RU2281405C1 - Multisectional silencer - Google Patents

Abstract

FIELD: automotive industry.

SUBSTANCE: multisectional comprises cylindrical housing, face inlet branch pipe rigidly connected with the central pipe provided with perforation and defining at least one additional perforated pipe coaxial to the housing and central pipe. The faces of all pipes are rigidly connected with the housing via solid baffles. One of the baffles is secured to the inlet branch pipe, and the other one is mounted from the opposite side of the branch pipe. The first sound-absorbing member is interposed between the housing and perforated pipe. The second sound-absorbing member is set in the face section of the central pipe with the use of locking washer. The porosity of the first sound-absorbing member is lower than that of the second sound-absorbing member by a factor of 2.5-5.0.

EFFECT: improved silencing.

1 dwg

Description

The invention relates to a technique for damping noise.

Known silencer containing a cylindrical body with an oblique exhaust cut, end inlet pipe and sequentially located in the housing sections, each of which is equipped with a central pipe and solid baffles with a conical shell (AS USSR No. 371354, F 01 N 1/00, 1971).

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

The closest technical solution in technical essence is a multi-section silencer according to RF Patent No. 2062889, F 01 N 1/00, 1994, containing a cylindrical body, an end exhaust pipe, rigidly connected to a central pipe having perforation, perforated partitions are made in the form coaxially located to the body and the central pipe of an additional perforated pipe, and the ends of all pipes are rigidly connected to the body by means of blind partitions.

The disadvantage of the prototype is the relatively low efficiency of sound attenuation due to the possibility of the occurrence of a "radiation effect" and, as a result, the penetration of sound waves both along the axis of the muffler and through its two walls.

The technical result is to increase the efficiency of sound attenuation by eliminating the "radiation effect" and the penetration of sound waves both along the axis of the silencer and through its two walls by introducing sound-absorbing elements on the path of propagation of sound waves.

This is achieved by the fact that in a multi-section silencer comprising a cylindrical body, an end inlet pipe rigidly connected to the central pipe having perforation and forming with the body by means of perforated partitions in the form of at least one additional perforated pipe coaxially located to the body and the central pipe, and the ends of all pipes are rigidly connected to the body by means of continuous partitions, one of which is rigidly connected to the inlet pipe, and the other is located opposite a sound-absorbing element is located at the end of the central tube and a sound-absorbing element is fixed in the end part of the central pipe, fixed by a lock washer, the porosity of the sound-absorbing element located between the body and the perforated pipe is 2.5 ... 5.0 times lower than the porosity sound-absorbing element located in the end part of the Central pipe.

The drawing shows a frontal section of the proposed silencer.

The multi-section silencer comprises a cylindrical body 1, an end inlet pipe 2, rigidly connected to a central pipe 3 having a perforation 6. At least one additional perforated pipe 4 with a perforation 6 is located between the body 1 and the central pipe 3, and the coaxially arranged pipes form resonant cavities, and the ends of all pipes are connected to the housing 1 by means of continuous partitions, one of which is rigidly connected to the inlet pipe 2, and the other 5 is located on the opposite side pipe 2 . A sound-absorbing element 7 is located between the housing 1 and the perforated pipe 4. At the end of the central pipe 3 there is a sound-absorbing element 8 fixed by a lock washer 9. The sound-absorbing elements 7 and 8 can be made of hard sound-absorbing materials, for example, Acigran, Vinipore and etc., and from soft, such as mineral wool or fiberglass, then in this case the sound-absorbing elements 7 and 8 should be placed in fiberglass (not shown in the drawing) to prevent "blowing" of sound absorption holes 6.

Multi-section silencer operates as follows. Sound waves, together with a turbulent stream of compressed air, enter the cavity of the central perforated pipe 3, while the phenomenon of radiation effect is completely eliminated due to the presence of a solid partition 5, which acts as a soundproofing screen. Resonance cavities formed by coaxially arranged tubes 1, 3, 4, perform the functions of Helmholtz resonators, while the perforation holes 6 are the neck of the resonators arranged in series. Choosing the gaps between the pipes 1, 3, 4 and the diameters of the holes 6, you can tune Helmholtz resonators to any frequency band where noise attenuation is required, and any desired efficiency can be achieved by the number of resonant cavities. Due to the presence of several pipes in the proposed silencer, the sound-insulating ability of sound attenuation to the direct penetration of sound waves increases. The resistance of the proposed silencer is small due to the location of the holes 6 in a through-hole design, which allows to increase their throughput. The increase in the efficiency of sound attenuation occurs due to the exclusion of the "radiation effect" and the penetration of sound waves through the walls of the muffler due to the introduction of sound-absorbing elements 7 and 8 on the path of propagation of sound waves.

Moreover, the porosity of the sound-absorbing element 7 is 2.5 ... 5.0 times lower than the porosity of the sound-absorbing element 8 to exclude a possible increase in the resistance of the silencer, which can significantly affect the performance of the equipment.

The coaxial arrangement of the pipes made it possible to significantly simplify the design of the proposed noise suppressor, as well as to improve its operation due to the fact that contaminants are easily removed from it: water droplets, oils, which can increase the noise suppressor resistance during long-term operation.

Claims (1)

A multi-section silencer comprising a cylindrical body, an end inlet pipe rigidly connected to a central pipe having a perforation, at least one additional perforated pipe is located between the body and the central pipe, the coaxially arranged pipes forming resonant cavities, the ends of all pipes are connected to the housing by means of continuous partitions, one of which is rigidly connected to the inlet pipe, and the other is located on the opposite side of the pipe, characterized in that I am waiting for the sound-absorbing element to be located by the body and the perforated pipe and a sound-absorbing element is located in the end part of the central pipe, the porosity of the sound-absorbing element located between the body and the perforated pipe being 2.5 - 5.0 times lower than the porosity of the sound-absorbing element located in the end of the central pipe .