DE102008054268B4 - Mixing and / or evaporation device - Google Patents

Abstract

Mixing and / or evaporating device for a device (2) for introducing a liquid (3) into a gas flow (4), - comprising a sheet metal body (9) having a plurality of guide vanes (10) in the mounted state transversely to a Main flow direction (11) of the gas flow direction (4) and extend radially to a central region of the gas flow (4), - wherein the sheet metal body (9) has a closed core region (12) from which the guide vanes (10) go out and in the assembled state in The sheet metal body (9) with the guide vanes (10) and the core region (12) emerges from a single circuit board (13) from which the guide vanes (10) are cut free or punched free, wherein the guide vanes (10) are individualized by cuts (14) which are made radially with respect to a longitudinal center axis (11) of the gas flow (4) and start on the circuit board (13) radially outward and radially i nenden, and - wherein the guide vanes (10) are wound with respect to their longitudinal direction, so that they have a decreasing position from the inside to the main flow direction (11) of the gas flow (4), characterized in that the cuts (14) serrated or corrugated cutting or punching tools are produced, so that the guide vanes (10) at their respective trailing edge (18) has a serrated or wavy contour (19) extending in the blade longitudinal direction.

Description

The present invention relates to a mixing and / or evaporating device for a device for introducing a liquid into a gas flow, in particular in an exhaust system of an internal combustion engine, having the features of the preamble of claim 1.

In modern exhaust systems, it may be necessary to introduce a liquid educt into the exhaust gas flow to trigger a particular reaction. For example, liquid fuel upstream of an oxidation catalyst can be introduced into the exhaust gas stream in order to heat the exhaust gas flow with the strongly exothermic reaction taking place in the catalyst. In this way, for example, a subsequent particulate filter can be heated to an auto-ignition temperature in order to initiate a regeneration of the particulate filter. It is likewise known to introduce ammonia or urea or an aqueous urea solution into the exhaust gas stream upstream of an SCR catalyst in order to convert nitrogen oxides entrained in the exhaust gas stream in the SCR catalyst.

Important for proper operation of the exhaust system is that the introduced liquid can be evaporated as much as possible, in addition, as homogeneous as possible mixing or distribution of the vaporized liquid over the entire cross-section of the exhaust gas flow is desired. For this purpose, mixing and / or evaporation devices of the type mentioned are used, which are arranged for this purpose in the exhaust system in the flow path of the exhaust gas.

A generic mixing and / or evaporation device is from the US 3,964,875 A known. The known device is made of a single sheet metal blank from which a plurality of vanes are cut free.

From the DE 100 60 808 B4 , of the DE 10 2007 021 598 A1 and the DE 10 2007 012 790 A1 Further devices are known, which are each assembled from several individual parts.

The present invention addresses the problem of providing for such a mixing and / or evaporation device an improved embodiment, which is characterized in particular by a comparatively inexpensive feasibility and by a particularly effective evaporation effect.

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

The present invention is based on the general idea of realizing the mixing and / or evaporation device with the aid of a sheet metal body having a closed core region, from which guide vanes protrude radially in a star-shaped manner. In the assembled state, the closed core region of the sheet metal body is then located in a central region of the gas flow. In this central region of the gas flow usually the greatest flow velocity prevails. Furthermore, the introduction of liquid also preferably takes place in this central area. The positioning of the closed core area precisely in this central area prevents droplet break-through by the mixing and / or evaporation device, since the liquid droplets hit the core area and are exposed to an intense attack by the gas flow, which causes evaporation of the liquid. It is particularly advantageous in this construction that the vanes emanating from the central core area, so are firmly connected to this. In this way, it is possible in particular to hold or position the central core area with the aid of the moving blades.

According to the invention, the sheet metal body, together with the guide vanes and the core area, is made from a single board from which the guide vanes are cut free or punched free. This board can be designed flat or conical. In this way, the mixing and / or evaporation device is extremely inexpensive to produce.

According to the invention, the individual guide vanes are individualized by cuts on the sheet metal body, which start radially on the printed circuit board outside and terminate radially inward on the core region. Thus, the vanes have radially outwardly each have a free end. Such a construction is relatively easy to implement.

Particularly advantageous is a development in which the cuts are configured differently long. As a result, differently long vanes can be realized, which is an improved adaptation to the flow conditions in the flow-through cross-section, in which the mixing and / or evaporation device is used, is possible.

The present invention is also based on the general idea of providing the trailing edges of vanes with a wavy or serrated contour. By this measure, liquid droplets can no longer unite at the trailing edge to large drops that are can detach and can impinge, for example, on a downstream exhaust treatment device without complete evaporation. The individual liquid droplets, which can form by accumulation on the guide vanes and on the core region, reach the downstream edges of the rotor blades due to the flow effect and due to the positioning of the guide vanes along different positions. They get into the tips of the wavy or jagged contour. There they are exposed to intensive flow, which supports the evaporation. At the same time, the contour prevents adjacent droplets from flowing together, so that the formation of large droplets can be avoided.

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.

Preferred embodiments of the invention are illustrated in the drawings and will be described in more detail in the following description, wherein like reference numerals refer to the same or similar or functionally identical components.

It show, each schematically

1 a greatly simplified schematic diagram of an exhaust system with a device for introducing a liquid,

2 an axial view of a circuit board for producing a mixing and / or evaporation device in the undeformed state.

Corresponding 1 can be an exhaust system 1 for an internal combustion engine, not shown here, which is preferably located in a motor vehicle, a device 2 have, by means of which a liquid indicated by lines 3 in a direction indicated by arrows gas flow 4 can be introduced. The gas flow 4 is in the application form shown here, an exhaust gas flow in an exhaust pipe 5 flows. The device 2 includes an injector 6 , For example, a nozzle, with the help of the liquid reactant 3 in the gas flow 4 can be injected. Furthermore, the device comprises 2 a mixing and evaporation device 7 in the gas stream 4 downstream of the injector 6 is arranged. The device 2 is within the exhaust system 1 upstream of an exhaust gas purification device 8th arranged, which works with the liquid starting material. For example, it is the exhaust gas purification device 8th around an SCR catalyst. The upstream with the help of the device 2 injected educt 3 is then ammonia or urea or an aqueous urea solution. Likewise, it can be in the exhaust gas treatment device 8th to act an oxidation catalyst, which can be supplied to the heating of the exhaust gas fuel.

Corresponding 2 includes the mixing and / or evaporation device 7 , which in the following also shortens with furnishings 7 is referred to a sheet metal body 9 with several vanes 10 , In the assembled state of the device 7 extend these vanes 10 substantially transverse to a main flow direction of the gas flow 4 , ie substantially transversely to a longitudinal direction of the respective line 5 , This main flow direction or longitudinal direction is in 2 perpendicular to the drawing plane and is with 11 designated. Furthermore, the vanes extend 10 in the assembled state radially to a central region of the gas flow 4 , Said central area is within the respective gas-carrying line 5 Coaxially enclosed by an annular edge region. In the case of a circular channel cross section or line cross section, a coaxial and concentric alignment of the central region results in the cross section of the line 5 , Then in the assembled state, the vanes 10 radially to this longitudinal central axis 11 arranged.

The sheet metal body 9 has a closed core area 12 on, from which the vanes 10 out. In the assembled state, this core area is located 12 in the central area of the gas flow. In the presentation of the 2 the sheet metal body extends 9 with the core area 12 and the vanes 10 in one plane, namely in the plane of the drawing. In the assembled state or in the finished state of manufacture of the device 7 are the vanes 10 opposite this level hired to a flow through the device 7 to enable. 2 illustrates how the sheet metal body 9 or the device 7 especially easy from a single planar board 13 can be produced. This is the board 13 cut or stamped to the vanes 10 to cut or free dance. The individualization of the vanes 10 done by cuts 14 that are generated during cutting or punching. These cuts 14 start at the board 13 radially outside and ends radially inside, z. B. at the core area 12 , In doing so, the individual cuts 14 have different lengths. In the example shown, three different cutting lengths can be seen.

Instead of a flat board 13 can also be a cone-shaped board 13 be used, in which the core area 12 an axial end face of the conical board 13 forms while the blades 10 on the sheath of the conical board 13 be cut or punched free.

The individual cuts 13 can with respect to the longitudinal central axis 11 the gas flow 4 be substantially radially oriented. In the example, the cuts 14 executed largely straight. The cuts 14 may be rounded at their radially inner ends. Such fillets 15 are in 2 exemplary for three sections 14 played. It is clear that prefers all cuts 14 radially inward with such curves 15 are provided. The curves 15 reduce the notch effect and thus the risk of cracking at the inner end of the cut.

In the example of 2 have three vanes 10 at theirs from the core area 12 removed free ends each have a fastening tab 16 on, with whose help the sheet metal body 9 at one the gas flow 4 laterally delimiting wall can be attached. For example, the sheet metal body 9 with the help of these tabs 16 on the body of the exhaust pipe 5 attached. Particularly advantageous is an embodiment in which all other vanes 10 that do not have fastening straps 16 Wear, are dimensioned so that in the assembled state between the gas flow 4 bounding wall and the free ends 17 the vanes 10 a gap remains. This can be realized, for example, that the fastening tabs 16 at the associated vanes 10 be angled so that the wall thickness of the tabs 16 to the outer dimension of the sheet metal body 9 added, so all the vanes 10 are too short to have a direct wall contact in the assembled state. In this way, noise and damage during operation of the exhaust system 1 be reduced.

The guide vanes are expedient 10 twisted with respect to their longitudinal direction, in such a way that from radially inward to outwardly decreasing employment with respect to the main flow direction 11 the gas flow 4 exhibit.

2 shows another special feature. At least one of the vanes 10 indicates at its respective trailing edge 18 a serrated or undulating contour extending in the blade longitudinal direction 19 on. In the example of 2 is purely exemplary only one of the vanes 10 the trailing edge 18 with this contour 19 Mistake. It is clear that expediently all the vanes 10 at their trailing edges 18 such a contour 19 can have. The contour 19 improves the evaporation effect of the device 7 , This can be explained as follows: In the operation of the device 7 For example, liquid droplets may favor the closed core region 12 incident. Due to the high flow rates in the central region of the gas flow 4 These droplets are directed outward towards the vanes 10 pushed. Regardless, can also be on the vanes 10 Droplets of the introduced liquid 3 incident. The droplets on the vanes 10 are due to the employment of the vanes 10 and due to the gas flow 4 to the trailing edge 18 the respective vane 10 abortion. There they reach the serrated or wavy contour 19 and can no longer unite with each other along the trailing edge to large droplets. This helps the evaporation of the droplets.

Basically, it is equally possible to use the vanes 10 also on a leading edge 20 with such a jagged or wavy contour 19 equip, wherein the upstream contour 19 then complementary to the downstream contour 19 the adjacent vane 10 is designed. Such an embodiment can be produced in a particularly simple manner by the cutting processes or punching processes for individualizing the guide vanes 10 be carried out with corresponding serrated or wavy cutting tools or stamping tools. The corrugated or jagged contour 19 can basically be in the plane of the respective vane 10 be arranged. It is also possible to change the contour 19 opposite the plane of the associated vane 10 to angle.

Claims (7)

Mixing and / or evaporating device for a device ( 2 ) for introducing a liquid ( 3 ) into a gas flow ( 4 ), - with a sheet metal body ( 9 ), which has several guide vanes ( 10 ), which in the mounted state transversely to a Main flow direction ( 11 ) the gas flow direction ( 4 ) and radially to a central region of the gas flow ( 4 ), the sheet metal body ( 9 ) a closed core area ( 12 ), from which the guide vanes ( 10 ) and in the assembled state in the central region of the gas flow ( 4 ) is arranged, - wherein the sheet metal body ( 9 ) with the guide vanes ( 10 ) and the core area ( 12 ) from a single board ( 13 ), from which the vanes ( 10 ) are cut or punched free, - the guide vanes ( 10 ) by cuts ( 14 ) are individualized with respect to a longitudinal central axis ( 11 ) of the gas flow ( 4 ) are executed radially and on the board ( 13 ) start radially outwards and end radially inward, and - wherein the guide vanes ( 10 ) are wound with respect to their longitudinal direction, so that from the inside to the outside a decreasing employment with respect to the main flow direction ( 11 ) of the gas flow ( 4 ), characterized in that the cuts ( 14 ) are manufactured with serrated or corrugated cutting or punching tools, so that the guide vanes ( 10 ) at their respective trailing edge ( 18 ) extending in the blade longitudinal direction serrated or wavy contour ( 19 ) exhibit. Device according to claim 1, characterized in that the guide vanes ( 10 ) also on a leading edge ( 20 ) such a serrated or wavy contour ( 19 ) which are complementary to the serrated wavy contour ( 19 ) of the trailing edge ( 18 ) of the adjacent vanes ( 10 ) is configured. Device according to claim 1 or 2, characterized in that the cuts ( 14 ) are configured differently long. Device according to one of claims 1 to 3, characterized in that at least one of the guide vanes ( 10 ) at her from the core area ( 12 ) removed free end a fastening tab ( 16 ), with which the sheet metal body ( 9 ) at one the gas flow ( 4 ) laterally limiting wall can be fastened. Device according to claim 4, characterized in that the other guide vanes ( 10 ) are dimensioned so that in the assembled state between their free ends ( 17 ) and the wall at a distance. Device according to one of claims 1 to 5, characterized in that the cuts are rounded at their inner ends. Device according to one of claims 1 to 6, characterized in that the board ( 13 ) is flat or conical.

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