RU2285811C1 - Combination muffler - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: proposed combination muffler contains housing with end face walls, intake and exhaust branch pipes and noise damping member made in form of chambers filled with noise-damping material formed by coaxially installed perforated inserts with end face surfaces and inner surface of housing. Reservoir is made in middle part of noise-damping member over its perimeter, said reservoir is open from side of air duct, being formed by inner surface of housing and end face surfaces of inserts. One of chambers contains axially movable partition made to suit cross section of chamber. Said movable partition is rigidly connected with at least two guide strips arranged at both sides relative to diagonal of cross section and engaging with slots made in end face surface of insert. Guide apron is connected square to movable partition over its perimeter to engage with inner surface of insert. Perforation of inserts is displaced from their end face surfaces by h=(1.5-2.5)l where l is width of reservoir, and ratio of diameters of perforation holes in extreme inserts is within optimum interval of values d₁/d₂=0,3...0,6.

EFFECT: improved efficiency of noise damping owing to turning of chamber part of muffler by selecting properties of noise-absorbing member and tuning resonance part of muffler.

5 cl, 2 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-chamber 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.

The technical result is to increase the efficiency of sound attenuation by tuning the chamber part of the muffler by selecting the properties of the sound-absorbing element and tuning the resonant part of the muffler.

This is achieved by the fact that in the combined noise muffler comprising a housing with end walls, an inlet and outlet pipe and a soundproofing element made in the form of chambers filled with soundproofing material, formed by coaxially mounted perforated inserts with partitions and the inner surface of the body, in the middle part of the soundproofing element along its perimeter is a container open from the side of the duct and formed by the inner surface of the housing and the end surfaces of the inserts, and one of the kame p contains an axially movable partition made in the shape of the cross section of the chamber, and the movable partition is rigidly connected to at least two guide strips located on both sides of the diagonal of the cross section, interacting with grooves made in the end surface of the insert, and to the movable partition, perpendicular to it, and around the entire perimeter a guide apron is attached, interacting with the inner surface of the insert, and the perforation of the inserts is offset from their end surfaces at a value of: h = (1.5 ... 2.5) l, where l is the width of the container, and the ratio of the diameters of the perforation holes of the extreme inserts lies in the optimal range of values d ₁ / d ₂ = 0.3 ... 0 , 6.

Figure 1 presents the frontal section of the proposed silencer, figure 2 is a profile projection.

Combined silencer includes a housing 1 with end walls 2, inlet 3 and exhaust 4 nozzles and a sound attenuating element made in the form of chambers filled with sound attenuating material formed by coaxially mounted perforated inserts 5 and 6 with partitions and the inner surface of the housing. The inserts 5 and 6 form a container 9 with their end surfaces 7 and 8 (partitions), open from the duct side and closed on the other side by the inner surface of the housing. The chambers 10 and 11 formed by the inserts 5 and 6 and the inner surface of the housing are resonant type chambers filled with sound-absorbing material 12.

One of the chambers, for example 11, contains an axially movable partition 13 made in the shape of the cross section of the chamber 11. The partition 13 is rigidly connected to at least two guide bars 14 and 15, which are located on both sides of the diagonal of the cross section of the duct. The strips 14 and 15 are moved in grooves 16 and 17 of the same shape made in the end wall of the chamber 11. To the movable partition 13, perpendicular to it, a guide apron 18 is attached, interacting around the entire perimeter with the inner surface of the insert 6. The apron 18 and the guide bars 14 and 15 allow you to move the partition 13, firstly, without distortions, and secondly, hermetically separate the chamber 11 into two cavities for more precise adjustment to the frequency of the fan blade noise. Then the partition 13 is fixed in the desired position.

Combined silencer works as follows.

Sound waves along with a turbulent stream of compressed air enter the cavity of the housing 1 and meet in their way a central resonant tube with holes (perforated inserts 5), which provides the effect of damping the sound wave according to the principle of the Helmholtz resonator. Chamber capacity 9 is tuned to the frequency of the blower taking into account the number of revolutions of the shaft and the number of blades on the wheel and performs the function of an acoustic low-pass filter. Increasing the efficiency of sound attenuation occurs due to the presence of a sound-absorbing layer. Resonance chambers 10 and 11 are tuned to a narrower frequency band, and the perforation of the inserts is offset from their end surfaces by the value h = (l, 5 ... 2.5) l, where l is the width of the container, and the ratio of the diameters of the holes of the perforations of the extreme inserts lies in the optimal range of values of d ₁ / d ₂ = 0.3 ... 0.6.

The silencer design is easy to manufacture and maintain.

Claims (5)

1. Combined silencer comprising a housing with end walls, an inlet and an outlet pipe and a soundproofing element made in the form of chambers filled with soundproofing material, formed by coaxially mounted perforated inserts with partitions and the inner surface of the body, characterized in that in the middle part of the soundproofing element its perimeter is a container open from the duct side and formed by the inner surface of the housing and the end surfaces of the inserts, and one of the chambers with will have an axially movable partition made in the form of a cross section of the chamber. 2. Combined silencer according to claim 1, characterized in that the movable partition is rigidly connected to at least two guide bars located on both sides of the diagonal of the cross section, interacting with grooves made in the end surface of the insert. 3. The combined silencer according to claim 1, characterized in that a guide apron is attached to the movable partition perpendicularly to it and around the perimeter, interacting with the inner surface of the insert. 4. The combined silencer according to claim 1, characterized in that the perforation of the inserts is offset from their end surfaces by a value of h = (1.5 ÷ 2.5) l, where l is the width of the container. 5. The combined silencer according to claim 1, characterized in that the ratio of the diameters of the holes of the perforation of the extreme inserts lies in the optimal range of values d ₁ / d ₂ = 0.3 ÷ 0.6.

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