RU2241127C1 - Internal combustion engine muffler - Google Patents

Abstract

FIELD: mechanical engineering; internal combustion engines.

SUBSTANCE: proposed muffler has intake and exhaust pipes and housing made of sheet material provided with cavities and turned into spiral. Heat-resistant porous noise-absorbing material covers housing sheet surface from side of cavities. Said cavities and porous noise-absorbing material form closed spaces effectively absorbing sound energy. Closed spaces are formed also in blind end faces of intake and exhaust pipes.

EFFECT: improved efficiency of noise damping.

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Description

The invention relates to the automotive and motor industry and can be used in the intake and exhaust tracts of cars.

Known silencer comprising a housing made of a sheet of material having surfaces with protrusions on one side and, accordingly, depressions on the other. In this case, a sheet of material is rolled into a spiral with the formation of an inter-turn gap; a receiving and an exhaust pipe are installed from the ends. When the exhaust gases move through the maze in the inter-turn space, the engine exhaust noise decreases (1).

A disadvantage of the known silencer is its lack of effectiveness.

The objective of the invention is the effective reduction of the sound pressure of the exhaust gases of the internal combustion engine. From physics it is known that vessels can behave like acoustic resonators. It is also known that if the throat of a vessel is covered with a porous sound-absorbing material from above, it will acquire the properties of an antiresonator and will absorb sound. There is a relationship between the size of the vessels, their frequency resonance characteristics and sound absorption coefficient. The hollows of the spiral muffler are similar to the cavity of the vessel.

Thus, the problem can be solved by creating cavities in the inter-turn space of the silencer muffler, covered with porous sound-absorbing material. For this, a heat-resistant porous noise-absorbing material is pressed and fixed on the surface of the sheet of the casing from the troughs in such a way that a cavity is formed between this material and the surface of the sheet at the trough. To make the closed cavity shape of the vessel closest to the required design, between the sheet of the body and the porous sound-absorbing material, it is recommended to place a soundproof gasket with holes. The soundproofing pad is fixed so that the holes are opposite the depressions. Additional openings can also be made in the soundproofing pad, also forming cavities between the smooth surface of the sheet and the porous sound-absorbing material. In the intake and exhaust pipes, in their blind ends to create cavities with antiresonant properties, it is possible to place partitions made of porous sound-absorbing material. A change in the characteristics of this cavity is a change in the sound tonality of the silencer, possibly using a soundproofing partition with a hole installed behind a partition made of porous sound-absorbing material (holes are blocked by material).

The design of the silencer involves several options for installation on various types of machines, including the design without an exhaust pipe.

Figure 1 shows a General view of the muffler.

Figure 2 shows a view of a conventionally deployed sheet - a body with a porous sound-absorbing material.

Figure 3 shows a view of a conventionally unfolded sheet - a housing with a porous sound-absorbing material and a soundproof gasket with holes.

Figure 4 shows the blind end of the silencer pipe having a soundproofing partition with an opening covered by a porous sound-absorbing material.

The silencer housing is made of sheet 1 having surfaces with cavities and protrusions. On the side of the surface having depressions, a porous sound-absorbing material 2. is placed, pressed and fixed. The sheet of the housing 1, the porous sound-absorbing material 2 form cavities “P”. A possible embodiment is when a soundproof gasket 3 with holes 4 is placed between the sheet of the housing 1 and the material 2. In this case, cavities “P” are formed, having acoustic communication with the inter-turn space of the housing through the holes 4. The number of holes 4 may exceed the number of cavities and then the cavity “ P ”are also formed where the edges of the holes 4 are pressed against the smooth surface of the sheet 1. A receiving pipe 5 and an exhaust pipe 6 are attached to the housing 1. At the blind ends of the pipes 5 and 6, partitions 7 made of a porous sound absorber are placed nonperturbing material. In this case, cavities “T” are formed. The silencer can be tuned to a specific tone using a partition 8, in which there is an opening 9. The partition 8 is made of soundproofing material. The hole 9 is thus blocked by a porous sound-absorbing material 7.

The silencer is as follows.

The exhaust gas stream enters the exhaust pipe 5. Part of the sound energy enters the cavity “T” and is absorbed by it. In the future, the flow and, accordingly, sound waves move along the inter-turn gap and pass over the “P” cavities. At the time of the passage of the sound wave in the zone of cavities “P” there is an intensive absorption of sound energy. The installation of a soundproofing strip 3 with holes 4 improves the sound characteristics of the cavities “P” of the depressions of the sheet 1 of the housing. Absorption occurs in those cavities “P”, which are formed by the smooth surface of the sheet 1 and the holes 4 of the soundproofing gasket 3. In the future, the gas flow is either discharged into the environment, or enters the exhaust pipe 6, in the cavity “T” of which the last absorption stage is carried out sound energy exhaust. Operation of the muffler is possible without the installation of partitions 7 and 8, and under certain requirements without an exhaust pipe 6.

Thus, the problem of exhaust gas discharge into the environment with the given parameters is solved.

References

1. RF patent No. 2176319, published November 27, 2001. Bull. 33.

Claims (1)

The silencer of an internal combustion engine comprising a housing, a intake and exhaust pipes, a silencer housing is made of a sheet of material rolled up in a spiral shape so that there is a gap between the turns, part of the sheet surface is smooth, part has protrusions and depressions, characterized in that to the surface of the sheet from the side of the depressions, a porous sound-absorbing material is pressed and fixed in such a way that a cavity forms between this material and the surface of the sheet in the cavity, between the body sheet and the porous noise-absorbing material t be positioned and secured soundproofing gasket having openings, and at the reception and discharge pipes, in their blind-end may be installed from a porous septum noise absorbing material or sound insulating partitions with apertures overlain by a porous sound-absorbing material.

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