FR3018309A1 - SILENCER FOR EXHAUST LINE WITH TWO ENCLOSURES AND CONCENTRIC CONDUITS - Google Patents

Abstract

The invention is a silencer (10) for an exhaust line having: - an upstream chamber (20) comprising a first internal volume (24), - a downstream chamber (26) separated from the upstream chamber (20) by a free space, the downstream enclosure (26) comprising a second internal volume (30), - an inter-enclosure conduit (32) communicating the first and second internal volumes (24, 30) with each other an exhaust gas inlet (6), an exhaust gas outlet (8), a plurality of ducts (33) communicating the exhaust gas inlet (6) with the first or the second internal volume (24, 30), and communicating the exhaust gas outlet (8) with the first or second internal volume (24, 30). The duct assembly (33) comprises at least one concentric duct, one of the concentric duct and the inter-enclosure duct (32) extending inside the other of the concentric duct and the inter-enclosure duct (32).

Description

The present invention relates to a muffler for an exhaust line comprising: an upstream chamber comprising a first envelope delimiting a first internal volume; a downstream chamber separated from the enclosure upstream by a free space, the downstream enclosure comprising a second envelope delimiting a second internal volume, - an inter-enclosure conduit placing the first and second internal volumes in communication with each other, - a gas inlet of exhaust, - an exhaust gas outlet, - a set of ducts communicating the exhaust gas inlet with the first or the second internal volume, and putting the exhaust gas outlet in communication with the first or the second internal volume. This muffler is in particular a muffler with two separate and successive enclosures that the implementation constraints on board the vehicle prevent to gather in a single enclosure, which requires the use of a set of conduits to connect. Such a silencer can be designed with a layout of the so-called "Z" ducts. This arrangement of the ducts is known to carry out a long exhaust path, as shown in FIG. 1. The exhaust gases are conveyed to the downstream enclosure via an inlet duct. The inter-enclosure conduit returns the exhaust gases from the downstream enclosure to the upstream enclosure. And an outlet duct evacuates the exhaust gases from the upstream enclosure. A muffler of the aforementioned type was used for an exhaust line of a "Peugeot 505" model automobile. The upstream and downstream enclosures for this vehicle are oval section, which aligns the three ducts on the same plane as shown in Figure 1. In some vehicles, it is not possible to adapt such provision due to implementation constraints. This is particularly the case when the muffler is arranged for example in the tunnel of a vehicle, trapezoidal shape. We can then arrange the three conduits in a triangle arrangement. This however poses problems for the accessibility of manufacturing tools to all work areas, especially for a welding head. In other words, some areas remain inaccessible tools for such an arrangement of all the ducts in a two-speaker muffler.

An object of the invention is to design an exhaust silencer meeting the constraints of implantation on board the volume and having an arrangement of all the ducts for access to conventional manufacturing tools. For this purpose, the subject of the invention is a silencer of the aforementioned type in which the set of ducts comprises at least one concentric duct, one of the concentric duct and the inter-enclosure duct extending inside the duct. the other of the concentric duct and the inter-enclosure duct. The exhaust silencer according to the invention may comprise one or more of the following characteristics taken separately or in any technically possible combination: the concentric duct is connected at one end to the gas inlet and opens into the second internal volume at the other end; the duct assembly comprises an outlet duct putting in communication the first internal volume with the outlet; the outlet duct passes through the second internal volume; the downstream chamber comprises an internal partition dividing the second internal volume between a second upstream chamber and a second downstream chamber forming a resonator, the concentric duct opening into the second downstream chamber, the inter-enclosure duct opening into the second upstream chamber; the concentric duct is connected at one end to the gas outlet and opens into the first internal volume at the other end; - The duct assembly comprises an input conduit communicating the second internal volume with the input, the input duct passing through the first internal volume; the second internal volume is a resonator, the input duct connecting the gas inlet to the first internal volume, the concentric duct passing through the second internal volume and putting in communication the first internal volume with the outlet; the concentric duct and the inter-enclosure duct are coaxial; the concentric duct and the inter-enclosure duct are tangent; the concentric duct extends inside the inter-enclosure duct; the first and the second envelopes are made by rolled sheets; the first and the second envelopes have end walls facing each other through the concentric duct and / or through the inter-enclosure duct; the inlet duct has perforations opening into the first internal volume; the upstream enclosure and the downstream enclosure are connected to each other only through the inter-enclosure conduit and the conduit assembly; - The inter-enclosure duct has a gas passage section at least one and a half times greater than the passage section of the concentric duct. The invention will be better understood on reading the following description given solely by way of example and with reference to the appended drawings in which: FIG. 1 is a diagrammatic representation of an exhaust silencer state of the art two separate enclosures with a path circuit called "Z"; FIG. 2 is a perspective view of an exhaust silencer according to the invention; - Figure 3 is a schematic representation of the exhaust silencer of Figure 2; - Figure 4 is a schematic representation of a second embodiment of an exhaust silencer according to the invention; FIG. 5 is a schematic representation of a third embodiment of an exhaust silencer according to the invention; - Figure 6 is a schematic representation of a fourth embodiment of an exhaust silencer according to the invention. In what follows, the terms "upstream" and "downstream" generally refer to the normal direction of flow of the exhaust gas within the muffler on the exhaust line. Moreover, two tubular elements are said to be "concentric" if one is included in the other, the two tubular elements not necessarily sharing one inside the other of the same central axis. Alternatively, the respective central axes of the two tubular elements are offset and for example, the two tubular elements are tubes having a tangential tubular portion. A combustion engine 1 is connected to an exhaust line 2 designed to evacuate the gases from the combustion chambers of the engine 1. Interposed between an inlet 6 of the gases and an outlet 8 of the gases, a silencer 10 of the line of Exhaust 2 channels the gases, stabilizes the pressure and attenuates the noise of the exhaust gases from the combustion engine 1.

A first silencer according to the invention is illustrated in FIG. 2 and FIG. 3. The exhaust silencer 10 comprises an upstream enclosure 20 comprising a first envelope 22 delimiting a first internal volume 24 and a swallowed enclosure 26 separated from the enclosure upstream 20 by a free space, the downstream chamber 26 comprising a second casing 28 delimiting a second internal volume 30. The exhaust silencer 10 also comprises an inter-enclosure duct 32 communicating the first internal volume 24 and the second volume 30 and a set of ducts 33 placing the exhaust gas inlet 6 in communication with the first and the second internal volume 24, 30, the outlet 8 of the exhaust gas with the first internal volume 24. furthermore has a concentric duct extending inside the inter-enclosure duct 32 as illustrated in FIGS. 2 and 3. With reference to FIG. 3, the first envelope 22 of the pregnant e upstream 20 has a first tubular peripheral wall 40, a first upstream lateral wall 42 and a first downstream lateral wall 44, the first upstream and downstream lateral walls 42 closing the two ends of the first peripheral wall 40. The second envelope 28 of the downstream enclosure 26 has a second tubular peripheral wall 46, a second upstream lateral wall 48 and a second downstream lateral wall 50, the second upstream and downstream lateral walls 48 48 closing the two opposite ends of the second peripheral wall 46. the upstream and downstream enclosures 26 comprise a first partition 34 in the upstream enclosure 20 and a second partition 35 in the downstream enclosure 26. They extend respectively over the entire section of the first envelope 22 and the second envelope 28. The first partition 34 divides the first internal volume 24 into a first upstream chamber 36 and a first downstream chamber 37. The second partition the second internal volume 30 is divided into a second upstream chamber 38 and a second downstream chamber 39. As illustrated in FIG. 2, the second downstream chamber 39 may constitute the volume of a leaky Helmholtz resonator. The partitions 34, 35 are perforated, leaving freedom for the gas to circulate in the respective internal volumes 24, 30. Moreover, the partitions 34, 35 are adapted to maintain the ducts connecting the internal volumes 24, 30 to the inlet 6 and the exit 8 of the gases. The first and second peripheral walls 40, 46 have central axes X-X '. Aligned in the example shown in Figures 2 and 3, the respective envelopes 22, 28 of the upstream 20 and downstream 26 speakers advantageously have a trapezoidal section perpendicular to the X-X 'axes.

Advantageously, the peripheral walls 40, 46 are made by rolled sheets. Referring to Figures 2 and 3, the free space extends between the first downstream side wall 44 and the second upstream side wall 48. The inter-enclosure duct 32 extends in this free space, between a first end 52 opening in the first internal volume 24 and a second end 54 opening into the second internal volume 30. In the embodiment of Figures 2 and 3, the set of ducts 33 comprises in addition to the inter-enclosure conduit 32 connecting the first 24 and the second internal volume 30, an inlet duct 60 connecting the inlet 6 of the gases to the second internal volume 30, and an outlet duct 62 connecting the first internal volume 24 to the outlet 8 of the gases. The concentric duct here is the inlet duct 60 which extends inside the inter-enclosure duct 32. According to a variant illustrated in FIG. 4, the inter-enclosure duct 32 extends inside the duct 60 from an end opening into the second internal volume 30, passes the free space in the inlet duct 60 and then passes through the tubular wall of the inlet duct 60 to another end opening out of the duct 60 with the first internal volume 24. With reference to FIGS. 2 and 3, the inlet duct 60 extends from the inlet 6 of the gases to the downstream enclosure 26. From the inlet 6 of the gases, the inlet duct 60 passes through the first upstream side wall 42, passes through the first internal volume 24 and the first partition 34, passes inside the inter-enclosure duct 32, and then opens into the second internal volume 30. The duct input 60 has an open end 64 in the second volume int erne 30.

The inlet duct 60 further comprises perforations disposed on at least one section of the inlet duct 60 in the first internal volume 24 and / or in the second internal volume 30. Thus, the inlet duct 60 is suitable for supplying the second internal volume 30. The perforations are also intended to produce sound waves suitable for attenuating the noise.

In addition, the inlet duct 60 is held at the level of the first upstream side wall 42 and the first 34 and second partitions 35 as illustrated in FIG. 2. Alternatively, as shown in FIG. 3, the inlet duct 60 is maintained at the level of the inter-enclosure conduit 32 in place of the first 34 and second partitions 35.

Advantageously, the concentric ducts represented by the inlet duct 60 and inter-enclosure 32 are fixed to each other by fins welded in the space separating the two ducts or are welded to one another at level of one or more points or a line belonging to each of the conduits. The concentric duct and the inter-enclosure duct 32 are coaxial or central axes offset to have a tangent tubular portion. The concentric duct and the inter-enclosure duct 32 may also be arranged in a non-parallel manner. As a variant, the concentric ducts are only fixed for one by the first and second side walls downstream and upstream respectively and for the other by the partitions 34, 35.

Advantageously, the inter-enclosure duct 32 has a gas passage section at least one and a half times greater than the passage section of the concentric duct. The outlet duct 62 extends from the upstream enclosure 20 to the gas outlet 8. Since the exit of the gases 8, the outlet duct 62 passes through the second downstream wall 50 through the second partition 35 and the second internal volume. , passes the second upstream side wall 48, and the space separating the two enclosures 20, 26 then crosses the first downstream side wall 44, the first partition 34 and the first internal volume 24. The outlet duct 62 has an open end 66 in the first internal volume 24 through which the gases enter the outlet duct 62.

The outlet duct 62 has perforations disposed on at least one section of the outlet duct 62 in the first internal volume 24. The outlet duct 62 conducts the exhaust gases of the first internal volume 24 from the open outlet end 66 and the perforations to the outlet 8 of the gases. The perforations are also intended to emit destructive sound interference suitable for attenuating the noise. In addition, the outlet duct 62 is held at the second downstream side wall 50 and upstream 48, the first and second partitions 34, 35 and the first downstream side wall 44. Advantageously, the diameter of the outlet duct 62 is substantially equal to the diameter of the inlet duct 60. The diameters of the inlet and outlet ducts may also differ but remain relatively close. The arrangement of the exhaust silencer 10 according to the invention will now be described. As illustrated in FIGS. 2 and 3, the upstream and downstream enclosures 26 are distinct and arranged in their respective available locations.

A first attachment (not shown) fixes the upstream enclosure 20, a second fixed attachment (not shown) to the downstream enclosure 26, the upstream and downstream enclosures 26 are independently fixed and are uniquely connected to each other by conduits 32, 33. As a variant, the first and second fasteners are not necessarily on the upstream and downstream enclosures 26, they are also preferably used upstream of the upstream enclosure 20 and downstream of the downstream enclosure 26. The trapezoidal shape of the upstream and downstream chambers 26 is advantageously used by arranging the concentric duct and the inter-enclosure duct 32 to the large base of the shape, the small base being reserved for the outlet duct 62 as illustrated in FIGS. 3 or the inlet duct in FIG. 6. With reference to FIGS. 2, 3 and 6, the set of ducts 33 has an optimum length traveled by the exhaust gases on the main circuit defined by this assembly. With reference to FIGS. 2 and 3, the exhaust gases are conveyed from the inlet 6 of the gases to the second internal volume 30 via the inlet duct 60 passing inside the internal duct. 32. The inter-enclosure duct 32 returns the exhaust gases in the first internal volume 24 through the passage available between the inter-enclosure ducts 32 and the inlet duct 60. And the outlet duct 62 evacuates the exhaust gases. exhaust of the first internal volume 24 to the outlet 8 of the gases.

In this embodiment, the accessibility of the welding head is sufficient to weld the inter-enclosure duct 32 to the first downstream side wall 44 and to the second upstream side wall 48. In a variant, the outlet duct 62 does not cross not the downstream enclosure 26 simplifying the welds passing through the downstream enclosure 26.

A second exhaust silencer according to the invention is illustrated in FIG. 5. Only the points by which this second embodiment differs from the first mode are described below. The exhaust silencer 10 of FIG. 5 comprises a set of ducts 33 arranged so that the circulation of the exhaust gases differs from that of FIGS. 2, 3 and 6. The inlet duct 60 extends from the The gas inlet 6 opens into the upstream chamber 20. From the inlet 6 of the gases, the inlet duct 60 passes through the first upstream side wall 42 and enters the first internal volume 24. The inlet duct 60 has an open end 64 opening into the first internal volume 24. The inlet duct 60 is maintained at the first upstream side wall 42 and at least one partition 34 present in the upstream chamber 20. The outlet duct 62 extends from the upstream chamber 20 to the outlet 8 of the gases. The outlet duct 62 extends from the open end 66 located in the first internal volume 24, passes through the partition 34, passes through the inter-enclosure duct 32, enters the second internal volume 30 and passes through the downstream enclosure 22 by the second downstream side wall 50 to join the outlet 8 of the exhaust gas. The outlet duct 62 is maintained at the level of the partition 34, the partition 35 and / or optionally at the level of the inter-enclosure duct 32.

As illustrated in FIG. 5, the exhaust gas is conveyed from the inlet 6 of the gases to the first internal volume 24. From the first internal volume 24, the exhaust gas does not circulate permanently through the inter-chamber duct 32 to reach the second internal volume 30. The exhaust gases perform piston-like displacements along the inter-enclosure duct 32 as a function of the pressure difference between the upstream and downstream chambers. configuration, the downstream chamber 26 acts as a Helmholtz resonator. A third exhaust silencer 10 according to the invention is illustrated in FIG.

Unlike the silencer 10 illustrated in FIG. 2, the silencer 10 illustrated in FIG. 6, comprises the concentric outlet duct 62 with the inter-enclosure duct 32. Compared to the circuit illustrated in FIG. 2, the inlet duct 60 is exchanged with the outlet duct 62. The exhaust gases are conveyed by the inlet duct 60 from the inlet of the gases 6 to the second internal volume 30. The inter-enclosure duct 32 returns the gases in the first internal volume 24. And an outlet duct 62 evacuates the exhaust gas from the first internal volume 24. The exhaust silencer 10 illustrated in Figure 6 has the advantage of having at the large base upstream speakers 20 and downstream 26, the outlet duct 62 and the inter-enclosure duct 32 promoting the evacuation of condensates. In a variant, the ducts connecting the upstream and downstream enclosures 26 are straight or bent. In a variant, the ducts access the internal volumes 24, 30 through the peripheral wall 40, 46 of the envelope 22, 28 of the enclosure 20, 26 as illustrated in FIG.

Advantageously, the arrangement of the set of conduits 33 in the upstream and downstream enclosures 20, 26 and their dimensioning are designed to allow accessibility of the manufacturing tool heads, in particular that of welding, between the peripheral wall 40, 46 , the first downstream side wall 44 and the second upstream side wall 48 of the enclosure 20, 26 and the duct assembly 33. The exhaust silencer 10 meets the constraints of implantation on board the volume in the tunnel of automobile and presents an arrangement of all the conduits 32, 33 allowing access to conventional manufacturing tools. The exhaust muffler 10 also ensures robustness of the assembly of the ducts assembly because the internal partitions 34, 35 maintain the inlet ducts 60 and outlet 62. The exhaust silencer 10 allows to create a circulation "Z", and to obtain a length traveled by the very high exhaust gas between the inlet 6 and the outlet 8 of the gases, thus increasing the extent of acoustic attenuation.

Broadened attenuation ranges are offered with the use of secondary runs through the perforations in the ducts. The exhaust muffler 10 also has an improved efficiency by a longer outlet duct 62 fed by the first internal volume 24 compared to a shorter outlet duct 62 being fed by the second internal volume 30.

The different embodiments of the exhaust silencer 10 also make it possible to propose different implantations, making it possible in particular to implement with a dedicated resonator volume, at the bottom of the second internal volume 30, facing the inlet duct 60. Exhaust silencer 10 has improved dissipation through the use of a duct located between the concentric duct and the inter-enclosure duct which has a "wet" perimeter larger than a single duct.

Claims (16)

1. Silencer (10) for an exhaust line comprising: an upstream enclosure (20) comprising a first envelope (22) delimiting a first internal volume (24); - A downstream chamber (26) separated from the upstream chamber (20) by a free space, the downstream chamber (26) comprising a second casing (28) defining a second internal volume (30); an inter-enclosure conduit (32) communicating the first and second internal volumes (24, 30) with each other; an inlet (6) of exhaust gas; an outlet (8) of exhaust gas; a set of ducts (33) placing the exhaust gas inlet (6) in communication with the first or the second internal volume (24, 30), and putting the exhaust gas outlet (8) into communication with each other; with the first or second internal volume (24, 30); characterized in that the duct assembly (33) comprises at least one concentric duct, one of the concentric duct and the inter-enclosure duct (32) extending inside the other of the concentric duct and the inter-enclosure conduit (32). 2. Exhaust silencer (10) according to claim 1, characterized in that the concentric duct is connected at one end to the gas inlet (6) and opens into the second internal volume (30) to the other end. 3. Exhaust silencer (10) according to claim 2, characterized in that the duct assembly (33) comprises an outlet duct (62) placing the first internal volume (24) in communication with the outlet (8). ). 4. Exhaust silencer (10) according to claim 3, characterized in that the outlet duct (62) passes through the second internal volume (30). 5. exhaust silencer (10) according to any one of claims 2 to 4, characterized in that the downstream enclosure (26) has an internal partition (35) dividing the second internal volume (30) between a second an upstream chamber (38) and a second downstream chamber (39) forming a resonator, the concentric duct opening into the second downstream chamber (39), the inter-enclosure duct (32) opening into the second upstream chamber (38). 6. Exhaust silencer (10) according to claim 1, characterized in that the concentric duct is connected at one end to the outlet (8) of the gas and opens into the first internal volume (24) at the other end . 7. Exhaust silencer (10) according to claim 6, characterized in that the duct assembly (33) comprises an inlet duct (60) communicating the second internal volume (30) with the inlet (6), the inlet duct (60) passing through the first internal volume (24). 8. Exhaust silencer (10) according to claim 1, characterized in that the second internal volume (30) is a resonator, the inlet duct (60) connecting the inlet (6) of the gases to the first volume internal (24), the concentric conduit passing through the second internal volume (30) and communicating the first internal volume (24) with the outlet (8). 9. Exhaust silencer (10) according to any one of the preceding claims, characterized in that the concentric duct and the inter-enclosure duct (32) are coaxial. 10. Exhaust silencer (10) according to any one of claims 1 to 9, characterized in that the concentric duct and the inter-enclosure duct (32) are tangent. 11. Exhaust silencer (10) according to any one of the preceding claims, characterized in that the concentric duct extends inside the inter-enclosure duct (32). 12. Exhaust silencer (10) according to any one of the preceding claims, characterized in that the first and the second envelopes (22, 28) are made by rolled sheets. 13. Exhaust silencer (10) according to any one of the preceding claims, characterized in that the first and second envelopes (22, 28) have end walls (34, 35) vis-à- screws through which the concentric conduit and / or the inter-enclosure conduit (32) pass. 14. Exhaust silencer (10) according to any one of the preceding claims, characterized in that the inlet duct (60) has perforations opening into the first internal volume (24). 15.- exhaust silencer (10) according to any one of the preceding claims, characterized in that the upstream enclosure (20) and the downstream enclosure (26) are connected to each other only by the inter-enclosure conduit (32) and the conduit assembly (33). 16. Exhaust silencer (10) according to any one of the preceding claims, characterized in that the inter-enclosure duct (32) has a gas passage section at least one and a half times greater than the passage section. concentric duct.