DE102006056351A1 - Exhaust gas device, tool for cross-section reduction and method for producing an exhaust gas-carrying device - Google Patents

Abstract

An exhaust gas-carrying device (10), in particular an exhaust gas purification device, has at least one insert (14, 16) arranged in an elongate housing (12), wherein the housing (12) has at least one section (26) of reduced cross-section, which has at least one defined indentation (30). Furthermore, a tool for reducing the cross-section of a jacket (28), which forms the housing (12) of an exhaust gas-conducting device, and a method for producing an exhaust gas-conducting device (10), the at least one in a housing (12) arranged insert (14, 16 ) had described.

Description

The Invention relates to an exhaust gas-carrying device, in particular exhaust gas purification device, with at least one in a longish one casing arranged insert, wherein the housing at least a portion with reduced cross section. Furthermore, the invention relates a tool for cross-section reduction of a shell, the housing of a exhaust-carrying Device forms, as well as a method for producing an exhaust gas Device having at least one insert arranged in a housing.

Out the prior art, it is known several for exhaust gas purification serving depositors in the form of ceramic substrates used as mechanical filters act or are coated with a catalytic material, to catalytically clean the exhaust gas, axially in a row common housing accommodate. In this way, on the one hand results in a space-saving Arrangement of depositors, on the other hand, heat losses between the individual Shoppers avoided. In cases, in which the depositors have a certain distance from each other are intended for axial positional fixation of the depositors between them a housing section provided with reduced cross section, at which the depositors support laterally. This section with reduced cross-section is so far a separate intermediate ring formed on each side with a adjacent, surrounding the respective depositor housing part e.g. welded is and even a smaller cross-section than the housing parts having.

The Invention provides an exhaust gas-carrying device, in particular with two inserts, or a method or tool for their preparation, which are compared with the prior art ge by their simplicity and cost-effectiveness.

According to one The first aspect of the invention is for an exhaust gas-carrying Device of the type mentioned provided that the section having a reduced cross section at least one defined indentation. Through this defined, intentional indentation, the formation of undesirable Prevents wrinkles, or at least significantly reduces what makes it possible the housing section formed with reduced cross section, characterized in that a housing portion with first larger cross-section is reduced in its cross section. With such a cross-section reduction usually would due to the material surplus Wrinkles form, which can affect the durability of the housing. According to the invention Formation of such wrinkles by the defined indentation, the the excess material absorbs, prevents. Thus, an exhaust gas-carrying device is created, at the one housing section With reduced cross-section particularly simple and inexpensive to produce is. In addition to the devices mentioned above with several in a common housing arranged inserts comprises the invention of course also devices with only one insert whose housing a Has reduced section section.

Especially becomes the section of reduced cross section by deformation one the case generates forming jacket, so it is formed integrally with the jacket. This allows the known from the prior art separate intermediate ring with reduced cross-section and a required welded joint be waived.

According to one preferred embodiment of Invention will the defined indentation immediately upon deformation of the shell generates, which is why the device according to the invention characterized by a particularly time-saving production process.

In particularly simple way can be the indentation by an extension of a used for deformation of the shell Create tool that has a complementary shape for depression.

Around to fix the insert in the axial direction, the section should arranged with reduced cross section in the axial direction next to this be.

to axial support The delicate insert can be reduced between the section Cross-section and the insert an elastic element, in particular a metal fiber ring, be arranged.

As already mentioned, are preferably two arranged one behind the other in the axial direction Inserts provided between which the reduced section Cross section is provided. The section is used with reduced Cross section e.g. to place a sensor between the inlays, contour differences (about in size or Cross-sectional shape) between the depositors to compensate or one Offset the axis offset or angle between the insert axes. The embodiment of the invention let yourself but also on an exhaust gas Apply device with a single insert.

In the case of two in the axial direction successively arranged inserts, the housing preferably has two interconnected housing parts, which are arranged one behind the other in the axial direction and each record a depositor. Alternatively, it would also be possible to arrange both inserts one behind the other in an integrally formed housing.

Of the Section with reduced cross-section is in an advantageous manner one piece with one of the housing parts formed, whereby an exhaust gas-carrying device with as possible results in few components. The other housing part is then connected to the section connected with reduced cross-section, welded, for example.

The depression can be an elongated one Beading, which is generated at a defined position and preferred in the axial direction of the housing runs.

alternative or additionally can circular or oval impressions be provided, in particular for the arrangement of a sensor suitable. For example, in the section of reduced cross section several impressions generated, creating a standardized component is created. Depending on individual requirements, such as a vehicle type, a can or more impressions used for receiving sensors and broken for this purpose become.

One Another aspect of the invention provides a tool for cross-sectional reduction a coat in front of the housing an exhaust-carrying Device forms. The tool has several movable jaws on whose inner sides in the closed state an inner contour have, which corresponds to the achievable outer contour of the shell, wherein at least one pressure jaw on its inside an extension has to generate a defined indentation in the jacket. As already mentioned, the extension is formed in particular complementary to the desired indentation. With such a tool can be reduce in one step the cross-section of the shell and at the same time the depression in the coat.

According to one further aspect of the invention is a method of manufacture an exhaust-carrying Device provided with at least one arranged in a housing insert, wherein the method comprises the following steps: first a the housing forming coat, and the insert is placed in the jacket, wherein the jacket projects beyond the insert at an axial end. In the manufacture of the jacket and positioning of the insert in the Coat can different methods are used, such as the so-called Calibrate, stuff in a pre-fabricated tube, or wrap. In a next Process step becomes the supernatant Deformed end of the shell, whereby its cross-section is reduced, and in the region of the jacket with a reduced cross-section becomes a defined indentation generated. As already mentioned, takes the defined indentation the excess of material created during the deformation at least partially, causing an undesirable Wrinkling is prevented or at least greatly reduced.

Preferably becomes the indentation simultaneously generated during deformation of the shell, which compared to a successive time savings are achieved.

Then you can the axial end of the shell with a reduced cross-section with a further, surrounding a second insert jacket are connected. This happens e.g. by welding or soldering.

Further Features and advantages of the invention will become apparent from the following Description of a preferred embodiment with reference to the accompanying drawings. In these show:

1 a longitudinal section through an exhaust gas-conducting device according to the invention;

2 a plan view of an inventive tool for cross-sectional reduction of the shell of the exhaust gas-conducting device 1 ;

3 a view of a jacket of an exhaust gas-carrying device having undesirable folds; and

4 a view of the shell of the exhaust gas-conducting device according to the invention.

1 shows an exhaust gas device 10 , which is preferably used in the exhaust system of an internal combustion engine for cleaning the exhaust gases. The device 10 has an elongated housing 12 in, in the axial direction A behind the other two inserts 14 . 16 are arranged. More precisely, the housing is made 12 from two interconnected housing parts 12a and 12b , which are arranged one behind the other in the axial direction A, wherein the housing part 12a the depositor 14 and the housing part 12b the depositor 16 surrounds. The depositor 14 serves as an oxidation catalyst and comprises a catalytically coated substrate 18 over a surrounding storage mat 20 in the case 12 or in the housing part 12a clamped in the radial direction. The depositor 16 which serves as a particulate filter comprises a ceramic substrate 22 also from a storage mat 24 surrounded and over this in the housing 12 (more precisely in the housing part 12b ) is clamped.

Between the depositors 14 and 16 has the case 12 a section 26 with the opposite adjacent housing portions of reduced cross section, integral with the housing part 12b formed and by deforming the housing 12 , in particular the housing part 12b forming coat 28 is produced. The section 26 with reduced cross-section, seen in the axial direction A next to each of the depositors 14 . 16 is arranged, has several defined indentations 30 on, by when deforming the coat 28 the development of unwanted wrinkles (in 1 With 32 indicated) is prevented (cf. 3 and 4 ). For axial support of the depositors 14 . 16 is between the front wall and the section 26 with reduced cross section per one elastic element 33 , here a metal fiber ring provided.

In the following, the method for producing the exhaust gas-carrying device 10 explained. First, the coat 28 , the later the housing part 12b forms, as an open or closed tube made (not shown). The depositor 16 is so in the coat 28 arranged that the coat 28 at an axial end opposite the insert 16 survives. To the depositor 16 in the coat 28 for example, the latter gets stuck around the depositor 16 wrapped and welded in the area of its overlapping ends. Alternatively, the insert may be stuffed into a suitable closed tube or positioned in an excessively sized tube which is subsequently reduced in diameter in a calibration procedure by applying uniform pressure around its circumference.

The next step is the protruding end of the coat 28 deformed, whereby its cross-section is reduced. This is in 2 shown. This is the coat 28 (more precisely: the protruding end) into a tool 34 inserted, the several radially movable pressure jaws 36 aufeist. The insides 38 the jaws 36 form an inner contour in the closed state, which is the outer contour of the shell to be achieved 28 or section 26 corresponds with reduced cross-section. How out 2 it can be seen have several of the jaws 36 on their inside 38 an extension 40 (there can be several). The jaws 36 will now move radially inward, making them the coat 28 deform and at the same time the extensions 40 in the coat 28 Push. This will be the cross section of the jacket 28 in the one of the jaws 36 reduced area, and in the same step, the defined indentations 30 which produces one to the extensions 40 each have a complementary shape (cf. 2 , shown in dashed lines).

Subsequently, the axial end of the shell 28 (or the housing part 12b ), which is now the section 26 with reduced cross section, with a second insert 14 surrounding coat 42 (the housing part 12a forms), eg welded.

Depending on the configuration of the extensions 40 can be different or differently shaped indentations 30 reach, which absorb the excess material, otherwise in the deformation of the unwanted wrinkles 32 would produce (cf. 3 ). 4 shows the exhaust gas-carrying device according to the invention 10 or their housing part 12b , the impressions 30 has in the form of an elongated bead and two approximately circular or oval indentations. The circular / oval impressions can be used for the arrangement of a sensor (not shown), wherein the indentation 30 , which corresponds to a desired sensor position, is provided with a recess in which the sensor is arranged.

10

contraption

12

casing

12a

housing part

12b

housing part

14

depositors

16

depositors

18

substratum

20

bearing mat

22

substratum

24

bearing mat

26

section with reduced cross-section

28

coat

30

depression

32

wrinkles

33

elastic element

34

Tool

36

gib

38

inside

40

extension

42

coat

A

axially

Claims (16)

Exhaust gas device, in particular an exhaust gas purification device, with at least one in an elongate housing ( 12 ) arranged inserts ( 14 . 16 ), the housing ( 12 ) at least one section ( 26 ) of reduced cross-section, characterized in that the section ( 26 ) with reduced cross section at least one defined indentation ( 30 ) having. Exhaust feeding device according to claim 1, characterized in that the section ( 26 ) with reduced cross-section by deforming the housing ( 12 ) forming jacket ( 28 ) is produced. Exhaust-feeding device according to claim 2, characterized in that the defined indentation ( 30 ) when deforming the shell ( 28 ) is produced. Exhaust feeding device according to claim 2 or 3, characterized in that the indentation ( 30 ) by an extension ( 40 ) one for deformation of the shell ( 28 ) used tool ( 34 ), one for indentation ( 30 ) has complementary shape. Exhaust feeding device according to one of the preceding claims, characterized in that the section ( 26 ) with reduced cross-section in the axial direction (A) next to the insert ( 14 . 16 ) is arranged. Exhaust feeding device according to claim 5, characterized in that between the section ( 26 ) with reduced cross section and the insert ( 14 . 16 ) an elastic element ( 33 ), in particular a metal fiber ring, is arranged. Exhaust feeding device according to one of the preceding claims, characterized in that two in the axial direction (A) successively arranged insert ( 14 . 16 ), between which the section ( 26 ) is provided with a reduced cross-section. Exhaust feeding device according to claim 7, characterized in that the housing ( 12 ) two interconnected housing parts ( 12a . 12b ), which are arranged one behind the other in the axial direction (A) and one insert each ( 14 . 16 ) take up. Exhaust feeding device according to claim 8, characterized in that the section ( 26 ) having a reduced cross section integral with one of the housing parts ( 12b ) is trained. Exhaust feeding device according to one of the preceding claims, characterized in that the indentation ( 30 ) is an elongated bead. Exhaust feeding device according to one of the preceding claims, characterized in that the indentation ( 30 ) Is formed approximately circular. Exhaust feeding device according to claim 11, characterized in that in the region of the indentation ( 30 ) A sensor is arranged. Tool for reducing the cross-section of a jacket ( 28 ), the housing ( 12 ) of an exhaust gas-conducting device ( 10 ), in particular according to one of the preceding claims, forms, with a plurality of movable pressure jaws ( 36 ), whose insides ( 38 ) in the closed state have an inner contour which corresponds to the outer contour of the jacket ( 28 ), wherein at least one pressure jaw ( 36 ) on its inside ( 38 ) an extension ( 40 ) for generating a defined indentation ( 30 ) in the coat ( 28 ) having. Method for producing an exhaust-gas-conducting device ( 10 ), in particular according to one of the preceding claims, the at least one in a housing ( 12 ) arranged inserts ( 14 . 16 ), characterized by the following steps: a housing ( 12 ) forming coat ( 28 ) is manufactured, the depositor ( 16 ) is in the coat ( 28 ), wherein the jacket ( 28 ) at one axial end opposite the insert ( 16 ), the projecting end of the mantle ( 28 ) is deformed, whereby its cross-section is reduced, and in the region of the shell ( 28 ) with a reduced cross section, a defined indentation ( 30 ) generated. Method according to claim 14, characterized in that the indentation ( 30 ) when deforming the shell ( 28 ) is produced. Method according to claim 14 or 15, characterized in that the axial end of the jacket ( 28 ) with reduced cross-section with a further, a second insert ( 14 ) surrounding coat ( 42 ) is connected.