EP1627997A1 - Muffler and manufacturing method. - Google Patents

Abstract

The manufacturing process for a silencer (10) involves first making a through aperture (7) in a jacket (4) of the silencer at the point of the future connection to the first exhaust gas line (5); fitting an insert (2) in the required region of the pre-bent jacket, aligning the insert, completing the bending of the jacket round it, closing the jacket along a seam (12), and connecting the exhaust gas line to the channel by fitting and fixing it to or in the through aperture.

Description

The present invention relates to a method for producing a silencer for an exhaust system and a silencer produced by the method.

It is generally known to use mufflers in exhaust systems, in particular in exhaust systems of motor vehicles, in order to keep a noise emission during operation of the system as low as possible. Since mufflers are needed in large quantities, it is desirable to make the production of high quality as cheap as possible.

The present invention is concerned with the problem of providing an improved method for producing a muffler for an exhaust system, by which in particular a simplification of the production and an increase in the quality can be realized.

This problem is solved according to the invention by the subject matters of the independent claims. Advantageous embodiments are the subject of the dependent claims.

The present invention is based on the general idea to provide a through hole in a jacket of a muffler even before its final installation, thereby avoiding a complex and difficult to manufacture the through hole on the mounted muffler. In the mounted state, the silencer comprises at least the following components: An insert with a rounded cross-sectional profile and at least one inner channel, a jacket enveloping the insert and a first and a second exhaust pipe. The inventive method for producing the muffler is divided into the following method steps: First, at least one through hole is introduced into the jacket exactly at the point at which a subsequent connection with the first exhaust pipe takes place. Thereafter, the insert is inserted in the at least in the region of the passage opening according to the outer contour of the insert pre-bent jacket and aligned so that an opening of the inner channel with the passage opening in the jacket comes to cover. Subsequently, the jacket is finished bent along the outer contour of the insert and closed along its jacket seam. Now, the first exhaust pipe can be connected to the inner channel of the insert by arranging and fixing it at or in the through hole, thereby achieving an inflow or outflow of exhaust gases into or out of the insert of the muffler.

By the method according to the invention, the jacket of the muffler is after the wrapping of the insert and closed after aligning the inner channel along its jacket seam. An elaborate and difficult insertion of the insert in the already closed shell, as is the case in conventional manufacturing processes, can be avoided. The pipe run before and after the muffler can thereby be made much simpler, which can be achieved in particular lower production costs. In addition, weight advantages can be realized with the method according to the invention, since a lesser back pressure for connecting the first exhaust pipe to the inner channel of the insert is required by the already prefabricated through hole in the mantle of the muffler and thus can be realized significantly lower material thicknesses in this area.

According to an advantageous embodiment of the invention, the jacket seam is welded. Welding seams are high-quality and reliably producible connections and, moreover, temperature-resistant, which is particularly advantageous in exhaust systems. It is conceivable here that only the jacket along its jacket seam or the jacket along its jacket seam and at the same time with parts of the wrapped insert are welded and thereby a particularly reliable mounting of the insert is ensured in the jacket.

In accordance with an advantageous embodiment of the solution according to the invention, when the at least one passage opening is introduced into the jacket, the insert faces or faces away from the insert Collar edge formed on the through hole such that it forms a guide for the first exhaust pipe. The collar edge can in this case be produced for example by means of a punching tool and significantly simplify the assembly of the first exhaust pipe by the leading effect. At the same time it is conceivable that the collar edge forms a guide both for the use and for the first exhaust pipe, whereby an alignment of the insert in the shell when wrapping simplified and thereby the manufacturing process can be improved in itself. Furthermore, it is conceivable that the collar edge forms a connection surface for fixing the insert or the first exhaust pipe to the mantle of the muffler. In principle, a welding of the exhaust pipe to the collar edge of the jacket can take place, which facilitates the production of the weld, in particular when the collar edge protrudes outwards.

Appropriately, a bottom is used at the front end of the muffler, which abuts against a front end edge of the shell. In at least one of the two floors, a second passage opening can be provided, which coincides with the inner channel of the insert or a further channel when the floor is arranged on the silencer. It is conceivable in this case that the second passage opening similar to the first in the shell has a collar edge, which forms a guide for the second exhaust pipe. The second exhaust pipe is arranged or fixed after arranging the bottom of the muffler in or on the second passage opening. By the previous one Introducing the second passage opening in the floor, the installation of the muffler is simplified because the connection of the second exhaust pipe at or in the second passage opening is much less expensive as producing the second passage opening on the already assembled muffler and subsequent attachment of the second exhaust pipe on or in the passage opening. Of course, both one and a plurality of passage opening in the shell or in the floors can be provided.

Other important features and advantages of the invention will become apparent from the dependent claims, from the drawings and from the associated figure description with reference to the drawings.

It is understood that the features mentioned above and those yet to be explained below can be used not only in the particular combination given, but also in other combinations or in isolation, without departing from the scope of the present invention.

A preferred embodiment of the invention is illustrated in the drawings and will be explained in more detail in the following description.

Fig. 1

eine perspektivische Ansicht auf einen erfindungsgemäßen Schalldämpfer,

Fig. 2

eine perspektivische Ansicht auf einen vorgebogenen Mantel des Schalldämpfers,

Fig. 3

eine perspektivische Ansicht auf einen in den vorgebogenen Mantel eingesetzten Einsatz des Schalldämpfers,

Fig. 4

eine Darstellung wie in Fig. 3, jedoch bei fast vollständig fertiggebogenem Mantel,

Fig. 5

eine Darstellung wie in Fig. 4, jedoch bei fertiggebogenem und geschlossenem Mantel und eingesetzten stirnendseitigen Böden kurz vor der Verbindung mit einer ersten und einer zweiten Abgasleitung.

Show, in each case schematically,

Fig. 1

a perspective view of a silencer according to the invention,

Fig. 2

a perspective view of a pre-bent shell of the muffler,

Fig. 3

a perspective view of an insert used in the pre-bent shell of the muffler,

Fig. 4

a representation as in Fig. 3, but with almost completely finished bent coat,

Fig. 5

a representation as in Fig. 4, but at fertiggebogenem and closed shell and inserted end-end soils just before the connection with a first and a second exhaust pipe.

1, an inventive muffler 10 for an exhaust system of a motor vehicle, not shown, at least the following components: An insert 2 with a rounded cross-sectional profile and at least one inner channel 3, a coat 2 enveloping the insert 2 and a first exhaust pipe. 5 and a second exhaust pipe 6. In general, the muffler 10 may also have a cross-sectionally substantially elliptical shape or be adapted in terms of its shape to constructive features of a motor vehicle. The first exhaust pipe 5 occurs on a lateral surface of the muffler 10 through a through hole 7 through the shell 3 and is connected to the channel 3 fluidly connected. The second exhaust pipe 6, however, occurs through a further passage opening 7 ', which is arranged in a front-end floor 8 of the muffler 10, in this one and is connected to the inner channel 3 or another channel 3' as shown in Fig. 1. In general, depending on the embodiment, the exhaust pipe 6 can also be guided through the jacket 4 of the muffler 10, and the inner channel 3 can also be part of a duct system which serves to absorb or destroy sound energy.

Parallel to the end-side floor 8, the insert 2 may have at least one further partition wall 9, which is either gas-permeable or gas-impermeable depending on the operating principle of the muffler 10. On the other end face of the muffler 10, a bottom 8 is also arranged, which, depending on the embodiment, may also have a further passage opening 7 'or an exhaust passage passing through this passage opening 7' and not shown here. The bottom end 8 arranged in each case can be pressed into the edge of the jacket 4 or welded to the edge of the jacket 4.

2 to 5, an inventive method for producing the muffler 10 shown in FIG. 1 is shown in individual process steps.

In a starting state, not shown, the jacket 4 is a flat, unperforated metal sheet. Fig. 2 shows the jacket 4 after a first method step 1.1, in which already at least one passage opening 7 is introduced into the jacket 4 at the location of the later connection to the first exhaust pipe 5. The passage opening 7 can be introduced into the shell 4, for example by means of a punching and / or drilling tool. In the region of the passage opening 7, the jacket 4 is already pre-bent according to an outer contour of the insert 2, whereby the pre-bending can be effected before, after or simultaneously with the introduction of the passage opening 7. Depending on the embodiment of the muffler 10, a plurality of through holes 7 may be provided, which are each connected in a later method step with an exhaust pipe. When inserting the at least one passage opening 7 into the casing 4, a collar edge 11 facing or facing away from the insert 2 is preferably integrally formed on the passage opening 7 in such a way that it forms a guide for the first exhaust pipe 5.

According to FIG. 3, the insert 2 is inserted into the outer contour of the insert 2, which is bent at least in the region of the passage opening 7, and the insert 2 is oriented such that an opening of the inner channel 3 with the through opening 7 in the jacket 4 Cover comes. In this case, for example, in the case of an inwardly bent collar edge 11, this can be used as adjusting aid for the insert 2 in the jacket 4. Preferably, the jacket 4 lies flat in the region of the passage opening 7 on the outer contour of the insert 2, so that the result is an undetachable position of the insert 2 by the wedge shape of the shell 4.

According to FIG. 4, in the production step 1.3, the jacket 4 is bent completely around the insert 2, so that the jacket 4 bears completely against the outer contour of the insert 2. If the jacket 4 is completely bent around the insert 2, then it becomes in the production step 1.4. closed along its jacket seam 12 (see Fig. 5). The closing of the jacket seam 12 is preferably carried out by welding, with other types of connection to be enclosed by the invention.

In the manufacturing step 1.5, the first exhaust pipe 5 is now connected to the channel 3 by arranging and fixing it on or in the through opening 7. The collar edge 11 can serve as a guide or be used as a contact surface, as mentioned above.

The front end side of the muffler 10, a bottom 8 is used in each case, which bears against a front end edge of the shell 4, wherein the onset of the bottoms 8 can be integrated into the manufacturing step 1.2 or can be carried out after the process step 1.4. In order to ensure a reliable connection between the bottom 8 and the edge of the shell 4, this is pressed into the edge of the shell 4, folded, crimped and / or welded to the same.

If a further passage opening 7 'is provided in the base 8, the floor 8 is aligned such that the inner channel 3 or a further channel 3' comes into line with the further passage opening 7 'in the floor. In this case, the same applies to the passage opening 7 'as for the passage opening 7, so that the passage opening 7', for example, an inwardly or outwardly directed collar edge 11 'may have, which can serve as a guide of the second exhaust pipe 6. In general, the arrangement or fixing of the second exhaust pipe 6 takes place with one of the channels 3 or 3 'on or in the second through-opening 7'.

The arrangement or fixing of the first exhaust pipe 5 at the passage opening 7 and the second exhaust pipe 6 at the further passage opening 7 'is preferably carried out by a welded joint, which can easily cope with the high temperatures occurring in exhaust systems. In order to further simplify or accelerate the manufacturing process, the insert 2 can be preassembled and wrapped by the jacket 4 as a prefabricated component. It is conceivable that the preassembled insert 2 already contains the laterally end-side arranged trays 8 or is pre-produced without them.

The inventive method for producing the muffler 10, the pipe guide or a compound of the first exhaust pipe 5 and the second exhaust pipe 6 with the respectively associated through hole 7 or 7 'can be simplified, whereby the manufacturing process tightens and cost advantages can be realized. In addition, by the advance introduction of the passage openings 7 and 7 'in the jacket 4 and the bottom 8 when mounting the muffler 1 requires significantly less force, so that, for example, the jacket 4 and the bottom 8 can be formed weight-reduced. At the same time, the insertion of the passage opening 7 or 7 'into the components still in the unprocessed state, for example, the not yet pre-bent and thus still flat shell 4, much easier as later on the finished muffler 10th

Claims (9)

Method for producing a muffler (10) for an exhaust system, wherein the muffler (10) in the assembled state comprises at least the following components: an insert (2) having a rounded cross-sectional profile and at least one inner channel (3, 3 '), a jacket (4) enveloping the insert (2), a first and a second exhaust pipe (5, 6),
with the following process steps: 1.1 introducing at least one through opening (7) into the casing (4) at the location of the later connection to the first exhaust pipe (5), 1.2 insertion of the insert (2) in the at least in the region of the passage opening (7) according to the outer contour of the insert (2) pre-bent jacket (4) and aligning the insert (2), so that the inner channel (3) with the passage opening ( 7) in the jacket (4) coincides, 1.3 finish bending the jacket (4) around the insert (2), 1.4 closing the jacket (4) along its jacket seam (12), 1.5 connecting the first exhaust pipe (5) with the channel (3) by arranging and fixing the same at or in the through hole (7). Method according to claim 1,
characterized,
that the jacket seam (12) is welded. Method according to claim 1 or 2,
characterized,
in that a collar edge (11) facing or facing away from the insert (2) is formed on the passage opening (7) during the introduction of the at least one passage opening (7) into the jacket (4) such that it forms a guide for the first exhaust line (5). forms. Method according to one of claims 1 to 3,
characterized,
that at the end of the muffler (10) in each case a bottom (8) is used, which rests against a front end edge of the jacket (4). Method according to claim 4,
characterized,
that the insertion of the bottoms (8) is integrated into the process step 1.2 or takes place after the process step 1.4. Method according to claim 4 or 5,
characterized,
that the bottom (8) is pressed into the edge of the jacket (4) and / or welded to the edge of the jacket (4). Method according to one of claims 4 to 6,
characterized, - That the bottoms (8) are aligned so that an opening of the inner channel (3) or a further channel (3 ') with a second passage opening (7') in the bottom (8) coincides, - That the connection of the second exhaust pipe (6) with one of the channels (3, 3 ') by arranging and fixing them on or in the second passage opening (7') takes place. Method according to one of claims 1 to 7,
characterized,
that the insert (2) is pre-assembled. Silencer for an exhaust system, produced by a method according to at least one of claims 1 to 8.

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