DE102012009246A1 - Metering device for introducing aqueous urea solution in exhaust gas in selective catalytic reduction converter of exhaust gas after-treatment system of motor vehicle, has reduction duct element thermally coupled with conduit element - Google Patents

Abstract

The device has a retaining container for retaining a reducing agent and connected with a metering element i.e. nozzle, through a reduction duct element (10) for supplying the reducing agent to the metering element. A cooling conduit element (20) supplies coolant to an aggregate of the vehicle, and thermally coupled with the reduction duct element for heating the reducing agent in the reduction duct element. Another reduction duct element (12) supplies the reducing agent into the retaining container through the metering element and is thermally coupled with the cooling conduit element.

Description

The invention relates to a metering device according to the preamble of patent claim 1.

From the mass production of motor vehicles, exhaust aftertreatment devices are known which comprise an SCR catalytic converter (SCR) (Selective Catalytic Reduction). The SCR catalyst is used to Entsticken exhaust gas, d. H. for the reduction of nitrogen oxides in the exhaust gas of an internal combustion engine.

The exhaust gas aftertreatment device additionally comprises a metering device with at least one metering element for introducing a reducing agent into the exhaust gas. The reducing agent is, for example, an aqueous urea solution. The reducing agent is used to provide ammonia, which then reacts in a selective catalytic reduction reaction with nitrogen oxides present in the exhaust gas to nitrogen and water.

The exhaust aftertreatment device also includes a receptacle for the reducing agent. The receptacle is connected to the metering element via at least one reduction line element as the first line element for guiding the reducing agent from the receptacle to the metering element.

The freezing point of a commercially available, aqueous urea solution is lower than that of water, whereby it can freeze at very low outside temperatures of less than -11 ° C. Then, a metered addition of reducing agent into the exhaust gas is no longer possible.

From the DE 10 2007 000 526 A1 It is known to at least partially thermally couple at least partially a cooling line element designated as a coolant circulation tube as a second line element with the reduction line element designated as urea solution feed tube. The cooling line element serves to guide a coolant of an aggregate of the motor vehicle. By cooling the aggregate by the coolant, the coolant is heated so that it is warmer than the reducing agent. The reducing agent received in the reduction line element can now be heated in such a way that a heat transfer from the coolant to the reducing agent takes place. It has been found that this type of heating of the reducing agent is in need of improvement, in particular with respect to its structure and its efficiency.

It is therefore an object of the present invention to develop a metering device of the type mentioned in such a way that improved heating of the reducing agent is made possible.

This object is achieved by a metering device having the features of patent claim 1 and by a metering device having the features of patent claim 6. Advantageous embodiments with expedient and non-trivial developments of the invention are specified in the remaining claims.

In order to realize a more efficient and thus improved heating of the reducing agent in the first aspect of the invention, at least one further reduction line element is provided for guiding the reducing agent from the metering element back to the receptacle, which is at least partially thermally coupled to the cooling line element. The thermal coupling according to the invention of the at least two reduction line elements makes it possible to heat both the reducing agent to be supplied to the metering element and the reducing agent to be removed from the metering element, so that a very large part of a cycle of the reducing agent can be heated. As a result, it is also possible to heat reducing agent received in the receptacle, since heated reducing agent can flow through the further reducing conduit element to the receptacle and can mix in the receiving receptacle with the reducing agent not yet heated. In the metering device according to the invention thus both a supply and a discharge of the reducing agent to or from the metering is guaranteed.

It has proven to be advantageous if both reduction line elements are accommodated at least partially in a cooling channel of the cooling line element delimited by the cooling line element and permeable by the coolant. In this case, the cooling medium flowing through the cooling line element can contact the reduction line elements directly and over a very large area, so that a very good heat transfer from the coolant to the reducing agent in both reduction line elements is made possible.

In a further advantageous embodiment of the invention, the reduction line elements formed separately from the cooling line element extend substantially helically around an outer circumferential side surface of the cooling line element. Due to the separate configuration, the reduction line elements and the cooling line element can be produced inexpensively. Furthermore, the reduction line elements can be arranged in a simple manner corresponding to the cooling line element.

In the second aspect of the invention, in order to realize an improved heating of the reducing agent, one of the separately formed line elements (reduction line element and cooling line element) extends substantially helically around an outer peripheral side surface of the corresponding other line element. On the one hand, this creates a very favorable heat transfer from the coolant to the reducing agent. On the other hand, the line elements can be produced inexpensively due to their separate design.

The helical arrangement allows a particularly large-area contacting of the line elements, wherein preferably the one line element contacts the outer peripheral side surface of the other line element via its outer peripheral side surface, so as to provide an efficient and effective thermal coupling.

Further advantages, features and details of the invention will become apparent from the following description of preferred embodiments and from the drawing. The features and combinations of features mentioned above in the description as well as the features and feature combinations mentioned below in the description of the figures and / or shown alone in the figures can be used not only in the respectively indicated combination but also in other combinations or alone, without the frame to leave the invention.

The drawing shows in:

1 a schematic cross-sectional view of two reduction lines for guiding reducing agents of a metering device for the exhaust aftertreatment of exhaust gases of a motor vehicle, which are received in a cooling passage of a cooling line member for guiding coolant of an aggregate of the motor vehicle;

2 a schematic longitudinal sectional view of the cooling line element, in which the reduction line elements are at least partially received; and

3 a schematic side view of a cooling line element, which is wrapped by two reduction line elements outer peripheral side substantially helically.

1 and 2 show a first reduction line element 10 and a second reduction conduit element 12 , The reduction line elements 10 . 12 are one in 1 and 2 Unillustrated metering associated with at least one metering element. The dosing serves to introduce a reducing agent, for example in the form of an aqueous urea solution in exhaust gas of an internal combustion engine of a motor vehicle. The reducing agent serves as the source of ammonia, so that in a corresponding SCR catalytic converter of an exhaust aftertreatment device of the motor vehicle, a selective catalytic reduction of nitrogen oxides in the exhaust gas occurs. The metering element is for example a nozzle, by means of which the reducing agent is injected into the exhaust gas.

The metering device further comprises a receptacle in a 1 and 2 Not shown tank in which the reducing agent is added. The first reduction conduit element 10 is on the one hand connected to the tank and on the other hand with the metering element and serves to guide reducing agent from the tank to the metering element.

The second reduction conduit element 12 On the one hand, it is also connected to the tank and, on the other hand, to the dosing element. The second reduction conduit element 12 However, it serves to lead excess reducing agent from the metering back to the tank. For this purpose limit the reduction line elements 10 . 12 respective guide channels 14 . 16 which are to be flowed through by the reducing agent.

During a fired operation of the internal combustion engine of the motor vehicle designed, for example, as a reciprocating internal combustion engine, the internal combustion engine heats up. To protect them from overheating, a cooling device is provided with a cooling circuit. In the cooling circuit circulates a coolant, for example in the form of a cooling liquid. The coolant is used to cool the internal combustion engine by a heat transfer from the internal combustion engine takes place to the coolant. In order to avoid freezing of the coolant at cold ambient temperatures, this is mixed with an antifreeze. Compared with the coolant, the reducing agent has a higher freezing point. In other words, the reducing agent freezes faster than the coolant.

In order now to prevent freezing of the reducing agent and / or in the reduction line elements 10 . 12 To heat up and thaw absorbed and frozen reductant are the reduction line elements 10 . 12 in a the reduction line elements 10 . 12 common guide channel 18 a cooling line element 20 taken the cooling device.

The cooling line element 20 serves to guide the heated as a result of the described heat transfer coolant, wherein the coolant the guide channel 18 flows through. Due to the inclusion of the reduction line elements 10 . 12 in the guide channel 18 the coolant may be the reduction line elements 10 . 12 directly and over a large area, so that the reduction line element 10 . 12 very large area with the cooling line element 20 thermally coupled. This results in a very advantageous heat transfer and a fast response time for rapid heating of the reducing agent.

In this case, it is possible to cool both the reducing agent to be led to the metering element and the reducing agent to be removed from the metering element. Required entries and exits of the reduction line elements 10 . 12 and the cooling line element 20 are advantageously in respective end pieces at respective ends of the reduction line elements 10 . 12 and the cooling line element 20 integrated so that they can be fluidly connected in a simple manner with the tank on the one hand and with the dosing on the other or with other line elements of the cooling circuit.

The reduction line elements 10 . 12 are separate from each other and each separately from the cooling line element 20 designed so that they are inexpensive to manufacture.

3 shows a further possibility, a simple, robust and cost-effective heating of the reducing agent in the reduction line elements 10 . 12 to realize. As based on 3 can be seen, which are separate from each other and separately from the cooling line element 20 trained reduction line elements 10 . 12 each substantially helically around an outer peripheral side surface 22 the cooling line element 20 wound. In each case, outer circumferential side surfaces are located 24 . 26 the reduction line elements 10 . 12 on the outer circumferential side surface 22 the cooling line element 20 so that they are thermally coupled together and a flat and very good heat transfer can take place. Also, this thermal coupling thus allows a very good heat transfer and thus a very fast response time, so that the reducing agent can be heated very quickly.

The separate embodiment of the reduction line elements 10 . 12 from each other and from the cooling line element 20 allows a cost-effective, respective production and a quick arrangement of the reduction line elements 10 . 12 on the cooling line element 20 ,

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102007000526 A1 [0006]

Claims (8)

Dosing device with at least one metering element for introducing a reducing agent in the exhaust gas of an internal combustion engine of a motor vehicle, with at least one receptacle for the reducing agent, which communicates with the metering element via at least one reduction line element ( 10 ) is connected for guiding the reducing agent from the receptacle to the metering element, and with at least one cooling line element ( 20 ), by means of which a coolant of an assembly of the motor vehicle is to be guided and which for heating in the reduction line element ( 10 ) received reducing agent with the reduction line element ( 10 ) is at least partially thermally coupled, characterized in that at least one further reduction line element ( 12 ) is provided for guiding the reducing agent from the metering element back to the receptacle, which with the cooling line element ( 20 ) is at least partially thermally coupled. Dosing device according to claim 1, characterized in that both reduction line elements ( 10 . 12 ) at least partially in a through the cooling line element ( 20 ) and limited by the coolant flow-through cooling channel ( 18 ) of the cooling line element ( 20 ) are included. Dosing device according to one of claims 1 or 2, characterized in that the separately from the cooling line element ( 20 ) formed reduction line elements ( 10 . 12 ) substantially helically around an outer peripheral side surface ( 22 ) of the cooling line element ( 20 ). Dosing device according to claim 3, characterized in that the reduction line elements ( 10 . 12 ) via their respective outer peripheral side surfaces ( 24 . 26 ) the outer peripheral side surface ( 22 ) of the cooling line element ( 20 ) to contact. Dosing device according to one of claims 3 or 4, characterized in that the reduction line elements ( 10 . 12 ) are formed separately from each other. Dosing device with at least one metering element for introducing a reducing agent in the exhaust gas of an internal combustion engine of a motor vehicle, with at least one receiving receptacle for the reducing agent, which communicates with the metering element via at least one reduction line element ( 10 . 12 ) as the first conduit element ( 10 . 12 ) is connected for guiding the reducing agent from the receptacle to the metering element, and with at least one cooling line element ( 20 ) as a second conduit element ( 20 ), by means of which a coolant of an assembly of the motor vehicle is to be guided and which for heating in the reduction line element ( 10 . 12 ) received reducing agent with the reduction line element ( 10 . 12 ) is at least partially thermally coupled, characterized in that one of the separately formed line elements ( 10 . 12 ) substantially helically around an outer peripheral side surface ( 22 ) of the other conduit element ( 20 ). Dosing device according to claim 6, characterized in that the one line element ( 10 . 12 ) via its outer peripheral side surface ( 24 . 26 ) the outer peripheral side surface ( 22 ) of the other conduit element ( 20 ) contacted. Dosing device according to one of claims 6 or 7, characterized in that the one line element ( 10 . 12 ) the reduction line element ( 10 . 12 ) and the other conduit element ( 20 ) the cooling line element ( 20 ).

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