DE102016103459A1 - exhaust silencer - Google Patents

Abstract

The invention relates to an exhaust muffler 1 for an exhaust system of an internal combustion engine having a housing outer wall 1.1 having a housing 1.2, arranged in the housing 1.2 first intermediate wall 2.1 and arranged in the housing 1.2 second intermediate wall 2.2, the housing 1.2 in a subdivide first chamber 3.1, a second chamber 3.2 and a third chamber 3.3, with an inlet pipe 4, which is guided from the outside through the housing outer wall 1.1 in the first chamber 3.1 and is coupled to the second chamber 3.2, and with an exhaust pipe 5.1, the is guided from the outside through the housing outer wall 1.1 in the first chamber 3.1, wherein the first chamber is 3.1 filled with absorbent 8 and formed as an absorption chamber and the third chamber is designed as a Helmholtz free filling, the exhaust pipe 5.1 is coupled to the inlet pipe 4, and wherein an outlet pipe 6 is provided, which through the third Ka 3.3 is guided and opens in the second chamber 3.2. The invention further relates to an exhaust system of an internal combustion engine with an exhaust muffler. 1

Description

The invention relates to an exhaust silencer for an exhaust system of an internal combustion engine having a housing outer wall having a housing, disposed in the housing first intermediate wall and arranged in the housing second intermediate wall, the housing in a first chamber, a second chamber and a subdivide third chamber, with an inlet tube which is guided from the outside through the housing outer wall in the first chamber and is coupled to the second chamber, and with an exhaust pipe, which is guided from the outside through the housing outer wall in the first chamber.

An exhaust pipe can also be designed in several parts and plugged together or composed of half-shells.

An exhaust pipe or chamber is said to be coupled when direct flow communication and / or direct sound communication between the elements to be coupled is ensured by using one or more openings in a pipe wall or chamber wall.

It is already an exhaust muffler for a motor vehicle from the EP 1 908 930 A2 known. Immediately after the inlet pipe an expansion chamber is provided, starting from which the exhaust gas is passed to the two outlet pipes. From the expansion chamber also leads an intermediate tube in a Helmholtz volume.

The US 8,172,039 B2 also describes an exhaust muffler housing with three partitions. The inlet tube is passed through the first three chambers to the fourth chamber, wherein the third chamber is coupled. The two outlet tubes lead from the first chamber through the housing wall to the outside.

The US 7,191,868 B2 also describes an exhaust muffler housing with three partitions. The inlet pipe opens into the first chamber. The outlet tube is coupled to the second chamber and is led out through the first chamber.

The invention has for its object to form a exhaust muffler and arrange so that a strikingly sporty muzzle acoustics are achieved at higher speeds with simultaneous expression of side engine orders and a comfortable muzzle acoustics at lower speeds.

The object is achieved according to the invention in that the first chamber is filled with absorbent and formed as an absorption chamber and that the third chamber is designed as Helmholtz chamber, wherein the exhaust pipe is preferably coupled in the first chamber to the inlet pipe, and that an outlet pipe is provided which is passed through the third chamber and opens into the second chamber. The exhaust pipe also serves as an outlet pipe and is preferably coupled directly to the inlet pipe. This coupling can also be done by using a coupling chamber, which receives the respective mouthpiece of the exhaust pipe and inlet pipe. The Helmholtz chamber is preferably free of absorbent or filling.

The term "mouth" refers only to the fact that the respective pipe ends there. On the direction of the exhaust gas flow, thus a discharge or inflow is not turned off.

An exhaust pipe or a chamber is referred to as coupled, if by using one or more openings in a pipe wall or chamber wall, a flow connection and / or a sound connection between the elements to be coupled is ensured.

As a result, a significant enhancement of the mouth acoustics, in particular a strikingly sporty mouth acoustics at higher speeds and at the same time the expression of desired secondary engine orders feasible. In addition, a comfortable muzzle acoustics is achieved at lower speeds.

With reference to a perforation zone, the ratio of wall area to opening area is also referred to as the degree of perforation. Decisive for the wall surface and for the opening cross-section is the projection of the same in the main flow direction of the exhaust gas.

It can also be advantageous for this purpose if the inlet pipe is guided through the first chamber and opens into the second chamber or in the third chamber and if at the mouth in the second chamber, a sound pipe is provided, which led from the second chamber into the third chamber is. By using the sound tube, the third chamber is coupled to the second chamber. Both the inlet tube and the sound tube both open via the respective end-side tube opening or the tube end within the second chamber.

Furthermore, it may be advantageous if the inlet pipe and / or the exhaust pipe has a perforation zone PE1, via which the pipe is coupled to the first chamber. The first chamber is in In this case coupled to the inlet pipe and / or the exhaust pipe. Depending on the characteristics of inlet and exhaust pipe, a coupling to the first chamber is also provided for only one of the two pipes, preferably for the inlet pipe. The exhaust pipe is without coupling to the first chamber and is only coupled to the input pipe for the purpose of discharging exhaust gas.

It may also be advantageous if a third intermediate wall is provided, which delimits the second chamber and forms a fourth chamber between the second chamber and the third chamber within the housing, wherein the inlet pipe or the sound pipe is guided through the fourth chamber and in the third chamber opens. The fourth chamber thus separates the second chamber from the third chamber. All four chambers are arranged in series with respect to the exhaust main flow within the outlet pipe and within the inlet pipe, respectively. The third chamber is still coupled via the inlet pipe or the additional sound pipe. A coupling of the fourth chamber through the inlet pipe or the sound pipe is also optionally possible.

It may advantageously be provided that the outlet pipe in the second chamber or in the fourth chamber has a perforation zone PA3. The outlet tube is perforated in the chamber, which connects directly to the third chamber. This is in the presence of the fourth chamber, the fourth chamber and in the absence of the fourth chamber, the second chamber. The coupling is preferably carried out by a perforation zone. In the second chamber, the coupling can be complementary or alternatively via the pipe end and the end pipe opening.

Of particular importance for the present invention may be when the inlet tube in the second chamber has a perforation zone PE2 and / or in the fourth chamber a perforation zone PE3. Through the respective perforation PE2, PE3 a coupling of the inlet pipe to the second and / or the fourth chamber is ensured. When using a sound tube, the coupling of the fourth chamber is ensured by a corresponding perforation PE3 of the sound tube. In the absence of the fourth chamber, the second chamber may be coupled through a perforation of the inlet tube or the tube opening at the tube end of the inlet tube at the mouth of the same in the second chamber.

In connection with the design and arrangement according to the invention, it may be advantageous if the housing comprises an exhaust silencer volume of 27 liters to 36 liters, wherein the first chamber comprises a volume of 7 liters to 15 liters and / or the second chamber has a volume of 5 Liters to 12 liters and / or the third chamber comprises a volume of 8 liters to 15 liters. The abovementioned alternatives for the respective volume ensure the desired expression of the muzzle acoustics of the exhaust muffler.

It can also be advantageous if the inlet pipe has an internal diameter of between 70 mm and 90 mm and / or the exhaust gas pipe has an internal diameter of between 60 mm and 75 mm and / or the outlet pipe has an internal diameter of between 50 mm and 65 mm. Also, the above-mentioned diameter for inlet and outlet pipes ensure, taking into account the thus achieved flow velocities and dynamic pressure conditions optimal functioning of the muffler both in acoustic and in hydromechanical terms.

Moreover, it can be advantageous if the first intermediate wall and / or the third intermediate wall has a wall surface and a perforation zone PZ1, PZ3, wherein an opening cross section of the perforation zone PZ1, PZ3 is between 40% and 60% or at most 70% of the respective wall surface. The use of a perforation zone in the first and / or the third intermediate wall ensures a coupling between the first chamber and the second chamber or between the second and the fourth chamber. This coupling has the achievable desired purpose regarding the mouth acoustics of the exhaust muffler as a whole.

Furthermore, it may be advantageous if the second intermediate wall has a wall surface and a perforation zone PZ2, wherein an opening cross section of the perforation zone PZ2 is between 40% and 70% or at most 70% of the wall surface, or if the third chamber, with the exception of the coupling of the exhaust pipe or the sound tube is disconnected. The third chamber is a Helmholtz resonator in conjunction with the exhaust pipe coupled thereto or with the sound pipe coupled to it. By applying a perforation zone in the second partition, the Helmholtz resonator thus formed is damped. Irrespective of the main resonance frequency of the Helmholtz resonator, the degree of perforation of this perforation zone PZ2 in particular alters high-frequency muzzle noise components and thus the bandwidth of the Helmholtz resonator. Alternatively, the third chamber, with the exception of the coupling through the input pipe or the sound tube, can be completely sealed off, so that a classic Helmholtz resonator is implemented.

It may be advantageous if the chambers with respect to a flow direction S of the exhaust gas in the inlet pipe or in the outlet pipe are sequentially arranged in series. As already stated in the introduction, in the inlet pipe, as far as the coupling between the first and one of the further chambers is concerned, or also in the outlet pipe, a main direction of the gas flow results, with the chambers, hence the first, second and third as well as the fourth chamber Reference to this flow direction one behind the other, are therefore arranged serially. The respective partition walls thus form partitions between the individual chambers.

Finally, it may be advantageous if at least one of the perforation zones PE1 - PE3, PA3 is limited with respect to a circumference U of the respective tube to a section between 150 ° and 210 °. The perforation zone may be placed with respect to an adjacent perforation zone on the side facing away from the adjacent perforation zone. When using parallel or juxtaposed inlet and outlet pipe, it may therefore be advantageous that at least in one or both pipes, the perforation zone is formed on one side, wherein the respective perforation zone is placed at half-sided training on the side facing away from the adjacent pipe. Thus, greater distances between the perforation zones and the associated acoustic advantages are achieved.

It can also be advantageous for this purpose if the exhaust pipe has an exhaust gas flap which is arranged downstream of the housing outer wall, via which an exhaust gas flow which can be diverted directly into an environment can be regulated. By applying an exhaust flap, the mouth acoustics can be changed relatively strongly. When the exhaust flap is open at least part of the exhaust gas flow passes without passing through the exhaust muffler to the outside, whereby a very sporty muzzle noise is guaranteed. When the exhaust valve is closed or at least partially closed, a correspondingly larger part of the exhaust gas flow passes through the exhaust muffler, so that a very comfortable muzzle noise is achieved.

Furthermore, it may be advantageous if the inlet tube and the outlet tube are arranged at least partially adjacent to each other and at a radial distance ar to each other. The above-described inlet pipe and the outlet pipe are separate pipes which are arranged side by side with a distance ar to each other. Irrespective of this, the respective pipe, that is to say the inlet pipe or also the outlet pipe, can be designed in several parts. But even in this case, the basic gas guide for the designation of the pipe is relevant. Initiation and routing of the exhaust stream is effected through an inlet pipe while discharging from the exhaust muffler and advancing to the corresponding outlet through an outlet pipe. The application of an exhaust pipe, which is directly connected to the inlet pipe, does not satisfy at least the above-mentioned condition regarding the juxtaposition or the distance ar to the inlet pipe.

Of course, the aforementioned advantages are also achieved by means of an exhaust system with a previously described exhaust muffler. Since the exhaust silencer described above is an end silencer, only one exhaust end pipe is provided downstream of the exhaust pipe or the exhaust gas flap, which does not significantly affect the desired mouth acoustics.

Advantageously, the previously described exhaust muffler is designed as a rear muffler, so that after the exhaust pipe, regardless of the exhaust valve, only a silencer-free exhaust pipe end is provided.

Further advantages and details of the invention are explained in the patent claims and in the description and illustrated in the figures. Show it:

1 to 6 in each case a schematic diagram of an exhaust muffler in various embodiments;

7 a cross-sectional view of adjacent exhaust pipes;

8th a schematic diagram of an exhaust muffler with exhaust tailpipe;

9 a schematic diagram of an internal combustion engine with an exhaust muffler.

To 1 has an exhaust muffler 1 a housing outer wall 1.1 on, which is a case 1.2 limited. Inside the case 1.2 is a first partition 2.1 and a second partition 2.2 provided, wherein the first partition wall 2.1 together with the housing outer wall 1.1 an end-side first chamber 3.1 limited, while the second partition wall 2.2 together with the end housing outer wall 1.1 a third chamber 3.3 limited. Between the two housing walls 2.1 . 2.2 is a second chamber 3.2 intended. In contrast to the embodiment 3 to 6 is according to embodiment 1 a third partition 2.3 provided, in turn, together with the first partition wall 2.1 and the housing outer wall 1.1 the second chamber 3.2 limited. In addition, the third partition wall limits 2.3 together with the second partition 2.2 and the housing outer wall 1.1 a fourth chamber 3.4 ,

All embodiments according to 1 to 6 is common an inlet pipe 4 through the outside of the housing 1.1 in the first chamber 3.1 is guided and which starting from the first chamber 3.1 through the first partition 2.1 in the second chamber 3.2 to be led. In addition, all embodiments in common an outlet pipe 6 , which through the housing outer wall 1.1 and through the third chamber 3.3 is guided and which in the second chamber 3.2 empties.

To the inlet pipe 4 closes in the first chamber 3.1 an exhaust pipe 5.1 which, through the first chamber 3.1 and through the case exterior wall 1.1 in an environment 10 to be led. In the outlet pipe 6 is downstream of the housing outer wall 1.1 an exhaust flap 7 placed over the one in the environment 10 to leading exhaust gas flow is adjustable.

After embodiment 1 is the inlet pipe 4 through the second chamber 3.2 and through the fourth chamber 3.4 guided and opens with an end pipe opening in the third chamber 3.3 , Both in the second chamber 3.2 as well as in the fourth chamber 3.4 has the inlet pipe 4 a perforation zone PE2, PE3, over which the inlet pipe 4 to the second chamber 3.2 or to the fourth chamber 3.4 is coupled. The outlet pipe 6 also has a perforation zone PA3, which in the fourth chamber 3.4 is placed and thus the fourth chamber 3.4 to the outlet pipe 6 coupled. The outlet pipe 6 opens with an end pipe opening within the second chamber 3.2 ,

The first partition 2.1 is provided with a perforation zone PZ1, whereby the first chamber 3.1 to the second chamber 3.2 is coupled.

The exhaust flow within the outlet pipe 6 or of the inlet pipe 4 as far as they go through the different chambers 3.2 - 3.4 extend, is based on a main flow direction S of the exhaust gas. With reference to this flow direction S, all four chambers are arranged serially, thus one after the other. The respective partition walls 2.1 - 2.3 thus provide dividing walls between the different chambers 3.1 - 3.4 dar. The outlet pipe 6 is at a distance ar to the inlet pipe 4 arranged and runs next to the inlet pipe 4 , outlet pipe 6 and inlet pipe 4 can be arranged parallel or skewed to each other. Of essential importance for the mouth acoustics is the distance ar, which can also vary with respect to the direction of the flow direction S.

The embodiment according to 2 differs first of the after 1 in that the inlet pipe 4 within the second chamber 3.2 opens with the end pipe opening. In addition, there is a sound tube 5.2 provided, starting from the second chamber 3.2 through the fourth chamber 3.4 is guided and in the third chamber 3.3 opens through the end pipe opening. The sound tube 5.2 points inside the fourth chamber 3.4 a perforation zone PE3, via which it passes to the fourth chamber 3.4 is coupled. The inlet pipe 4 and the sound tube 5.2 can be arranged coaxially with each other. A parallel arrangement which ensures at least an overlap of the respective end-side, opposite pipe opening is sufficient. Because of this overlap is a flow of the sound pipe 5.2 in its function as Helmholtz tube to the flow of the Helmholtz chamber 3.3 advantageous.

While according to embodiment 1 the first partition 2.1 the perforation zone PZ1 has, according to embodiment 2 the third partition 2.3 a perforation zone PZ3 on.

According to the following embodiments 3 to 6 is the third partition 2.3 not provided. Thus, the second chamber 3.2 limited by the first partition 2.1 and the second partition 2.2 , The outlet pipe 6 flows inside the second chamber 3.2 and is to the second chamber 3.2 coupled, on the one hand via the end pipe opening and the perforation zone PA3. The inlet pipe 4 in turn opens with the end-side tube opening within the second chamber 3.2 , In addition to this with axial distance ar is the sound tube 5.2 provided, which in both the third chamber 3.3 as well as in the second chamber 3.2 opens with the respective end pipe opening. As well as the embodiment 1 has the first partition 2.1 a perforation zone PZ1, which is the first chamber 3.1 to the second chamber 3.2 coupled. In addition, the second partition wall 2.2 a perforation zone PZ2 on which the second chamber 3.2 to the third chamber 3.3 coupled.

After embodiment 4 is unlike embodiment 3 the inlet pipe 4 starting from the first chamber 3.1 to the third chamber 3.3 guided. Inside the second chamber 3.2 has the inlet pipe 4 a perforation zone PE2, via which it passes to the second chamber 3.2 is coupled. The outlet pipe 6 points in the second chamber 3.2 no perforation on and is only on the end pipe opening to the second chamber 3.2 coupled.

The inlet pipe 4 points inside the first chamber 3.1 a perforation PE1 on which it passes to the first chamber 3.1 is coupled. The Perforation zone PE1 can be divided into several sections or segments. The same applies to the perforation zone PE2 within the inlet tube 4 or for the perforation zone PE3 within the outlet tube 6 ,

The embodiment 5 corresponds over long parts of the embodiment according to 3 , The inlet pipe 4 also flows into the second chamber 3.2 , However, the coupling takes place only via the end pipe opening without the use of a perforation zone. Both the outlet pipe 6 as well as the sound tube 5.2 are shortened and end immediately in the area of the second partition wall 2.2 ,

The different perforation zones within the different partition walls 2.1 - 2.3 can be combined differently. In addition to the embodiments embodied herein, other variations are possible. This also applies to the application of perforation zones within the inlet tube 4 or the outlet tube 6 as far as the coupling of the respective tube to one of the chambers is concerned.

The perforation zone PZ2 within the second partition 2.2 is only for the embodiment 2 . 3 and 4 shown. The perforation of the first partition 2.1 , thus the perforation zone PZ1 is only for the embodiment according to 1 such as 3 to 6 shown. The perforation of the third partition 2.3 is exemplary only in the embodiment 2 shown. Also in this regard, other variations are possible.

After embodiment 7 is the perforation PE3 half side, thus formed only over a circumference U of about 180 ° and on the pipe 6 opposite side of the respective tube 4 . 5.2 arranged. It is also possible that in addition or alternatively the tube 6 only perforated on one side and this perforation zone PA3 on the tube 4 . 5.2 opposite side is arranged.

8th shows the exhaust silencer 1 with the housing outer wall 1.1 and the outwardly guided exhaust pipe 5.1 with the exhaust flap 7 , Then to the exhaust pipe 5.1 is an exhaust tailpipe 9 provided, via which the exhaust gas flow into an environment 10 is directed.

To 9 is outlined an internal combustion engine 11 with an exhaust pipe 11.1 in which an exhaust silencer 1 as previously described is integrated. Starting from the exhaust silencer 1 the exhaust gas is via the exhaust tailpipe 9 to an environment 10 forwarded.

LIST OF REFERENCE NUMBERS

1

exhaust silencer

1.1

Housing outer wall

12

casing

2.1

first partition wall

2.2

second partition

2.3

third partition

3.1

first chamber, absorption chamber

3.2

second chamber, expansion and reflection chamber

3.3

third chamber, Helmholtz chamber

3.4

fourth chamber, absorption chamber

4

inlet pipe

5.1

exhaust pipe

5.2

sound tube

6

outlet pipe

7

exhaust flap

8th

absorbents

9

Exhaust tailpipe, silencer-free exhaust pipe

10

Surroundings

11

Internal combustion engine

11.1

exhaust pipe

ar

radial distance

PE1

Perforation zone inlet tube

PE2

Perforation zone inlet tube

PI3

Perforation zone inlet pipe, sound pipe

PA3

Perforation zone outlet pipe

PZ1

Perforation zone partition

PZ2

Perforation zone partition

PZ3

Perforation zone partition

S

flow direction

U

scope

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 1908930 A2 [0004]
• US 8172039 B2 [0005]
• US 7191868 B2 [0006]

Claims (16)

Exhaust silencer ( 1 ) for an exhaust system of an internal combustion engine with a housing outer wall ( 1.1 ) housing ( 1.2 ), with one in the housing ( 1.2 ) arranged first partition ( 2.1 ) and with one in the housing ( 1.2 ) arranged second partition ( 2.2 ), the housing ( 1.2 ) into a first chamber ( 3.1 ), a second chamber ( 3.2 ) and a third chamber ( 3.3 ) with an inlet pipe ( 4 ), which from the outside through the housing outer wall ( 1.1 ) into the first chamber ( 3.1 ) and to the second chamber ( 3.2 ) is coupled, and with an exhaust pipe ( 5.1 ), which from the outside through the housing outer wall ( 1.1 ) into the first chamber ( 3.1 ), characterized in that the first chamber ( 3.1 ) with absorbent ( 8th ) and is designed as an absorption chamber and that the third chamber ( 3.3 ) is designed as a Helmholtz chamber, wherein the exhaust pipe ( 5.1 ) to the inlet pipe ( 4 ) and that an outlet tube ( 6 ) provided by the third chamber ( 3.3 ) and in the second chamber ( 3.2 ) opens. Exhaust silencer ( 1 ) according to claim 1, characterized in that the inlet pipe ( 4 ) through the first chamber ( 3.1 ) and in the second chamber ( 3.2 ) or in the third chamber ( 3.3 ) and that at the mouth in the second chamber ( 3.2 ) a sound tube ( 5.2 ) provided by the second chamber ( 3.2 ) into the third chamber ( 3.3 ) is guided. Exhaust silencer ( 1 ) according to one of the preceding claims, characterized in that the inlet pipe ( 4 ) and / or the exhaust pipe ( 5.1 ) has a perforation zone PE1 over which the pipe ( 4 . 5.1 ) to the first chamber ( 3.1 ) is coupled. Exhaust silencer ( 1 ) according to one of the preceding claims, characterized in that a third intermediate wall ( 2.3 ), which is the second chamber ( 3.2 ) and a fourth chamber ( 3.4 ) between the second chamber ( 3.2 ) and the third chamber ( 3.3 ) within the housing ( 12 ), wherein the inlet pipe ( 4 ) or the sound tube ( 5.2 ) through the fourth chamber ( 3.4 ) and in the third chamber ( 3.3 ) opens. Exhaust silencer ( 1 ) according to one of the preceding claims, characterized in that the outlet pipe ( 6 ) in the second chamber ( 3.2 ) or in the fourth chamber ( 3.4 ) has a perforation zone PA3. Exhaust silencer ( 1 ) according to one of the preceding claims, characterized in that the inlet pipe ( 4 ) in the second chamber ( 3.2 ) a perforation zone PE2 and / or in the fourth chamber ( 3.4 ) has a perforation PE3. Exhaust silencer ( 1 ) according to one of the preceding claims, characterized in that the housing ( 1.2 ) comprises an exhaust muffler volume of 27 liters to 36 liters, the first chamber ( 3.1 ) comprises a volume of 7 liters to 15 liters and / or the second chamber ( 3.2 ) comprises a volume of 5 liters to 12 liters and / or the third chamber ( 3.3 ) comprises a volume of 8 liters to 15 liters. Exhaust silencer ( 1 ) according to one of the preceding claims, characterized in that the inlet pipe ( 4 ) has an inner diameter between 70 mm and 90 mm and / or that the exhaust pipe ( 5.1 ) has an inner diameter between 60 mm and 75 mm and / or that the outlet tube ( 6 ) has an inner diameter between 50 mm and 65 mm. Exhaust silencer ( 1 ) according to one of the preceding claims, characterized in that the first partition ( 2.1 ) and / or the third partition ( 2.3 ) has a wall surface and a perforation zone PZ1, PZ3, wherein an opening cross-section of the perforation zone PZ1, PZ3 is between 40% and 60% or at most 70% of the respective wall surface. Exhaust silencer ( 1 ) according to one of the preceding claims, characterized in that the second intermediate wall ( 2.2 ) has a wall surface and a perforation zone PZ2, wherein an opening cross-section of the perforation zone PZ2 is between 40% and 70% or at most 70% of the wall surface, or that the third chamber ( 3.3 ) with the exception of the coupling of the exhaust pipe ( 5.1 ) or the sound tube ( 5.2 ) is decoupled. Exhaust silencer ( 1 ) according to one of the preceding claims, characterized in that the chambers ( 3.1 . 3.2 . 3.3 . 3.4 ) with respect to a flow direction S of the exhaust gas in the inlet pipe (FIG. 4 ) or in the outlet pipe ( 6 ) are arranged successively in series. Exhaust silencer ( 1 ) according to one of the preceding claims, characterized in that at least one of the perforation zones PE1 - PE3, PA3 with respect to a circumference U of the respective tube ( 4 . 5.1 . 5.2 ) is limited to a section between 150 ° and 210 °. Exhaust silencer ( 1 ) according to one of the preceding claims, characterized in that the exhaust pipe ( 5.1 ) an exhaust flap ( 7 ), which downstream of the housing outer wall ( 1.1 ) is arranged, via which a directly into an environment ( 10 ) Ableitbarer exhaust gas flow is adjustable. Exhaust silencer ( 1 ) according to one of the preceding claims, characterized in that the inlet pipe ( 4 ) and the outlet tube ( 6 ) are at least partially juxtaposed and arranged at a radial distance ar to each other. Exhaust system of an internal combustion engine with an exhaust muffler ( 1 ) according to any one of the preceding claims. Exhaust system according to claim 15, characterized in that directly to the exhaust pipe ( 5.1 ) a silencer-free exhaust tailpipe ( 9 ) is coupled.

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