wall of the housing, the inlet gas inlet into the central cavity, size-. perforated partitions separating the latter into a series of successive expansion chambers, and a perforated cone with enclosed sound-absorbing material mounted on the first end wall, differing By the fact that, in order to increase the efficiency of noise suppression, the shell is made in the form of a cylinder with transverse partitions installed with the possibility of changing their axial position in the cylinder provided with through-otverspshmi, and in each of the openings is mounted a conical nozzle. Sources of information taken into account when examining 1. USSR author's certificate N 373443, cl. F 01 N 1/04, 1971.