EP1500798A1 - Silencer and exhaust system - Google Patents

Abstract

The silencer (10) for a motor vehicle exhaust has a housing (12), with the exhaust pipe (18) through it. The housing has a resonator (26) and an acoustic absorber (32) with a flow link between them and the exhaust pipe through slits (42). The resonator has a tubular resonance body (24) around the exhaust pipe, with a gap between them, and the sound absorber is inserted at least partially into its open end.

Description

The invention relates to a silencer according to the preamble of the claim 1 for an exhaust system of a motor vehicle. Furthermore, the concerns Invention an exhaust system for a motor vehicle, with an inventive Silencer.

The resulting in the exhaust gas by the combustion process in the internal combustion engine Pressure pulses result in the exhaust gas flow through the exhaust system to the development of sound waves in different frequency ranges. With the help of provided in the exhaust system mufflers should in particular the frequencies audible to human hearing are attenuated. Furthermore, it should be prevented that the sound waves from the exhaust system be transferred to the body or the chassis of the vehicle and this stimulates the swing.

To attenuate higher frequency sound waves, it is known the exhaust gas flow to conduct through a so-called sound absorber or absorption silencer. Here, the sound waves in a damping material by friction converted into heat and so muted. Be low-frequency sound waves attenuated, inter alia, by using a resonator in which an im Resonator gas volume and the resonator itself in vibration be offset and the resonator and the gas flow own mass Damping the low-frequency components of the sound waves causes.

From EP 0 802 308 B1 a silencer for an exhaust system of a Motor vehicle known in the sound waves of different frequency ranges attenuated by the combination of a resonator with a sound absorber be arranged in a common muffler housing. When Resonator here serves a branched off from the exhaust pipe resonator tube, with is in flow communication with the exhaust pipe. The sound absorber that the is to attenuate high-frequency sound waves, is spaced from the resonator tube arranged in the muffler housing and is also with the exhaust pipe in Flow connection.

A disadvantage of this known muffler is in particular that of Silencer due to the combination of the resonator tube with the sound absorber a large volume compared to conventional silencers has.

It is an object of the invention to provide a muffler for an exhaust system of Motor vehicle or an exhaust system, with such a silencer to indicate which or at which the muffler is being compared having lower construction volume with the known silencers.

The invention solves the problem by a muffler with the features according to claim 1. Furthermore, the invention solves the problem by an exhaust system according to claim 12, with a silencer according to the invention Is provided.

In the silencer according to the invention, which is provided with a resonator for Attenuation of low-frequency sound waves and a sound absorber for absorption high-frequency sound waves are both simultaneously the exhaust pipe itself and the sound absorber as functional elements of Resonator used form as part of the resonator. To this end In the case of the silencer according to the invention, a tubular resonance body is produced used, which is in flow communication with the exhaust pipe, the exhaust pipe circumferentially encloses simultaneously, but spaced from the exhaust pipe while at the same time the sound absorber is at least partially in the open end of the sound box is inserted.

The gas volume in the resonator, with which the low - frequency components of the Sound waves are to be damped, is thus through the inner surface of the Resonant body, the outer surface of the resonant body enclosed Section of the exhaust pipe and the outer surface of the resonant body introduced sound absorber limited. By including the Exhaust pipe and the sound absorber in the design of the resonator leaves a very compact silencer with a compared to the state of the Implement technology of extremely low volume. At the same time can by appropriate Design of the resonator, the exhaust pipe and the sound absorber specifically influence the damping behavior of the resonator.

Further advantages of the invention will become apparent from the following description, the dependent claims and the drawing.

Thus, in a particularly preferred embodiment of the invention Muffler proposed to use the tubular resonator body its opposite end to the open end on the inside to attach the silencer housing. Alternatively, the sound box with its end opposite the open end on the outer surface be attached to the exhaust pipe. By attaching the resonator on the Muffler housing or exhaust pipe can be on additional fasteners be dispensed with in the muffler housing, with which the resonant body otherwise would be in the muffler housing in addition to hold.

Furthermore, it is advantageous if the distance of the inner surface of the resonator to the outer surface of the exhaust pipe in the circumferential direction of Exhaust pipe considered at least approximately constant to unwanted To avoid turbulences in the sound box, which may arise could cause audible flow noise. Here it is in particular advantageous if the distance of the inner surface of the resonator to the outer surface of the exhaust pipe, preferably also in the longitudinal direction of the Seen resonant body considered at least partially constant.

To facilitate the manufacture of the silencer according to the invention, has the exhaust pipe and the resonance body preferably at least approximately circular cross section, wherein the tubular resonance body concentric is arranged to the exhaust pipe. However, it is also conceivable, the exhaust pipe For example, to make oval in cross-section. In such a development should the cross section of the resonator to the cross section of Adapted exhaust pipe and be arranged symmetrically to the exhaust pipe.

The sound absorber is in a particularly preferred embodiment of the inventive muffler designed so that even the sound absorber completely encloses the exhaust pipe in the circumferential direction, wherein the Sound absorber is attached to the exhaust pipe at the same time. This can be on the one hand the connection of the sound absorber to the exhaust pipe on very simple Realize manner, while the sound absorber at the same time at extremely low Space requirement for the sound absorption sufficiently large volume can.

As a sound absorber is used in this preferred embodiment described above preferably a sound absorber, which is a pushed onto the exhaust pipe Absorber housing having, with the exhaust pipe in flow communication standing interior opposite the muffler housing at least approximately gas-tight, and with a damping material, such as Mineral wool, steel wool and the like, is filled for sound absorption. The Use of such a designed sound absorber has in particular in the Manufacturing the advantage that the sound absorber as a prefabricated assembled unit pushed onto the exhaust pipe and then with this, for example by welding, can be firmly connected. As absorber housing is preferred in this development, the exhaust pipe enclosing Pipe piece used that is closed at its ends and on the exhaust pipe is attached.

Thus, the resonator over the entire length of the resonator consistent Has flow and damping property, is the resonant body in a particularly preferred embodiment of the invention Silencer at its open end so widened that in one plane viewed transversely to the longitudinal direction of the resonator body in the plane of the inner surface of the sound box and the outer surface of the sound absorber limited flow cross section at least approximately the flow cross section corresponds to that of the inner surface of the sound box and the outer surface of the exhaust pipe in a parallel second plane considered limited.

To the exhaust pipe with the sound box and / or with the sound absorber connect to the exhaust pipe preferably a plurality of openings are formed, by the exhaust gases between the exhaust pipe and the resonator body or the sound absorber can flow back and forth, with the provision a plurality of openings instead of a single opening the exhaust pipe in his Stiffness is hardly affected. The openings are particularly preferred as Slots formed which extend in the longitudinal direction of the exhaust pipe.

The sum of the surface areas of the flow-through surfaces of the resonator in fluid communication openings on the exhaust pipe should about 0.8 to 1 times that in a plane transverse to the longitudinal direction of Resonant body considered flow cross section, the of the Inner surface of the resonance body and the outer surface of the exhaust pipe is limited to ensure that the entire gas volume in the sound box is vibrated and a sufficiently high damping effect is guaranteed. However, it is also conceivable that the sum of the Flow cross-sections of the openings in total less than 0.8 times the Flow cross section of the resonator is, for example, if manufacturing technology Reasons or for reasons of insufficient rigidity the exhaust pipe, the size and number of openings is limited.

To prevent impact of the sound box on the silencer housing, is also proposed, at or near the open end of the resonator Provide radially inwardly protruding elevations. The height each survey should preferably be half the distance between the Inner surface of the sound box and the outer surface of the sound absorber correspond to remaining gap, in which the elevation protrudes.

According to a further aspect, the invention relates to an exhaust system for a Motor vehicle equipped with a silencer according to the invention.

Fig. 1

eine schematische Schnittansicht eines erfindungsgemäßen Schalldämpfers mit einem Abgasrohr, einem Resonanzkörper und einem Schallabsorber zeigt,

Fig. 2

einen Schnitt entlang der Schnittlinie II-II in Fig. 1 zeigt, in dem der von dem Resonanzkörper und dem Abgasrohr begrenzte Strömungsquerschnitt in einer Ebene quer zur Längsrichtung des Schalldämpfers dargestellt ist, und

Fig. 3

einen Schnitt entlang der Schnittlinie III-III in Fig. 1 zeigt, in dem der von dem Resonanzkörper und dem Schallabsorber begrenzte Strömungsquerschnitt in einer zweiten Ebene quer zur Längsrichtung des Schalldämpfers dargestellt ist.

Further features and advantages of the invention will become apparent from the following description of a preferred embodiment with reference to the accompanying drawings, in which:

Fig. 1

a schematic sectional view of a silencer according to the invention with an exhaust pipe, a resonator and a sound absorber shows,

Fig. 2

a section along the section line II-II in Figure 1 shows, in which the flow of the resonant body and the exhaust pipe limited flow cross-section is shown in a plane transverse to the longitudinal direction of the muffler, and

Fig. 3

shows a section along the section line III-III in Fig. 1, in which the flow of the resonant body and the sound absorber limited flow cross-section is shown in a second plane transverse to the longitudinal direction of the muffler.

In Fig. 1 is a schematic sectional view of an inventive silencer 10 shown for an exhaust system in a motor vehicle. The silencer 10 is conventionally either via flanges to the casing the exhaust system connected or already in the exhaust system immediately integrated.

The muffler 10 has a muffler housing 12, the in the illustrated embodiment a Hollow cylinder shape has. The muffler housing 12 is at its two each end closed by a cover 14 and 16, respectively.

Through the muffler housing 12, a hollow cylindrical exhaust pipe extends 18, which formed by the two covers 14 and 16 openings 20 and 22 in the longitudinal direction of the muffler housing 12 passed is. The exhaust pipe 18 is connected to the two covers 14 and 16 of the Silencer housing 12 gas-tight welded.

In the muffler housing 12 is concentric about the exhaust pipe 18 is a resonator 24 of a resonator 26 is arranged. The also trained as a pipe Sound box 24 is with its one open end on the inside attached to the cover 14 shown on the left in Fig. 1, extends in the longitudinal direction the silencer housing 12 and ends at a short distance before the inside of the second cover 16 so that the other end of the tubular Sound box 24 remains open. Starting from the left Cover 14, the resonator 24 has a cylindrical portion 28, which merges into a flared cylindrical portion 30 which is about 3/4 the length of the resonator 24 forms.

In the flared portion 30 of the sound box 24 is a sound absorber 32 arranged. The sound absorber 32 has an absorber housing 34, which as a the exhaust pipe 18 enclosing pipe piece is formed, which at closed at its ends and connected to the exhaust pipe 18 gas-tight. In the interior of the absorber housing 34 is a damping material 36, such as rock wool, Steel wool and the like, taken with the in the absorber housing 34 conducted medium and high frequency sound waves by friction in heat be converted and steamed in this way.

At the open end of the resonator 24 are about its inner circumference evenly distributed a plurality of radially inwardly projecting elevations 38 provided. The radial elevations 38 are each dimensioned in their length, that they are about half the gap height between the inner surface of the resonator 24 and the outer surface of the sound absorber 32 correspond. They are intended to prevent the vibrating body vibrating during damping 24 collided with the inside of the muffler housing 12.

For transmitting the sound waves flowing through the exhaust pipe 18, pulsating Exhaust gas flow are at the exhaust pipe 18 more in the longitudinal direction of the Exhaust pipe 18 extending slots 40 and 42, respectively. The slots 40 stand with the from the inner surface of the sound box 24, the outer surface the exhaust pipe 18 and the outer surface of the sound absorber 32 limited gas volume in fluid communication. Connect the slots 42 the exhaust pipe 18 with the interior of the sealed-off to the outside absorber housing 30. Through the slots 40 and 42 can through the exhaust pipe 18 flowing exhaust gas flow with the gas column in the resonator 26 and with the volume of gas contained in the sound absorber 32 for vibration transmission communicate.

In Figs. 2 and 3 are sections along the section lines shown in FIG. 1 II-II and III-III shown. 2 shows the section II-II through the exhaust pipe 18 and the unexpanded portion 28 of the sound box 24, while Fig. 3 shows the section III-III through the sound box 24, the sound absorber 32 and the exhaust pipe 18 shows.

2, the volume of the resonator 26 in the region of the unexpanded portion 28 of the resonator 24 is limited by the inner surface of the resonator 24 and the outer surface of the exhaust pipe 18 and defined in this sectional plane has a flow cross-section A ₁ , over the entire length of the unexpanded portion 28 is approximately constant. The volume of the resonator 26 in the region of the widened portion 30 of the resonator 24 is limited by the inner surface of the resonator 24 and the outer surface of the sound absorber 32 and defines a flow cross-section A ₂ in this sectional plane. Again, the flow cross-section A ₂ remains approximately constant over the length of the widened portion 30.

In order to ensure the most uniform possible damping behavior over the entire length of the resonator 24, the radial distance of the outer surface of the exhaust pipe 18 to the inner surface resonating body 24 in the unexpanded portion 28 of the resonator 24 and the radial distance of the outer surface of the sound absorber 32 to the inner surface of the resonator 24 each chosen so that the two flow cross-sections A ₁ and A ₂ correspond to each other at least approximately.

The number of slots 40 which connect the exhaust pipe 18 and the resonator 26 with each other, and their flow cross sections are again chosen so that they at least 0.8 to 1 times, preferably 0.9 times, the flow cross section A ₁ and A ₂ , which ensures that a sufficient volume flow of the exhaust gas can communicate with the resting in the resonator 24 gas column for vibration damping.

In operation, an exhaust stream flows through the exhaust pipe 18, in which in particular due to the clocked operation of the internal combustion engine propagate resulting pressure pulses or sound waves. As soon as the exhaust gas flow flows into the muffler 10 according to the invention, communicates the Exhaust gas flow with the resting in the resonator 26 gas column, wherein the exhaust gas flow acting sound waves, the gas column in the resonator 26 to vibrate stimulate. The vibrating gas column in turn excites the resonator 24 to swing, which due to its mass and its material properties Low-frequency components of the resulting vibrations dampens, so that in low-frequency sound waves in the exhaust gas stream damped become. Furthermore, they are present in the exhaust gas stream Sound waves via the slots 42 in the sound absorber 32 a. This is especially the energy of medium and high frequency sound waves due to friction in the Damping material is converted into heat. Then it flows like that Silenced exhaust gas flow from the muffler 10.

LIST OF REFERENCE NUMBERS

10

silencer

12

muffler housing

14

cover

16

cover

18

exhaust pipe

20

opening

22

opening

24

sound

26

resonator

28

cylindrical section

30

flared cylindrical section

32

sound absorber

34

absorber housing

36

damping material

38

surveys

40

slots

42

slots

A ₁

Flow cross-section in the unexpanded section 28th

A ₂

Flow cross-section in the expanded portion 30th

Claims (12)

Silencer for an exhaust system of a motor vehicle, comprising a silencer housing (12) through which an exhaust pipe (18) for passing schallzudämpfender exhaust gas flows, wherein the exhaust pipe (18) arranged in the muffler housing (12) resonator (26) and one in the muffler housing ( 12) arranged sound absorber (32) is in flow communication,
characterized in that as a resonator (26) the exhaust pipe (18) enclosing in the circumferential direction and spaced to the exhaust pipe (18) arranged, tubular resonator (24), in the open end of the sound absorber (32) is at least partially inserted. Silencer according to claim 1, characterized in that the resonator (24) is fixed with its other end to the inside of the silencer housing (12) or to the outer surface of the down tube (18). A muffler according to claim 1 or 2, characterized in that the distance of the inner surface of the resonator (24) to the outer surface of the exhaust pipe (18) in the circumferential direction of the exhaust pipe (18) considered at least approximately constant, the distance preferably also in the longitudinal direction of the resonator (24 ) viewed at least in sections is constant. Silencer according to claim 1, 2 or 3, characterized in that the exhaust pipe (18) and the resonator (24) have an at least approximately circular cross section and the tubular resonator (24) is arranged concentrically to the exhaust pipe (18). Silencer according to one of claims 1 to 4, characterized in that the sound absorber (32) completely surrounds the exhaust pipe (18) in its circumferential direction and is secured thereto. Silencer according to one of Claims 1 to 5, characterized in that the sound absorber (32) has an absorber housing (34) pushed onto the exhaust pipe (18), the interior of which is in flow communication with the exhaust pipe (18) relative to the silencer housing (12) at least is approximately gas-tight, and which is filled with a damping material (36) for sound absorption. Silencer according to claim 6, characterized in that the absorber housing (34) is a pipe piece enclosing the exhaust pipe (18), which is closed at its ends and attached to the exhaust pipe (18). Silencer according to one of the preceding claims, characterized in that the resonator (24) is widened at its open end so that in a plane transverse to the longitudinal direction of the resonator (24) viewed in the plane of the inner surface of the resonator (24) and the outer surface of the sound absorber (32) has a limited flow cross-section (A ₂ ) at least approximately the flow cross-section (A ₁ ), which is bounded by the inner surface of the resonator (24) and the outer surface of the exhaust pipe (18) viewed in a parallel second plane. Silencer according to one of claims 1 to 8, characterized in that the resonance body (24) and / or the sound absorber (32) through a plurality of openings, preferably slots (40, 42), in fluid communication with the exhaust pipe (18). Silencer according to claim 9, characterized in that the sum of the flow cross sections of the resonant body (24) in fluid communication openings (40) on the exhaust pipe (18) 0.8 to 1 times in a plane transverse to the longitudinal direction of the resonator ( 24) corresponding flow cross-section (A ₁ , A ₂ ), which is bounded by the inner surface of the resonator (24) and the outer surface of the exhaust pipe (18). Silencer according to one of the preceding claims, characterized in that at or near the open end of the resonator (24) radially inwardly protruding elevations (38) may be provided, wherein the height of each elevation (38) is preferably half the distance between the inner surface of the Resonant body (24) and the outer surface of the sound absorber (32) remaining gap corresponds, in which the elevation (38) protrudes. Exhaust system for a motor vehicle, with a silencer (10) after a of claims 1 to 11.

Images