Exhaust gas muffler

Abstract

An exhaust gas muffler of an internal combustion engine, including a muffler housing having an exhaust gas inlet and an exhaust gas outlet and including a first Helmholtz resonator made of a first housing portion that delimits a first Helmholtz volume and includes a first coupling pipe. At least one second Helmholtz resonator is provided made of a second housing portion that delimits a second Helmholtz volume and includes a second coupling pipe via which the second Helmholtz volume can be coupled to an exhaust gas flow A of the exhaust gas inlet. The second coupling pipe is arranged at least partly within the first coupling pipe, and both coupling pipes delimit an annular gap R via which the first Helmholtz volume can be coupled to the exhaust gas flow A.

Claims

1. An exhaust gas muffler of an internal combustion engine, comprising: a muffler housing having an exhaust gas inlet and an exhaust gas outlet and comprising a first Helmholtz resonator, made of a first housing portion that delimits a first Helmholtz volume and comprises a first coupling pipe, wherein at least one second Helmholtz resonator is provided made of a second housing portion that delimits a second Helmholtz volume and comprises a second coupling pipe via which the second Helmholtz volume can be coupled to an exhaust gas flow (A) of the exhaust gas inlet, wherein the second coupling pipe is arranged at least partly within the first coupling pipe, and both coupling pipes delimit an annular gap (R) via which the first Helmholtz volume can be coupled to the exhaust gas flow (A), wherein the muffler housing comprises a third housing portion in which the exhaust gas inlet and the first coupling pipe discharge, wherein the first coupling pipe has a first inlet opening that fully covers an outlet opening of the exhaust gas inlet in an axial direction given by the first coupling pipe.

2. The exhaust gas muffler according to claim 1, wherein the second coupling pipe is passed through the first housing portion and both housing portions or both Helmholtz volumes are arranged one after another in relation to a direction (RK) of the second coupling pipe.

3. The exhaust gas muffler according to claim 1, wherein the annular gap (R) has an inlet opening (E1) with a normal (N1), wherein the normal (N1) with a direction of flow (S) of the exhaust gas inlet nozzle includes an angle (a), with 90<(a)<180.

4. The exhaust gas muffler according to claim 1, wherein the second coupling pipe has an inlet opening (E2) with a normal (N2), wherein the normal (N2) with a direction of flow (S) of the exhaust gas inlet nozzle includes an angle (b), with 0(b)<90.

5. The exhaust gas muffler according to claim 1, wherein in at least one housing portion a perforated resonator wall is provided within the second Helmholtz volume.

6. The exhaust gas muffler according to claim 1, wherein the first Helmholtz volume is delimited by housing walls and in at least one housing wall a leakage opening is provided, and/or the second Helmholtz volume is partly delimited by the at least one housing wall and the leakage opening is provided in the at least one housing wall.

7. The exhaust gas muffler according to claim 6, wherein the muffler housing has at least one further housing portion, in which at least the exhaust gas outlet and/or the exhaust gas inlet discharges and/or discharge, wherein the leakage openings joins both Helmholtz volumes together and/or at least one Helmholtz volume to the at least one housing portion.

8. The exhaust gas muffler according to claim 6, wherein the leakage opening of a housing wall has an overall cross-section (L) with 0(L)500 mm.sup.2.

9. A system comprising an exhaust gas system for an internal combustion engine comprising the exhaust gas muffler according to claim 1.

10. The exhaust gas muffler according to claim 3, wherein with respect to angle a, 100(a)<180.

11. The exhaust gas muffler according to claim 8, wherein with respect to overall cross-section (L), 0(L)200 mm.sup.2.

12. The exhaust gas muffler according to claim 8, wherein with respect to overall cross-section (L), 0(L)100 mm.sup.2.

13. The exhaust gas muffler according to claim 8, wherein with respect to overall cross-section (L), 0(L)50 mm.sup.2.

14. The exhaust gas muffler according to claim 2, wherein the annular gap (R) has an inlet opening (E1) with a normal (N1), wherein the normal (N1) with a direction of flow (S) of the exhaust gas inlet nozzle includes an angle (a), with 100(a)<180.

15. The exhaust gas muffler according to claim 14, wherein the second coupling pipe has an inlet opening (E2) with a normal (N2), wherein the normal (N2) with a direction of flow (S) of the exhaust gas inlet nozzle includes an angle (b), with 0(b)<90.

16. The exhaust gas muffler according to claim 15, wherein in at least one housing portion a perforated resonator wall is provided within the second Helmholtz volume.

17. The exhaust gas muffler according to claim 16, wherein the first Helmholtz volume is delimited by housing walls and in at least one housing wall a leakage opening is provided, and/or the second Helmholtz volume is partly delimited by the housing wall and the leakage opening is provided in the housing wall.

18. The exhaust gas muffler according to claim 17, wherein the muffler housing has at least one further housing portion, in which at least the exhaust gas outlet and/or the exhaust gas inlet discharges and/or discharge, wherein the leakage openings joins both Helmholtz volumes together and/or at least one Helmholtz volume to the at least one housing portion.

19. The exhaust gas muffler according to claim 18, wherein the leakage opening of a housing wall has an overall cross-section (L) with 0(L)500 mm.sup.2.

20. A system comprising an exhaust gas system for an internal combustion engine comprising the exhaust gas muffler according to claim 19.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Further advantages and details of the invention are described in the claims and in the description and illustrated in the Figures. These show as follows:

(2) FIG. 1 a schematic diagram of an exhaust gas muffler with two Helmholtz resonators;

(3) FIG. 2 a schematic diagram of an exhaust gas system;

(4) FIG. 3 a schematic diagram according to FIG. 1 with leakage pipe.

DETAILED DESCRIPTION OF THE INVENTION

(5) An exhaust gas muffler 1 according to FIG. 1 has a muffler housing 1.3, which serves to accommodate an exhaust gas inlet nozzle 1.1 and an exhaust gas outlet nozzle 1.2. The muffler housing 1.3 also has two further housing walls 1.4, 2.4, so that in total three housing portions 3.2, 2.2, 1.6 are formed. Whereas the inlet nozzle 1.1 and the outlet nozzle 1.2 for connecting the exhaust gas system 4 shown in FIG. 2 discharge within the third housing portion 1.6, which is designed as a reflection chamber, the first and the second housing portions 3.2, 2.2 in each case delimit a Helmholtz volume 2.1, 3.1 as part of a first and second Helmholtz resonator 2, 3. The first Helmholtz volume 2.1 is fed via a coupling pipe 2.3 which, in the same manner as the inlet nozzle 1.1, discharges within the third housing portion 1.6, so that the exhaust gas flow A entering through the inlet nozzle 1.1 encounters the first coupling pipe 2.3 in the axial direction. Within the first coupling pipe 2.3 a second coupling pipe 3.3 is arranged, which at its end discharges into the second Helmholtz volume 3.1. The second coupling pipe 3.3 has an inlet opening E2, which is similarly arranged directly in front of the exhaust gas inlet nozzle 1.1, so that the exhaust gas flow A when leaving the exhaust gas inlet nozzle 1.1 encounters the inlet opening E2. Both coupling pipes 2.3, 3.3 are axially displaced so that the second coupling pipe 3.3 in relation to a direction RK is positioned inwardly offset in the first coupling pipe 2.3. Between the first coupling pipe 2.3 and the second coupling pipe 3.3 an annular gap R is thus formed, via which the first Helmholtz volume 2.1 is coupled to the exhaust gas inlet nozzle 1.1. The annular gap R similarly has an inlet opening E1, which is delimited by the respective frontal pipe edge of the first or second coupling pipe 2.3, 3.3, wherein in the case of the first coupling pipe 2.3 the inner front edge, and in the case of the second coupling pipe 3.3 the outer front edge, is involved.

(6) The inlet opening E1 is associated with a normal N1, which with a direction of flow S of the exhaust gas flow A includes an angle a. In this way direct blowing against the first Helmholtz volume 2.1 via the first coupling pipe 2.3 is guaranteed, should the angle a be greater than 90. An angle a of 90 would mean that the exhaust gas flow A or its direction of flow S was running at right-angles to the inlet opening E1, and the inlet opening was only being overflowed. At 180 full blowing occurs. Essentially, an angle a of less than 90 is also conceivable. In this case the second coupling pipe 3.3 overhangs the end face of the first coupling pipe 2.3 in the direction of the exhaust gas inlet nozzle 1.1, so that the inlet opening E1, in the same manner as the inlet opening E2, has a normal N1, N2, running parallel to the direction of flow S.

(7) As already stated the normal N2 of the inlet opening E2 with the direction of flow S includes an angle b of 0, e.g. the direction of flow S runs parallel to the normal N2. Depending on the chamfer of the second coupling pipe 3.3 the position of the inlet opening E2 may vary, so that the normal N2 includes an angle b>0 to the direction of flow S; the angle b should not reach 90, however, so that direct blowing via the second coupling pipe 3.3 is possible.

(8) With the abovementioned angles the values given for a and b respectively, can be assumed. Similarly, 0 can be equated to 180. The abovementioned nomenclature results simply on the basis of the assumed directions of flow S of the exhaust gas on the one hand and the normal N1, N2 on the other.

(9) Inside the second Helmholtz volume 3.1 a resonator wall 3.4 is provided, in the form of a perforated dividing wall. It has a certain dividing effect on the Helmholtz volume 3.1, but does not lead to a total separation of the Helmholtz volume 3.1, so that the Helmholtz volume 3.1 together with the coupling pipe 3.3 forms the second Helmholtz resonator 3 as an independent functional unit.

(10) In the housing wall 1.4, which in this embodiment forms the dividing wall between the first Helmholtz volume 2.1 and the second Helmholtz volume 3.1, a leakage opening 1.5 is provided, which guarantees a leakage or overflow between both Helmholtz volumes 2.1, 3.1. Here the leakage opening has a dimension L of approximately 80 mm.sup.2. Similarly, in the housing wall 2.4, forming a dividing wall with the third housing portion 1.6, a leakage in the form of a double leakage opening 2.5 of dimension L is provided, via which the first Helmholtz volume 2.1 can communicate with the third housing portion 1.6 or the exhaust gas outlet nozzle 1.2 and/or the exhaust gas inlet nozzle.

(11) The third housing portion 1.6 or the reflection chamber thus formed can also have a multi-piece construction, so that the exhaust gas inlet nozzle 1.1 or the exhaust gas outlet nozzle 1.2 and the respective coupling pipe 2.3, 3.3 discharge in the same or adjoining chamber parts of the third housing portion 1.6. In this case the corresponding volumes would be coupled together via corresponding openings.

(12) In the embodiment of FIG. 2 the exhaust gas muffler 1 is coupled to an exhaust gas system 4 of a motor vehicle, wherein in an inlet pipe 4a of the exhaust gas system, which is connected with the exhaust gas inlet nozzle 1.1, a catalytic converter 4.1 is provided, while in an outlet pipe 4b of the exhaust gas system 4 a rear muffler 4.2 is provided.

(13) According to the exemplary embodiment of FIG. 3, the leakage opening 1.5 of the second Helmholtz volume 3.1 is formed by a pipe and connects the second Helmholtz volume 3.1 directly with the third housing portion 1.6, while the first Helmholtz volume 2.1 is similarly coupled via the leakage opening 2.5 to the housing portion 1.6. Thus both Helmholtz volumes 2.1, 3.1 are not directly coupled together.

(14) Essentially, the leakage opening of the respective Helmholtz volume 2.1, 3.1 can also be fully dispensed with.

LIST OF REFERENCE NUMERALS

(15) 1 Exhaust gas muffler 1.1 Exhaust gas inlet, nozzle 1.2 Exhaust gas outlet, nozzle 1.3 Muffler housing 1.4 Housing wall, dividing wall 1.5 Leakage opening, recess, leakage pipe 1.6 Third housing portion, reflection chamber 2 First Helmholtz resonator 2.1 First Helmholtz volume 2.2 First housing portion, housing wall 2.3 First coupling pipe 2.4 Housing wall 2.5 Leakage opening, recess 3 Second Helmholtz resonator 3.1 Second Helmholtz volume 3.2 Second housing portion, housing wall 3.3 Second coupling pipe 3.4 Resonator wall 4 Exhaust gas system 4a Inlet pipe 4b Outlet pipe 4.1 Catalytic converter 4.2 Rear muffler A Exhaust gas flow a Angle b Angle E1 Inlet opening E2 Inlet opening N1 Normal N2 Normal R Annular gap RK Direction S Direction of flow L Overall cross-section, size