MUFFLER FOR AN EXHAUST SYSTEM OF AN INTERNAL COMBUSTION ENGINE

Abstract

A muffler for an exhaust system of an internal combustion engine includes a housing with a circumferential wall. At least one resonator chamber (48) is defined by the circumferential wall and two base walls (28, 22), that are provided in the housing. At least one resonator pipe (50), with a first pipe end (51) and with a second pipe end (56), is connected to one of the base walls (28) in the area of a first opening (52) in the one of the base walls (28). In the alternative or in addition the one of the base walls (28) traverses an interior space such that the first pipe end (51) lies outside of the resonator chamber (48), with the second pipe end (56) being fixed to the other base wall (22).

Claims

1. A muffler for an exhaust system of an internal combustion engine, the muffler comprising: a housing comprised of a circumferential wall; two base walls connected to the circumferential wall, wherein at least one resonator chamber is defined by the circumferential wall and the two base walls and is provided in the housing; at least one resonator pipe with a first pipe end and with a second pipe end, wherein: the resonator pipe is connected to one of the base walls in an area of a first opening in the one of the base walls; or the one of the base walls traverses an interior space of the housing such that the first pipe end lies outside of the resonator chamber and the second pipe end is fixed to another of the base walls; or the resonator pipe is connected to one of the base walls in an area of a first opening in the one of the base walls and the one of the base walls traverses an interior space of the housing such that the first pipe end lies outside of the resonator chamber and the second pipe end is fixed to another of the base walls.

2. A muffler in accordance with claim 1, wherein: the second pipe end is in flush contact with the other of the base walls; or a bulge formed on the other of the base walls meshes with the resonator pipe at the second pipe end; or the second pipe end is in flush contact with the other of the base walls and a bulge formed on the other of the base walls meshes with the resonator pipe at the second pipe end.

3. A muffler in accordance with claim 1, wherein the second pipe end is fixed to the other of the base walls by a material connection.

4. A muffler in accordance with claim 1, wherein the second pipe end is fixed to the other of the base walls by a weld.

5. A muffler in accordance with claim 1, wherein the resonator pipe, starting from the first pipe end, comprises a first resonator pipe section with a pipe wall without an opening and starting from the second pipe end comprises a second resonator pipe section connected to the first resonator pipe section, the resonator pipe being open toward the resonator chamber in the area of the second resonator pipe section.

6. A muffler in accordance with claim 5, wherein the resonator pipe has a plurality of openings in the second resonator pipe section.

7. A muffler in accordance with claim 5, wherein the resonator pipe has a plurality of holes in the second resonator pipe section.

8. A muffler in accordance with claim 5, wherein the resonator pipe has at least one elongated opening in the second resonator pipe section.

9. A muffler in accordance with claim 8, wherein: the at least one elongated opening is essentially elongated in a resonator pipe longitudinal direction; or the at least one elongated opening is open toward the second pipe end; or the at least one elongated opening is essentially elongated in a resonator pipe longitudinal direction and the at least one elongated opening is open toward the second pipe end.

10. A muffler in accordance with claim 1, further comprising at least one exhaust gas outlet pipe connected to the one of the base walls in an area of a second opening in the one of the base walls and connected to the other of the base walls in an area of a third opening in the other of the base walls.

11. A muffler in accordance with claim 1, wherein: the one of the base walls is an inner base wall separating the resonator chamber from an exhaust gas-carrying chamber; or the other of the base walls is an outer base wall closing the housing to an outside; or the one of the base walls is an inner base wall separating the resonator chamber from an exhaust gas-carrying chamber and the other of the base walls is an outer base wall closing the housing to an outside.

12. A muffler in accordance with claim 11, wherein: the muffler further comprises an exhaust gas inlet pipe introducing exhaust gas into the exhaust gas-carrying chamber; or the first pipe end of the resonator pipe lies in the exhaust gas-carrying chamber; or the muffler further comprises an exhaust gas inlet pipe introducing exhaust gas into the exhaust gas-carrying chamber and the first pipe end of the resonator pipe lies in the exhaust gas-carrying chamber.

13. An exhaust system for an internal combustion engine, comprising: an exhaust carrying pipe; and a muffler connected to the exhaust carrying pipe, the muffler comprising: a housing comprised of a circumferential wall; two base walls connected to the circumferential wall, wherein at least one resonator chamber is defined by the circumferential wall and the two base walls and is provided in the housing; at least one resonator pipe with a first pipe end and with a second pipe end, wherein: the resonator pipe is connected to one of the base walls in an area of a first opening in the one of the base walls; or the one of the base walls traverses an interior space of the housing such that the first pipe end lies outside of the resonator chamber and the second pipe end is fixed to another of the base walls; or the resonator pipe is connected to one of the base walls in an area of a first opening in the one of the base walls and the one of the base walls traverses an interior space of the housing such that the first pipe end lies outside of the resonator chamber and the second pipe end is fixed to another of the base walls.

14. A exhaust system in accordance with claim 12, wherein: the second pipe end is in flush contact with the other of the base walls; or a bulge formed on the other of the base walls meshes with the resonator pipe at the second pipe end; or the second pipe end is in flush contact with the other of the base walls and a bulge formed on the other of the base walls meshes with the resonator pipe at the second pipe end.

15. A exhaust system in accordance with claim 1, wherein the second pipe end is fixed to the other of the base walls by a material connection.

16. A exhaust system in accordance with claim 1, wherein the resonator pipe, starting from the first pipe end, comprises a first resonator pipe section with a pipe wall without an opening and starting from the second pipe end comprises a second resonator pipe section connected to the first resonator pipe section, the resonator pipe being open toward the resonator chamber in the area of the second resonator pipe section.

17. A exhaust system in accordance with claim 16, wherein: the resonator pipe has at least one elongated opening in the second resonator pipe section; and the at least one elongated opening is essentially elongated in a resonator pipe longitudinal direction; or the at least one elongated opening is open toward the second pipe end; or the at least one elongated opening is essentially elongated in a resonator pipe longitudinal direction and the at least one elongated opening is open toward the second pipe end.

18. A exhaust system in accordance with claim 13, further comprising at least one exhaust gas outlet pipe connected to the one of the base walls in an area of a second opening in the one of the base walls and connected to the other of the base walls in an area of a third opening in the other of the base walls.

19. A exhaust system in accordance with claim 13, wherein: the one of the base walls is an inner base wall separating the resonator chamber from an exhaust gas-carrying chamber; or the other of the base walls is an outer base wall closing the housing to an outside; or the one of the base walls is an inner base wall separating the resonator chamber from an exhaust gas-carrying chamber and the other of the base walls is an outer base wall closing the housing to an outside.

20. A exhaust system in accordance with claim 19, wherein: the exhaust carrying pipe is an exhaust gas inlet pipe introducing exhaust gas into the exhaust gas-carrying chamber; or the first pipe end of the resonator pipe lies in the exhaust gas-carrying chamber; or the muffler further comprises an exhaust gas inlet pipe introducing exhaust gas into the exhaust gas-carrying chamber and the first pipe end of the resonator pipe lies in the exhaust gas-carrying chamber.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] In the drawings:

[0016] FIG. 1 is a top view of an exhaust gas-carrying system of an internal combustion engine with a muffler;

[0017] FIG. 2 is perspective view showing an internal configuration of the muffler of FIG. 1 with the circumferential wall of a housing of the muffler omitted;

[0018] FIG. 3 is a longitudinal sectional view of the muffler of FIG. 1;

[0019] FIG. 4 is a longitudinal sectional view corresponding to FIG. 3, as viewed from a different side;

[0020] FIG. 5 is a sectional view corresponding to FIG. 3 of an alternative configuration of the muffler; and

[0021] FIG. 6 is a view corresponding to FIG. 4 of another alternative configuration of the muffler.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0022] Referring to the drawings, an exhaust system for the internal combustion engine of a motor vehicle is generally designated by 10 in FIG. 1. The exhaust system 10 comprises an exhaust gas-carrying pipe 13 leading the exhaust gases of an internal combustion engine to a muffler, which is generally designated by 12. The exhaust gases introduced into the muffler 12 are released from this muffler in the area of a tail pipe 14 and are discharged via the tail pipe 14 to the environment. The muffler 12 comprises a housing 16 with a circumferential wall 18 that is approximately cylindrical and preferably made of sheet metal material. At the two end areas of the circumferential wall 18, this circumferential wall is connected permanently and in a gastight manner, for example, by welding to outer base walls 20, 22 shown in FIG. 2 such that an interior space of the housing 16 of the muffler 12, generally designated by 24, is sealed, in principle, in a gas-tight manner by the circumferential wall 18 and the two outer base walls 20, 22.

[0023] Two inner base walls 26, 28, which are rigidly connected to the circumferential wall, for example, by welding and which are arranged spaced apart from one another and also spaced apart from the outer base walls 20, 22 and preferably also over their entire circumference, are provided between the two outer base walls 20, 22. An exhaust gas inlet pipe 30 is rigidly connected to the outer base wall 20, for example, by welding in the area of an inlet opening 32 provided in the outer base wall 20 and may be rigidly connected to the exhaust gas-carrying pipe 13, for example, by welding or by gastight insertion connection for the integration of the muffler 12 into the exhaust system 10. The exhaust gas inlet pipe 30 traverses an opening 34 in the inner base wall 26 and extends up to the inner base wall 28. A bulge 36, which may extend into the end area of the exhaust gas inlet pipe 30, may be provided on the inner base wall 28 in order to provide a defined positioning and a secure mounting for the exhaust inlet pipe 30. This exhaust inlet pipe may be connected by material connection, for example, by welding to the inner base wall 28 in this area.

[0024] An exhaust gas-carrying chamber, which is generally designated by 38, into which the exhaust gases fed via the exhaust gas inlet pipe 30 can enter through a plurality of holes 40 provided in the exhaust gas inlet pipe 30 especially in the area between the two inner base walls 26, 28, is formed between the outer base wall 20 and the inner base wall 28.

[0025] An exhaust gas outlet pipe 42 is gastightly connected to the inner base wall 28, for example, by welding in the area of an opening 44 and in the area of an opening 46 in the outer base wall 22 is gastightly connected to same, for example, by welding. The exhaust gas outlet pipe 42 may extend slightly beyond the outer base wall 22 and may be or become gastightly connected to the tail pipe 14 in this area, for example, by welding or/and insertion connection. The exhaust gas outlet pipe 42 traverses, in a gastight manner, a resonator chamber 48 formed between the inner base wall 28 and the outer base wall 22 and establishes a connection between the exhaust gas-carrying chamber 38 and the tail pipe 14 and thus the external environment.

[0026] A resonator pipe 50, which is generally designated as a Helmholtz resonator pipe, is rigidly and gastightly connected to the inner base wall 28, for example, by welding in the area of an opening 52. As this can be clearly seen in FIGS. 3 and 4, the resonator pipe 50 traverses the opening 52 provided in the inner base wall 28 and lies with a first pipe end 54 in the exhaust gas-carrying chamber 38. In particular, the opening 52 may be provided in the area of the bulge 36 provided for the defined positioning of the exhaust gas inlet pipe 30 such that the resonator pipe 50 with its first pipe end 54 is positioned, for example, essentially centrally in the exhaust gas inlet pipe 30.

[0027] The resonator pipe 50 extends through the resonator chamber 48 and with a second pipe end 56 is in flush contact with the inner side of the outer base wall 22. A bulge 58, which is directed inwards, i.e., toward the interior 24 in the outer base wall 22, as this is shown in FIG. 2, which meshes with the interior of the resonator pipe 50, for example, in the area of the second pipe end 56 in order to mount same in a centered manner, or is in contact with the second pipe end 56, may be provided as well. A stable connection of the resonator pipe 50 both to the inner base wall 28 and to the outer base wall 22 can be achieved, for example, by material connection, especially by welding.

[0028] Starting from the first pipe end 54, the resonator pipe 50 has a first resonator pipe section 60, in which a pipe wall 62 of the resonator pipe 50 has no openings. The first pipe section 60 is that section of the resonator pipe, which defines the acoustic action thereof Starting from the second pipe end 56, the resonator pipe 50 has a second resonator pipe section 64, which extends up to the first resonator pipe section 60, i.e., is connected to same, and in which a plurality of openings 66 are formed in the example shown. In the example shown in FIGS. 2 through 4, these openings 66 are configured as holes 68 with, for example, an essentially circular cross section. The holes 68 may be arranged in a regular pattern and form a perforation, via which the resonator pipe 50 is open toward the resonator chamber 48 in its second resonator pipe section 64.

[0029] The second resonator pipe section 64 is used essentially or primarily for connecting and supporting the resonator pipe 50 to/on the housing 16, especially the outer base wall 22, and is acoustically essentially not active due to the plurality of openings 66 and holes 68. However, providing the second resonator pipe section 64 makes it possible to configure the resonator pipe 50 with a comparatively long first resonator pipe section 60 extending in the area of the resonator chamber 48 and extending from the exhaust gas-carrying chamber 38 into the resonator chamber 48 and at the same time to avoid the occurrence of oscillations of the resonator pipe 50 caused by vibrations. This stable connection of the resonator pipe 50 is achieved in a structurally simple manner and avoids the need to have to provide a lateral support, for example, on the outlet pipe 42.

[0030] A variant of the muffler 12 is shown in FIG. 5. It is seen that in this variant the resonator pipe 50 in its second resonator pipe section 64 is formed with a plurality of openings 70 elongated in the longitudinal direction of the resonator pipe 50 and open toward the second pipe end 56 in the example shown, which provide the openings 66 in the second resonator pipe section 64 in this exemplary embodiment. The elongated openings 70 essentially form interruptions in the pipe wall 62, via which the resonator pipe 50 is open toward the resonator chamber 48. The web-like sections 72 of the pipe wall 62 formed between the openings 70 are preferably fixed by welding to the outer base wall 22 in the area of the second pipe end 56.

[0031] Another variant is shown in FIG. 6. It is seen here that a part of the pipe wall 62 is missing in the second resonator pipe section 64 such that the second resonator pipe section 64 is essentially provided by a circumferential section 74 of the pipe wall 62. In this exemplary embodiment, the missing area 76 of the pipe wall forms an opening 66, via which the resonator pipe 50, connecting to the first resonator pipe section 60, is open toward the resonator chamber 48. The pipe wall section 74 may in turn be fixed to the outer base wall 22 by welding in the area of the second pipe end 56.

[0032] Also in the exemplary embodiments shown in FIGS. 5 and 6, the length of the acoustically active area of the resonator pipe 50 is essentially determined by the length of the first resonator pipe section 60, while the second resonator pipe section 64 connected to the first resonator pipe section 60 shows essentially no action acoustically, but rather makes possible a stable connection of the resonator pipe 50 at its second pipe end.

[0033] It should be pointed out that in the scope of the present invention, a wide variety of structural variations of the muffler described above and shown in the figures can be provided. Thus, the first pipe end 51 of the resonator pipe 50 does not necessarily have to be positioned in the interior of the exhaust gas inlet pipe 30. A positioning laterally next to the exhaust gas inlet pipe, especially also in an area outside of the bulge 36, is possible. Furthermore, the resonator chamber 48, which is essentially only open toward the exhaust gas-carrying chamber 38 via the resonator pipe 50, may also be formed between two inner base walls, through which the outlet pipe 42 can discharge the exhaust gases from the interior 24 of the housing 16. Further, two exhaust gas outlet pipes 42, which are adjacent and discharge exhaust gases from the interior 42, may be provided. As an alternative, provisions could also be made for an exhaust gas-carrying pipe or an additional exhaust gas-carrying pipe to lead out of the volume area of the interior 24 formed between the inner base wall 26 and the outer base wall 20, so that, for example, an exhaust gas outlet pipe discharges exhaust gases from the interior 24 in the area of the two outer base walls 20, 22, respectively.

[0034] While specific embodiments of the invention have been shown and described in detail to illustrate the application of the principles of the invention, it will be understood that the invention may be embodied otherwise without departing from such principles.