EP4039952A1 - Exhaust gas treatment module for an exhaust gas system of a combustion engine - Google Patents

Abstract

An exhaust gas treatment assembly for an exhaust system of an internal combustion engine comprises a housing (12) elongated in the direction of a housing longitudinal axis (L), a first exhaust gas treatment unit (24) inserted or insertable into the housing (12) with a first jacket (28) and at least one in the first A first exhaust treatment element (32) carried by a jacket (28), a second exhaust treatment unit (26) inserted or insertable into the housing (12) and having a second jacket (34) and at least one second exhaust treatment element (38) carried in the second jacket (34), a locking arrangement (52) for locking the first exhaust gas treatment unit (24) in the housing (12) at least against movement in the direction of the housing longitudinal axis (L) in a locking state, with the first exhaust gas treatment unit (24) and the second exhaust gas treatment unit being inserted into the housing (12). (26) blocking the locking arrangement (52) by the second exhaust gas treatment unit (26) in the locking state er is

Description

The present invention relates to an exhaust gas treatment assembly having a housing and a plurality of exhaust gas treatment units arranged in the housing.

In order to clean exhaust gas emitted by an internal combustion engine, it is known to use various exhaust gas treatment units, such as catalytic converter units or particle filter units. These are arranged in a housing through which exhaust gas can flow, it being possible for a plurality of exhaust gas treatment units to be arranged one after the other in the direction of flow in such a housing for efficient exhaust gas cleaning.

It is the object of the present invention to provide an exhaust gas treatment assembly for an exhaust system of an internal combustion engine which, with a simple structure, enables the integration of a plurality of exhaust gas treatment units in a housing and the removal of the exhaust gas treatment units from the housing.

• ein in Richtung einer Gehäuselängsachse langgestrecktes Gehäuse,
• eine in das Gehäuse eingesetzte oder einsetzbare erste Abgasbehandlungseinheit mit einem ersten Mantel und wenigstens einem in dem ersten Mantel getragenen ersten Abgasbehandlungselement,
• eine in das Gehäuse eingesetzte oder einsetzbare zweite Abgasbehandlungseinheit mit einem zweiten Mantel und wenigstens einem in dem zweiten Mantel getragenen zweiten Abgasbehandlungselement,
• eine Arretieranordnung zum Arretieren der ersten Abgasbehandlungseinheit in dem Gehäuse wenigstens gegen Bewegung in Richtung der Gehäuselängsachse in einem Arretierzustand,

wobei bei in das Gehäuse eingesetzter erster Abgasbehandlungseinheit und zweiter Abgasbehandlungseinheit die Arretieranordnung durch die zweite Abgasbehandlungseinheit im Arretierzustand blockiert ist.According to the invention, this object is achieved by an exhaust gas treatment assembly for an exhaust system of an internal combustion engine according to claim 1. This exhaust gas treatment assembly comprises:

• a housing elongated in the direction of a housing longitudinal axis,
• a first exhaust treatment unit inserted or insertable into the housing having a first shell and at least one first exhaust treatment element carried in the first shell,
• a second exhaust treatment unit inserted or insertable into the housing, having a second shell and at least one second exhaust treatment element carried in the second shell,
• a locking arrangement for locking the first exhaust gas treatment unit in the housing at least against movement in the direction of the housing longitudinal axis in a locking state,

wherein when the first exhaust gas treatment unit and the second exhaust gas treatment unit are inserted into the housing, the locking arrangement is blocked by the second exhaust gas treatment unit in the locking state.

In the exhaust treatment assembly constructed according to the present invention, the first exhaust treatment unit is locked to the case by the locked locking structure when the second exhaust treatment unit is also inserted into the case. The second exhaust gas treatment unit thus secures the first exhaust gas treatment unit on the housing, so that an undefined movement of the first exhaust gas treatment unit relative to the housing cannot occur when both exhaust gas treatment units are inserted into the housing. Removing the second exhaust gas treatment unit from the housing unblocks the locking arrangement and the first exhaust gas treatment unit can also be removed from the housing, for example to clean it or replace it with another first exhaust gas treatment unit.

• wenigstens ein an dem ersten Mantel nach radial außen vorstehend vorgesehenes Arretiereingriffsorgan,
• wenigstens eine an dem Gehäuse vorgesehene, und nach radial innen offene Arretiereingriffsaussparung,

wobei bei in das Gehäuse eingesetzter erster Abgasbehandlungseinheit im Arretierzustand das wenigstens eine Arretiereingriffsorgan nach radial außen in eine Arretiereingriffsaussparung eingreifend positioniert ist und bei in das Gehäuse eingesetzter zweiter Abgasbehandlungseinheit durch die zweite Abgasbehandlungseinheit gegen Bewegung nach radial innen zum Aufheben des Arretierzustandes blockiert ist.For a reliable and form-fitting locking arrangement, this can include:

• at least one locking engagement member projecting radially outwards on the first casing,
• at least one locking engagement recess provided on the housing and open radially inwards,

wherein when the first exhaust gas treatment unit is inserted into the housing in the locked state, the at least one locking engagement element is positioned so as to engage radially outwards in a locking engagement recess, and when the second exhaust gas treatment unit is inserted into the housing, it is blocked by the second exhaust gas treatment unit against movement radially inwards to cancel the locked state.

• wenigstens ein an dem ersten Mantel vorgesehenes Arretiereingriffsorgan mit einer nach radial außen offenen Arretiereingriffsaussparung,
• wenigstens einen an dem Gehäuse vorgesehenen und nach radial innen vorstehenden Arretiereingriffsvorsprung,

wobei bei in das Gehäuse eingesetzter erster Abgasbehandlungseinheit im Arretierzustand das wenigstens eine Arretiereingriffsorgan mit seiner Arretiereingriffsaussparung einen Arretiereingriffsvorsprung am Gehäuse umgreifend positioniert ist und bei in das Gehäuse eingesetzter zweiter Abgasbehandlungseinheit durch die zweite Abgasbehandlungseinheit gegen Bewegung nach radial innen zum Aufheben des Arretierzustandes blockiert ist.In an alternative embodiment it can be provided that the locking arrangement comprises:

• at least one locking engagement member provided on the first jacket with a locking engagement recess open radially outward,
• at least one locking engagement projection provided on the housing and protruding radially inwards,

wherein when the first exhaust gas treatment unit is inserted into the housing in the locked state, the at least one locking engagement element is positioned with its locking engagement recess to encompass a locking engagement projection on the housing, and when the second exhaust gas treatment unit is inserted into the housing, the second exhaust gas treatment unit blocks it from moving radially inward to cancel the locked state.

The movement of the first exhaust gas treatment unit in the axial direction when the locking state is established can be prevented, for example, by the at least one locking engagement recess being provided by an axially limited radially outward bulge of the housing. Such a bulge can be provided, for example, in that the wall thickness of a wall of the housing decreases locally in the area of a locking engagement recess, or a wall of the housing is shaped radially outward.

If the housing is provided with a locking engagement recess that is essentially completely circumferential in the circumferential direction, the process of inserting the first exhaust gas treatment unit into the housing can be implemented particularly easily, since a defined rotational positioning of the first exhaust gas treatment unit with respect to the housing does not have to be ensured.

In an alternative embodiment, in which the first exhaust gas treatment unit on the housing can also be reliably secured against rotation about the longitudinal housing axis, a plurality of locking engagement recesses which are arranged at a circumferential distance from one another and are limited in the circumferential direction can be provided on the housing.

In order to ensure a uniform effect of the locking arrangement distributed over the circumference, it is proposed that a plurality of locking engagement members arranged at a circumferential distance from one another are provided.

For an easy-to-implement, reliable structure, each locking engagement element can have a fixed section provided on the first shell, a blocking section blocked by the second shell against movement radially inwards and/or radially outwards when the second exhaust gas treatment unit is inserted into the housing in the locked state, and a locking portion engaging in a locking engagement recess on the housing when locked.

In the alternative configuration described above with locking engagement recesses on the locking engagement organs and one or more locking engagement projections on the housing, each locking engagement organ can block a fixing section provided fixedly on the first casing, a fixing section blocked by the second casing against movement radially inward when the second exhaust gas treatment unit is inserted into the housing and/or blocking section which is acted upon radially outwards and a locking section with a locking engagement recess which, in the locked state, engages around a locking engagement projection on the housing.

The locking effect of the locking arrangement can be improved while at the same time avoiding rattling noises in that, in the locking state, the locking section is held in contact with the housing, e.g.

A reliable interaction of the second exhaust gas treatment unit with the locking arrangement for blocking the same in the locked state can be ensured that the housing has an insertion opening for receiving the first exhaust gas treatment unit and the second exhaust gas treatment unit in the housing by moving in an insertion direction, the first exhaust gas treatment unit having a movement the first exhaust treatment unit in the insertion direction for insertion into the housing and a second end portion trailing when the first exhaust gas treatment unit moves in the insertion direction for insertion into the housing, and that the at least one locking engagement member is provided on the first shell in the region of the second end portion of the first exhaust gas treatment unit is.

A defined mounting of the first exhaust gas treatment unit in the housing over its entire length can be achieved if, when the first exhaust gas treatment unit is inserted into the housing, the first jacket is radially supported and/or sealed in the area of the first end section of the first exhaust gas treatment unit by a supporting/sealing arrangement with respect to the housing is.

For blocking interaction with the locking arrangement, the second exhaust gas treatment unit can have a first end section preceding when the second exhaust gas treatment unit moves in the insertion direction for insertion into the housing and a second end section trailing when the second exhaust gas treatment unit moves in the insertion direction for insertion into the housing, and in the locked state can the at least one locking engagement member can be blocked by the second casing in the area of the first end section of the second exhaust gas treatment unit in the locking state.

In a structure in which the locking engagement elements can be optimally adapted to the locking function to be performed by them, at least one locking engagement element, preferably each locking engagement element, can be fixed to the first casing as a separate component, and/or at least one locking engagement element, preferably each locking engagement element , be constructed from sheet metal material. Alternatively, a plurality of locking engagement members may be provided on a preferably ring-like locking engagement member carrier fixed to the first shell. In a further alternative embodiment, at least one locking engagement member could be an integral part of the first casing and arranged to extend radially outwards from the latter.

For easy insertion of the first exhaust gas treatment unit into the housing and removal of the same from the housing, it is proposed that when the first exhaust gas treatment unit is inserted into the housing and the second exhaust gas treatment unit is not inserted into the housing, the locking arrangement is not in the locked state and by inserting the second exhaust gas treatment unit into the housing can be brought into the locked state. Alternatively, the locking arrangement can be in the locking state in order to secure the first exhaust gas treatment unit in the housing when the second exhaust gas treatment unit has not yet been inserted into the housing and the first exhaust gas treatment unit has been inserted into the housing and the second exhaust gas treatment unit has not been inserted into the housing.

For stable cohesion of the exhaust gas treatment assembly, it is proposed that when the second exhaust gas treatment unit is inserted into the housing, the second exhaust gas treatment unit is fixed or can be fixed in relation to the housing by at least one fastening element, preferably screw bolts.

In the exhaust gas treatment assembly according to the invention, at least one exhaust gas treatment unit can include a catalyst unit, such as an oxidation catalyst unit or diesel oxidation catalyst unit, and/or at least one exhaust gas treatment unit can include a particle filter unit, such as a diesel particle filter unit. Furthermore, at least one exhaust gas treatment unit can comprise a preferably electrically operated heating unit.

1. a) Bereitstellen des Gehäuses, der ersten Abgasbehandlungseinheit und der zweiten Abgasbehandlungseinheit als voneinander getrennte Baugruppen,
2. b) Einführen der ersten Abgasbehandlungseinheit in das Gehäuse derart, dass die Arretieranordnung in den Arretierzustand gelangt oder bringbar ist,
3. c) Einführen der zweiten Abgasbehandlungseinheit in das Gehäuse derart, dass die Arretieranordnung durch die zweite Abgasbehandlungseinheit im Arretierzustand blockiert ist.

The invention also relates to a method for constructing an exhaust gas treatment assembly according to the invention, comprising the measures:

1. a) providing the housing, the first exhaust gas treatment unit and the second exhaust gas treatment unit as separate assemblies,
2. b) inserting the first exhaust gas treatment unit into the housing in such a way that the locking arrangement reaches or can be brought into the locking state,
3. c) inserting the second exhaust gas treatment unit into the housing in such a way that the locking arrangement is blocked by the second exhaust gas treatment unit in the locked state.

For stable cohesion of the exhaust gas treatment assembly, the method can include a measure d) for fixing the second exhaust gas treatment unit with respect to the housing in a state that blocks the locking arrangement in the locked state after measure c) has been carried out.

In order to gain access to a first exhaust gas treatment unit, for example to carry out maintenance work or to replace it, the method can also include a measure e) for replacing the first exhaust gas treatment unit accommodated in the housing. This measure e) includes the removal of the second exhaust gas treatment unit from the housing and the removal of the state that blocks the locking arrangement in the locking state and the removal of the first exhaust gas treatment unit from the housing.

The invention also relates to an exhaust system for an internal combustion engine, in particular in a vehicle, comprising at least one exhaust gas treatment assembly constructed according to the invention.

In such an exhaust system, the housing can be fixed to a wall of an exhaust-gas-carrying component, preferably by welding, and when the second exhaust-gas treatment unit is inserted into the housing, the second exhaust-gas treatment unit can be fixed to the wall.

Fig. 1

eine prinzipartige Längsschnittdarstellung einer Abgasbehandlungsbaugruppe für eine Abgasanlage einer Brennkraftmaschine mit zwei in ein Gehäuse eingesetzten Abgasbehandlungseinheiten;

Fig. 2

die Abgasbehandlungsbaugruppe der Fig. 1 mit nur einer ersten Abgasbehandlungseinheit in dem Gehäuse;

Fig. 3

eine der Fig. 2 entsprechende Darstellung mit einer alternativen Ausgestaltung der in das Gehäuse eingesetzten ersten Abgasbehandlungseinheit;

Fig. 4

eine Detailansicht einer Abgasbehandlungsbaugruppe mit alternativer Ausgestaltung einer Arretieranordnung;

Fig. 5

eine weitere Detailansicht einer Abgasbehandlungsbaugruppe mit alternativer Ausgestaltung einer Arretieranordnung;

Fig. 6

eine Mehrzahl von an einem ringartigen trägergetragenen eine Arretierorganen einer Arretieranordnung.

The invention is described below with reference to the attached figures. It shows:

1

a schematic longitudinal sectional view of an exhaust gas treatment assembly for an exhaust system of an internal combustion engine with two used in a housing exhaust gas treatment units;

2

the exhaust treatment assembly 1 with only a first exhaust treatment unit in the housing;

3

one of the 2 corresponding representation with an alternative embodiment of the first exhaust gas treatment unit inserted into the housing;

4

a detailed view of an exhaust gas treatment assembly with an alternative embodiment of a locking arrangement;

figure 5

a further detailed view of an exhaust gas treatment assembly with an alternative configuration of a locking arrangement;

6

a plurality of locking members of a locking arrangement carried on a ring-like carrier.

In 1 An exhaust gas treatment assembly for an exhaust system of an internal combustion engine, for example in a vehicle, is generally designated 10 . The exhaust gas treatment assembly comprises a tubular housing 12 that is elongated in the direction of a housing longitudinal axis L and constructed, for example, with sheet metal material 1 In the end region of housing 12 shown on the left, a connecting flange region 16 protrudes radially outwards from a housing wall 14 that is essentially cylindrical in long regions, with which flange region 16 the housing 12 is connected, for example by welding, to a base or a wall 18 of an exhaust gas-carrying housing or an exhaust gas-carrying component of a Exhaust system 19 can be fixed.

In this in 1 The end region of the housing 12 shown on the left and connected to the wall 18 has an insertion opening 20 which is aligned with an opening 22 in the wall 18, so that through the opening 22 and the insertion opening 20 in the manner described below a first Exhaust treatment unit 24 and a second exhaust treatment unit 26 can be inserted into the housing 12 .

The first exhaust gas treatment unit 24 comprises, for example, a tubular, essentially cylindrical first casing 28 in which a first exhaust gas treatment element 32 is held, for example by means of a fiber mat 30 or the like. The first exhaust gas treatment element 32 can comprise a body, for example monolithic, porous or through which the exhaust gas can flow, which can be constructed and/or coated with catalytically active material.

Likewise, the second exhaust gas treatment unit 26 comprises an essentially tubular or cylindrical second shell 34, which, like the first shell 28, can be constructed with sheet metal material and in which, for example, a second exhaust gas treatment unit 38 can be carried with the interposition of a fiber mat 36. The second exhaust gas treatment unit 38 can also comprise a porous body or one through which exhaust gas can flow, for example a monolithic body, which can be constructed and/or coated with catalytically active material.

The first exhaust gas treatment unit 24 has a 1 first end section 40 shown on the right, which precedes the insertion of the first exhaust gas treatment unit 24 into the housing 12 through the insertion opening 20 in an insertion direction E and when the first exhaust gas treatment unit 24 is completely inserted into the housing 12 by means of a support/sealing arrangement 42 with respect to the housing 12, for example is supported and sealed in an end portion thereof reduced in radial dimension. The support/seal arrangement 42 includes an O-ring-like sealing element 44 which provides a gas-tight seal between the first shell 28 and the housing 12 produces, as well as a radial support element 46, which provides a defined radial support of the first jacket 28 with respect to the housing 12 and thus ensures that the sealing element 44 is protected from excessive radial loading. Furthermore, the support/sealing arrangement 42 comprises an axial support element 48, for example ring-like, fixed to the outer circumference of the first casing 28, for example by welding, on which the radial support element 46 and the sealing element 44 are supported axially opposite to the direction of insertion E and thus when the first exhaust gas treatment unit 24 is inserted are held in the insertion direction E in a defined position on the first jacket 28.

In the area of a trailing second end section 50 of the first exhaust gas treatment unit 24 when the first exhaust gas treatment unit 24 is inserted in the insertion direction E into the housing 12, the latter is secured by means of a locking arrangement generally designated 52 in the 1 shown assembly state, in which both exhaust gas treatment units 24, 26 are inserted into the housing 12, held in the housing 12 in a defined axial positioning. The locking arrangement 52 comprises a plurality of locking engagement elements 54, which are preferably arranged at a uniform circumferential distance from one another about the longitudinal axis L of the housing, and a locking engagement recess 56 that runs completely around the longitudinal axis L of the housing in the exemplary embodiment shown the forming of the wall 14 of the housing 12 constructed with sheet metal material can be provided. Alternatively, the locking engagement recess 56 can be provided in that the wall thickness of the wall 14 of the housing 12 is reduced in the area of this locking engagement recess 56 .

Each of the locking engagement elements 54 , which are made of sheet metal, for example, and are therefore basically elastically deformable or flexible, is fixed with a fixing section 58 on the first jacket 28 in the region of the second end section 50 of the first exhaust gas treatment unit 24 . This can for example by material connection such. B. soldering or welding, or by a Fastener such. B. a fastening rivet or several fastening rivets or the like. Alternatively, at least one or each of the locking engagement members 54 could form an integral part of the first casing 28 and, starting from a region of the integral connection to the first casing 28 that provides the fixing section 58, extend radially outwards.

Also in the in 1 illustrated embodiment, in which the locking engagement elements 54 are configured as components that are separate from the first jacket 28 and are fixed to it, these extend, starting from their fixing section 58, with a locking section 60 radially outwards, wherein in the in 1 shown locking state of the locking portion 60 is positioned engagingly in the locking engagement recesses 56 of the housing 12 and thus an axial movement of the first delivery action unit 24 in the housing 12 by acting in the direction of the housing longitudinal axis L form fit prevented. A radially outer apex area of blocking section 60 preferably lies in an apex area of locking engagement recess 56 and is in firm contact with housing 12, so that even minor movements of first exhaust gas treatment unit 24 in the direction of longitudinal housing axis L are prevented and a movement caused by vibrations in locking engagement organs 54 Hitting or rattling the same against the housing 12 does not occur.

The locking engagement members 54 further include a blocking portion 62 interacting with the second shell 34 of the second exhaust gas treatment unit 26. In the FIG 1 In the state shown, in which the locking arrangement 52 is blocked in the locking state and the locking state can therefore not be released, the blocking sections 62 of the locking engagement elements 54 on the second casing 34 lie in the region of a first end section 64 of the second exhaust gas treatment unit 26 and are thus blocked by the second shell 34 against movement radially inwards or acted upon radially outwards, so that the previously described state is achieved and maintained in which the locking engagement members 54 are held with the apexes of the locking portions 60 thereof in abutment with the apex of the locking engagement recess 56.

In order to also hold the second exhaust gas treatment unit 26 in a defined position when the exhaust gas treatment unit 10 is assembled, in particular a position in which it blocks the locking arrangement 52 from canceling the locking state, the second jacket 34 is provided with a support on the second casing 34 in a position when the second exhaust gas treatment unit 26 is inserted in the insertion direction E Trailing second end portion 66 of the second exhaust gas treatment unit 26 is a flange-like, radially outwardly projecting attachment portion 68, with which the second exhaust gas treatment unit 26, for example, through the use of fasteners 70 shown in principle, such. B. bolts, with respect to the housing 12 can be fixed. In this case, such fastening elements 70 can be introduced, for example, into associated openings in the wall 18 .

In order to achieve a gas-tight closure of the second exhaust gas treatment unit 26 with respect to the housing 12, a support/sealing arrangement 72 is also provided in association therewith. This also comprises a sealing element 74, for example O-ring-like, a radial support element 76 and a ring-like axial support element 78, for example fixed on the outer circumference of the second jacket 34, for example by welding or soldering, which seals the sealing element 74 and the radial support element 76 counter to the direction of insertion E when the second Exhaust gas treatment unit 26 holds in the housing 12 in a defined positioning with respect to the second shell 34 .

When the exhaust gas treatment unit 10 is assembled, first the first exhaust gas treatment unit 26 is inserted in the insertion direction E through the insertion opening 20 into the housing 12 . The state in which the first exhaust treatment unit 24 is inserted into the case 12 but the second exhaust treatment unit 26 is not yet inserted into the case 12 is in 2 shown. At the in 2 illustrated embodiment of the first Exhaust gas treatment unit 24 is the locking arrangement 52 or the locking engagement elements 54 are designed in such a way that their locking sections 60 do not engage in the locking engagement recess 56 . As a result, when the first exhaust gas treatment unit 24 is inserted, the locking engagement elements 54 do not rub with their blocking sections 60 along the inner surface of the wall 14 of the housing 12 .

When the second exhaust gas treatment unit 26 is subsequently inserted, the second jacket 34 in the first end section 64 comes into contact with the blocking sections 62 of the locking engagement elements 54 Insertion end sections 80 extending radially outwards can be formed in the insertion direction E.

In the course of the insertion movement of the second exhaust gas treatment unit 26, it acts on the insertion end sections 80 and thus presses the locking engagement elements 54 with their locking sections 60 radially outwards, so that they engage in the locking engagement recess 56 and are held in contact with the housing 12 in the region of the locking engagement recess 56 are. Subsequently, the second exhaust gas treatment unit 26 can be fixed by the fastening elements 70 on the wall 18 and thus with respect to the housing 12 also carried thereon. Since in this state the locking engagement elements 54 are blocked in the region of their blocking sections 62 against movement radially inward or are urged to engage in the locking engagement recess 56 in the radially outward direction, the locking arrangement 52 is blocked in its locked state and thus the first exhaust gas treatment unit 24 in defined axial positioning on the housing 12 held. In particular, a defined radial support of the first exhaust gas treatment unit 24 with respect to the housing 12 is thereby also achieved in the second end section 50 of the first exhaust gas treatment unit 24 . In this state, the locking engagement elements 54 can at least support the defined radial mounting of the second exhaust gas treatment unit 26 in its first end section 64 .

Since the locking engagement elements 54 are acted upon by the second exhaust gas treatment unit 26 in contact with the housing 12, a frictional connection occurs between the locking engagement elements 54 and the housing 12, so that the first exhaust gas treatment unit is also supported by the frictional engagement generated in the area of the support/sealing arrangement 42 24 is also held against rotation about the housing longitudinal axis L in the housing 12. In order to provide additional anti-rotation protection, instead of the locking engagement recess 56 running all the way around in the circumferential direction, a plurality of locking engagement recesses arranged at a distance from one another in the circumferential direction can also be provided, in which case, for example, each locking engagement member 54 can then be assigned such a locking engagement recess that is limited in the circumferential direction and also one that acts in the circumferential direction Positive locking between the locking engagement members 54 engaging in a respective locking engagement recesses and the housing 12 can be achieved.

An alternative configuration, in particular of the first exhaust gas treatment unit 24, is in 3 can be seen. In a state in which the first exhaust gas treatment unit 24 is inserted into the housing 12, but the second exhaust gas treatment unit 26 is not inserted into the housing, the locking arrangement 52 is already in the locking state, since the locking engagement elements 54 already engage in the locking engagement recess 56 due to their shape are positioned. The subsequent insertion of the second exhaust treatment unit 26 results in the fact that, when it is fully inserted into the housing 12, the locking engagement members 54 already engaged in the locking engagement recess 56 are blocked by the second shell 34 against movement out of engagement with the locking engagement recess 56. In this state, provision can be made, for example, for the locking engagement elements 54 to be held with their locking sections 60 in contact with the housing 12 in the area of the locking engagement recess 56 solely because of the shape and thus pretension. It is not absolutely necessary for the blocking sections 62 to already be in contact with the second casing 34 in this state or for them to be acted upon radially outwards by the latter. However, the distance between the blocking portions 62 and the second shell 34 must be dimensioned such that upon movement of the Blocking sections 62 radially inwards, the locking sections 60 cannot disengage from the locking engagement recess 56 . Alternatively, it can also be provided in this configuration that when the second exhaust gas treatment unit 26 is inserted into the housing 12, the jacket 34 of the same acts on the blocking sections 62 of the locking engagement elements 54 radially outwards and thus the locking engagement elements 54 with their locking sections 60 against the housing 12 in the region of the locking engagement recess 56 presses.

With the construction of an exhaust gas treatment arrangement 10 according to the invention, it is possible with a structurally simple design to reliably hold several exhaust gas treatment units 24, 26 in a defined position in the housing 12 and to have easy access to them, for example to clean or replace them. In particular, in order to gain access to the first exhaust gas treatment unit 24, the second exhaust gas treatment unit 26 can be removed from the housing 12, so that the first exhaust gas treatment unit 24 can also be pulled out of the housing 12 when the locking arrangement 52 is then no longer blocked in the locking state.

It should be pointed out that more than two exhaust gas treatment units can also be used in such an exhaust gas treatment assembly 10 . For example, with a correspondingly longer configuration of the housing 12, i.e. in 1 another exhaust gas treatment unit may be positioned to the right of the first exhaust gas treatment unit 24 . A locking arrangement 52, as shown in FIG 1 is shown. This locking arrangement 52 can then be blocked in its locked state by the first exhaust gas treatment unit 24 , while in turn the locking arrangement 52 of the first exhaust gas treatment unit 24 can be locked in its locked state by the second exhaust gas treatment unit 26 .

An alternative configuration of the locking arrangement 52, in particular with regard to the provision of the locking engagement recess 56, is shown in 4 shown. The inwardly open detent engagement recess 56 is on the housing 12 therethrough provided that at an axial distance from one another there are protrusions 61, 63 of the housing which are directed radially inwards, for example in the circumferential direction completely or are limited in the circumferential direction, which between them form the locking engagement recess 56 which is open radially inwards for receiving a locking engagement element 54. In this way, formations directed radially outwards and thus locally increasing the diameter of the housing can essentially be avoided.

Another alternative embodiment of the locking arrangement 52 is in figure 5 shown. In this configuration, a locking engagement projection 59 is provided on the housing 12 , formed by forming, for example, completely circumferential in the circumferential direction or provided by sections limited in the circumferential direction and directed radially inward or protruding radially inward. Complementary to this, a radially outwardly open locking engagement recess 57 is formed on each locking member 54, for example between two rib-like formations. In the locked state, the locking element 54, which is prestressed radially outwards or is loaded radially outwards by the second exhaust gas treatment unit 26, engages in the region of its locking engagement recess 57, which is open radially outwards, or a locking engagement projection 59 protruding radially inwards on the housing 12, as a result of which the first exhaust gas treatment unit 24 axially is fixed with respect to the housing 12 and is also blocked against loosening when the second exhaust gas treatment unit 24 is inserted into the housing 12 in this state.

It should be noted that in the Figures 4 and 5 variants shown, of course, in combination with the various in the 2 and 3 illustrated mechanisms of action of the locking members 54 can be realized for providing the locking state.

An alternative embodiment for connecting the locking elements 54 to the first casing 28 is shown in 6 shown. In this embodiment, the locking elements 54 are provided on a ring-like locking element carrier 65 formed, for example, from sheet metal material, as integral components thereof. Of the Arresting element carrier 65 can be fixed in the region of second end section 50 of first exhaust gas treatment unit 24 on first jacket 28 , for example surrounding it on the outside or inserted into it, as a result of which all arresting elements 54 can be firmly attached to first jacket 28 .

The design of an exhaust gas treatment assembly according to the invention achieves a simple and reliable locking or fixing of the exhaust gas treatment unit, in which production tolerances and thermal expansions can also be compensated for in the axial direction and in the radial direction due to the flexibility in the area of the locking engagement elements. In addition, the locking engagement members can also be used as handles when handling the first exhaust treatment unit.

In such an exhaust gas treatment assembly, different functionalities can be implemented with the various exhaust gas treatment units, depending on their design. For example, both exhaust gas treatment units can each be designed as catalytic converter units. Alternatively, one of the exhaust gas treatment units can be designed as a catalytic converter unit and the other as a particle filter unit. In the further alternative, one of the exhaust gas treatment units can be a heating unit operated, for example, by electrical excitation, through which heat can be introduced into the exhaust gas flow or in an exhaust gas treatment element and thus exhaust gas treatment in the form of heat input is implemented. For example, a combination of an exhaust gas treatment unit designed as a catalytic converter unit and an exhaust gas treatment unit designed as a heating unit could be provided. Alternatively, a combination of an exhaust gas treatment unit designed as a heating unit with an exhaust gas treatment unit designed as a particle filter unit could be implemented. In a further alternative, in addition to an exhaust gas treatment element that is effective, for example, as a catalyst or particle filter, an exhaust gas treatment unit could also be provided with an electrically excitable heating element, for example, so that this exhaust gas treatment unit can be effective both as a heating unit and as a catalyst unit or particle filter unit can. It goes without saying that when an exhaust gas treatment unit is designed as an electrically operated heating unit, a line bushing for supplying electrical energy to a heating element, for example a sheathed heating conductor, must be provided through the housing.

Claims (16)

Exhaust treatment assembly for an exhaust system of an internal combustion engine, comprising: - a housing (12) elongated in the direction of a housing longitudinal axis (L), - a first exhaust gas treatment unit (24) inserted or insertable into the housing (12) with a first shell (28) and at least one first exhaust gas treatment element (32) carried in the first shell (28), - a second exhaust gas treatment unit (26) inserted or insertable into the housing (12) with a second shell (34) and at least one second exhaust gas treatment element (38) carried in the second shell (34), - a locking arrangement (52) for locking the first exhaust gas treatment unit (24) in the housing (12) at least against movement in the direction of the housing longitudinal axis (L) in a locking state, wherein when the first exhaust gas treatment unit (24) and second exhaust gas treatment unit (26) are inserted into the housing (12), the locking arrangement (52) is blocked by the second exhaust gas treatment unit (26) in the locking state. Exhaust gas treatment assembly according to Claim 1, characterized in that that the locking arrangement (52) comprises: - at least one on the first shell (28) provided radially outwardly projecting locking engagement member (54), - at least one locking engagement recess (56) provided on the housing (12) and open radially inwards, wherein when the first exhaust gas treatment unit (24) is inserted into the housing (12) in the locked state, the at least one locking engagement member (54) is positioned so as to engage radially outwards in a locking engagement recess (56) and when the second exhaust gas treatment unit is inserted into the housing (12). (26) is blocked by the second exhaust gas treatment unit (26) against movement radially inward to cancel the locking state,
or that the locking arrangement (52) comprises: - at least one locking engagement element (54) provided on the first casing (28) with a locking engagement recess (57) open radially outwards, - at least one locking engagement projection (59) provided on the housing (12) and protruding radially inwards, wherein when the first exhaust gas treatment unit (24) is inserted into the housing (12) in the locked state, the at least one locking engagement member (54) is positioned with its locking engagement recess (57) encompassing a locking engagement projection (59) on the housing (12) and when in the housing (12) inserted second exhaust gas treatment unit (26) is blocked by the second exhaust gas treatment unit (26) against movement radially inward to cancel the locking state. Exhaust gas treatment assembly according to Claim 2, characterized in that that the at least one locking engagement recess (56) on the housing (12) is provided by an axially limited bulging of the housing (12) radially outwards,
or that the at least one locking engagement recess (56') on the housing (12) is provided by two radially inward bulges (61, 63) of the housing (12) which are arranged at an axial distance from one another. Exhaust gas treatment assembly according to claim 2 or 3, characterized in that that on the housing (12) there is provided a locking engagement recess (56) which runs substantially all the way round in the circumferential direction, or that on the housing (12) a plurality of circumferentially spaced, circumferentially delimited locking engagement recesses is provided. Exhaust gas treatment assembly according to Claim 2, characterized in that that on the housing (12) there is provided a locking engagement projection (59) which is essentially completely circumferential in the circumferential direction, or in that a plurality of circumferentially spaced, circumferentially delimited locking engagement projections are provided on the housing (12). An exhaust gas treatment assembly according to any one of claims 2-5, characterized in that a plurality of circumferentially spaced locking engagement members (54) are provided on the first shell (28). Exhaust gas treatment assembly according to one of Claims 2-6, characterized in that that each locking engagement element (54) blocks a fixing section (58) fixedly provided on the first casing (28) and a second exhaust gas treatment unit (26) inserted into the housing (12) in the locking state by the second casing (34) against movement radially inwards and/or comprises a locking section (62) that is acted upon radially outwards and a locking section (60) that engages in a locking engagement recess (56) on the housing (12) in the locked state,
or that each locking engagement element (54) blocks a fixing section (58) fixedly provided on the first casing (28) and a second exhaust gas treatment unit (26) inserted into the housing (12) in the locking state by the second casing (34) against movement radially inwards and/or blocking section (62) acted upon radially outwards and a locking section (60) with a locking engagement recess (57) surrounding a locking engagement projection (57) on the housing (12) in the locking state, preferably wherein in the locking state the locking section (60) is held in contact with the housing (12). Exhaust treatment assembly according to any one of claims 2-7, characterized in that the housing (12) has an insertion opening (20) for receiving the first exhaust treatment unit (24) and the second exhaust treatment unit (26) in the housing (12) by moving in an insertion direction ( E), wherein the first exhaust gas treatment unit (24) has a first end section (40) preceding when the first exhaust gas treatment unit (24) is moved in the insertion direction (E) for insertion into the housing (12) and a first end section (40) when the first exhaust gas treatment unit (24) is moved in the insertion direction (E) for insertion into the housing (12) trailing second end section (50), and that the at least one locking engagement member (54) on the first casing (58) in the region of the second end section (50) of the first exhaust gas treatment unit ( 24) is provided,
preferably wherein, when the first exhaust gas treatment unit (24) is inserted into the housing (12), the first jacket (28) in the area of the first end section (40) of the first exhaust gas treatment unit (24) is supported by a supporting/sealing arrangement (42) with respect to the housing (12 ) is radially supported and/or sealed. Exhaust treatment assembly according to Claim 8, characterized in that the second exhaust treatment unit (26) has a first end section (64) preceding when the second exhaust treatment unit (26) moves in the insertion direction (E) for insertion into the housing (12) and a first end section (64) when the second Exhaust gas treatment unit (26) in the insertion direction (E) for insertion into the housing (12) trailing second end section (66), and that in the locked state the at least one locking engagement member (54) through the second jacket (34) in Area of the first end portion (64) of the second exhaust treatment unit (26) is blocked in the locked state. Exhaust gas treatment assembly according to one of Claims 2-9, characterized in that at least one locking engagement element (54), preferably each locking engagement element (54), is fixed to the first casing (28) as a separate component, and/or that a plurality of locking engagement elements (54 ) is provided on a preferably ring-like locking engagement member carrier (65) fixed to the first jacket (28), or/and that at least one locking engagement member (54), preferably each locking engagement member (54), is constructed from sheet metal material. Exhaust treatment assembly according to one of the preceding claims, characterized in that when the first exhaust treatment unit (24) is inserted into the housing (12) and the second exhaust treatment unit (26) is not inserted into the housing (12), the locking arrangement (52) is not in the locking state and is inserted of the second exhaust gas treatment unit (26) can be brought into the locking state in the housing (12), or that when the first exhaust gas treatment unit (24) is inserted into the housing (12) and the second exhaust gas treatment unit (26) is not inserted into the housing (12), the locking arrangement ( 52) is in the locked state. Exhaust gas treatment assembly according to one of the preceding claims, characterized in that when the second exhaust gas treatment unit (26) is inserted into the housing (12), the second exhaust gas treatment unit (26) is fixed or can be fixed in relation to the housing (12) by at least one fastening element (70), preferably screw bolts . Exhaust gas treatment assembly according to one of the preceding claims, characterized in that at least one exhaust gas treatment unit (24, 26) comprises a catalytic converter unit, and/or that at least one exhaust gas treatment unit (24, 26) comprises a particle filter unit, that at least one exhaust gas treatment unit (24, 26) comprises a preferably electrically operated heating unit. Method for constructing an exhaust gas treatment assembly according to one of the preceding claims, comprising the measures: a) providing the housing (12), the first exhaust gas treatment unit (24) and the second exhaust gas treatment unit (26) as separate assemblies, b) inserting the first exhaust gas treatment unit (24) into the housing (12) in such a way that the locking arrangement (52) reaches or can be brought into the locking state, c) inserting the second exhaust gas treatment unit (26) into the housing (12) in such a way that the locking arrangement (52) is blocked by the second exhaust gas treatment unit (26) in the locked state. Method according to claim 14, characterized by : - A measure d) for fixing the second exhaust gas treatment unit (26) with respect to the housing (12) in a state that blocks the locking arrangement (52) in the locked state after carrying out measure c),
or and - A measure e) for replacing the first exhaust gas treatment unit (24) accommodated in the housing (12), comprising removing the second exhaust gas treatment unit (26) from the housing (12) and thereby canceling the state blocking the locking arrangement (52) in the locking state and removing it the first exhaust treatment unit (24) from the housing (12). Exhaust system for an internal combustion engine, in particular in a vehicle, comprising at least one exhaust gas treatment assembly according to one of claims 1-15,
preferably wherein the housing (12) is fixed to an exhaust gas-carrying component, preferably by welding to a wall (18) and at second exhaust gas treatment unit (26) inserted into the housing (12), the second exhaust gas treatment unit (26) is fixed to the wall (18).

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