DE102016216366A1 - Dosing system for exhaust aftertreatment of an internal combustion engine - Google Patents

Abstract

The invention relates to a metering system (1) for exhaust aftertreatment of an internal combustion engine, in particular of a motor vehicle, with a tank (4) for storing a liquid exhaust aftertreatment agent, with a metering valve (2) for injecting the exhaust aftertreatment agent in the exhaust gas of the internal combustion engine, with a conveyor (5 ) which delivers the exhaust aftertreatment agent gas-free from the tank (4) to the metering valve (2) through at least one conduit (8), and means for freeing at least the conduit (8, 11) and the metering valve (2) from the exhaust aftertreatment agent. It is provided that the means comprise at least one actuatable / controllable valve (14) through which the line (8, 7) is connected to a source of compressed air to the exhaust aftertreatment agent from the line (7, 8, 11) and the Blow out metering valve (2).

Description

The invention relates to a metering system for exhaust aftertreatment of an internal combustion engine, in particular of a motor vehicle, with a tank for receiving a liquid exhaust aftertreatment agent, with a metering valve for injecting the exhaust aftertreatment agent into the exhaust gas of the internal combustion engine, with a conveyor which gas-free the exhaust aftertreatment agent from the tank to the metering valve through at least one conduit, and with means for freeing the at least one conduit and the metering valve from the liquid exhaust aftertreatment agent.

State of the art

Dosing systems of the type mentioned are known. For example, the published patent application DE 10 2004 054 238 A1 a metering system of the generic type. For injecting a liquid exhaust gas aftertreatment agent, in particular an aqueous urea solution, into the exhaust gas of the internal combustion engine, a metering valve is assigned to an exhaust gas tract of the internal combustion engine. The exhaust gas aftertreatment agent to be injected is supplied to the metering valve through a line by means of a feed pump, wherein the exhaust gas aftertreatment agent is taken from a tank which is connected to the suction side of the feed pump.

The problem is that, depending on the urea concentration in the exhaust aftertreatment agent, the risk of freezing of the exhaust aftertreatment agent at certain temperatures, which can lead to damage of the metering system due to icing occurring. In order to avoid this, it is suggested in the aforementioned document that when the metering system is switched off, the liquid still in the line is removed in the opposite direction to a normal operating conveying direction, for which purpose the conveyor is operated backwards, for example, to return the exhaust gas aftertreatment agent to the tank suck.

Disclosure of the invention

The metering system according to the invention with the features of claim 1 has the advantage that the means comprise at least one actuatable / controllable valve, through which the line with a compressed air generator or storage is connectable to blow out the exhaust aftertreatment agent. While the exhaust gas aftertreatment agent is supplied to the metering valve in a gas-free manner during normal conveying operation, it is provided for emptying the metering system or for freeing the metering system or at least the line from the liquid exhaust gas aftertreatment means that this is blown out by means of a gas, in particular ambient air. According to the invention it is provided that the means comprise at least one operable or controllable valve, through which the line is connected to a compressed air source to blow out the exhaust aftertreatment agent from the line and the metering valve, if necessary. Thus, compressed air is used to at least partially remove the exhaust aftertreatment agent from the system and replace it with gas, especially air. As a result, the Eisdruckfähigkeit the metering system is increased and residues of the exhaust aftertreatment agent and also of exhaust gas, which could crystallize or lead to other deposits, such as soot, avoided in the metering valve and in the line. In particular, the valve is designed or arranged such that it directs the compressed air flow in the direction of the metering valve into the metering system or into the line, so that the exhaust gas aftertreatment agent is blown back into the tank through the metering valve or through a return line connected to the metering valve. The fact that the valve can be controlled or actuated, it can be opened at any time when needed. For this purpose, it is preferably designed either as a pressure-controlled valve or as an electromagnetically operable valve.

According to a preferred embodiment of the invention it is provided that the compressed air source is designed as a compressed air generator and / or as a compressed air reservoir. The compressed air source can be part of the metering system itself, or else part of the motor vehicle having the metering system. In any case, it ensures that compressed air is available to blow out the line and metering valve.

According to a preferred embodiment of the invention it is provided that the valve is arranged to upstream or downstream of the conveyor. If the valve is arranged upstream of the conveying device, that is to say associated with the suction side of the conveying device, in particular a conveying pump of the conveying device, not only the line and the metering valve but also the conveying device itself are freed from the liquid exhaust gas aftertreatment agent by the compressed air. If the valve downstream of the conveyor, so the pressure side, provided in the metering, so at least the portion between the valve and metering valve is emptied.

Furthermore, it is preferably provided that the valve is connected between the conveyor and the tank to the conveyor in a first switching position with the tank and in a second switching position for blowing out the To connect conveyor as compressed air generator with ambient air. Thus, the conveyor itself is used as a compressed air generator. In normal operation, the valve connects the conveyor to the tank, so that the conveyor sucks the exhaust aftertreatment agent. In Ausspülbetrieb the valve, however, connects the conveyor suction side with ambient air, so that air sucked and at least driven into the line and the metering valve to expel the exhaust aftertreatment agent. As a result, a particularly compact embodiment of the metering system is possible.

Furthermore, it is preferably provided that the metering system has a separate from the conveyor pressure generator, which is designed in particular as a compressor, air pump or compressor, and if necessary, the compressed air is available. In particular, it is provided that the pressure generator is driven by an electric motor, so that at any time the desired compressed air flow is adjustable.

According to a preferred development of the invention, it is provided that a return line leads from the metering valve to the tank, through which the exhaust gas aftertreatment agent can be blown into the tank. Thus, the blown exhaust aftertreatment agent, for example, not introduced into the exhaust system, but returned to the tank so that it can be reused at a later time and no unnecessary consumption.

Preferably, the dosing of the exhaust aftertreatment means for cooling is flowed through. For this purpose, the return line is provided in particular. In normal conveying mode, in particular when the metering valve does not supply exhaust gas aftertreatment agent to the exhaust gas, the exhaust gas aftertreatment agent is thus conveyed from the tank through the delivery device into the metering valve and from the metering valve via the return line back to the tank, resulting in cooling of the metering valve which increases the life of the metering valve and prevents the formation of crystals in the sensitive areas of the metering valve. In particular, the metering valve is designed as a controllable metering valve, for example as an electromagnetic metering valve, which releases a valve opening if required in order to supply the exhaust gas aftertreatment agent to the exhaust gas. Alternatively, the metering valve is designed as a pressure-controlled metering valve which then supplies exhaust gas aftertreatment agent to the exhaust gas when the hydraulic pressure exerted by the exhaust gas aftertreatment agent on the metering valve exceeds a predefinable limit value. In order to regulate the pressure, in particular a pressure control valve of the conveyor is connected downstream or the conveyor is controlled such that the hydraulic pressure generated by it can be varied.

According to a preferred development of the invention, it is provided that the metering valve has at least one cooling water channel and / or cooling water jacket, which is / can be connected to a cooling system of the motor vehicle. Thus, the metering valve can be flowed through by a cooling water, whereby an additional cooling of the metering valve takes place. In particular, a post-cooling of the metering valve can thus still take place even if the exhaust aftertreatment agent has already been removed from the line and the metering valve. In particular, it is provided that the cooling water channel or the cooling water jacket is formed coaxially with a delivery channel for the exhaust aftertreatment agent in the metering valve. Preferably, either the cooling water jacket surrounds the conveying channel or the conveying channel surrounds the cooling water jacket.

In the following, the invention will be discussed with reference to the drawing. Show this

1 A first embodiment of an advantageous dosing system,

2 A second embodiment of the dosing system,

3 A third embodiment of the dosing system, each in a simplified representation,

4 a first embodiment of an advantageous metering valve of the dosing and

5 A second embodiment of the metering valve, each in a simplified sectional view.

1 shows in a simplified representation of a dosing system 1 for an exhaust gas aftertreatment of an internal combustion engine of a motor vehicle. The dosing system 1 has a metering valve 2 on, that's an exhaust tract 3 , in particular an exhaust pipe of the internal combustion engine, upstream of a catalyst is associated to inject liquid exhaust aftertreatment agent in the exhaust gas flowing through the exhaust pipe of the internal combustion engine.

This is indicated by the dosing system 1 also a tank 4 in which the liquid exhaust aftertreatment agent, in particular an aqueous urea solution, can be stored. A conveyor 5 has a feed pump 6 on the suction side through a suction line 7 with the tank 4 is connected to suck in the exhaust aftertreatment therein, if necessary. The pressure side is the feed pump 6 with a pressure line 8th connected by which the sucked exhaust aftertreatment agent to the metering valve 2 to be led. In the pressure line 8th can optionally have a filter 9 be arranged to avoid, for example, solid particles in the metering valve 2 could get there and disturb a sensitive mechanism. In addition, according to the present embodiment, the filter is 9 a pressure sensor 10 downstream, by means of which the functionality of the dosing 1 can be monitored.

From the metering valve 2 also carries a return line 11 to the tank 4 , wherein in the return line 11 in particular a check valve 12 is arranged, which is in the direction of the tank 4 opens and in the direction of the metering valve 2 closes, allowing a return of exhaust aftertreatment agent from the tank 4 through the return line 11 in the metering valve 2 is prevented. In addition, the return valve 12 a throttle 13 upstream. By choke 13 and check valve 12 ensures that in the metering valve 2 by means of the conveyor 5 a sufficiently high pressure can be generated, which is for injecting the exhaust gas aftertreatment agent into the exhaust gas tract 3 is needed. The metering valve 2 can itself as a pressure-controlled metering valve or as an actuatable, for example electromagnetic metering valve 2 be educated. Is the metering valve 2 closed or by the conveyor 5 provided hydraulic pressure insufficient high to the metering valve 2 open, so the funded exhaust aftertreatment agent through the return line 11 back to the tank 4 promoted. Will the metering valve 2 actuated or the pressure increased so that it opens automatically, so there is an injection of the exhaust aftertreatment agent in the exhaust system 3 , The conveyor 5 is particularly driven to constantly promote the exhaust aftertreatment agent during operation, so it in a circuit of the conveyor 5 to the metering valve 2 and the tank 4 is encouraged. This ensures that the metering valve 2 is cooled during operation by the exhaust aftertreatment agent conveyed therethrough.

In normal conveying mode promotes the conveyor 5 the exhaust aftertreatment agent gas-free to the metering valve 2 , To the exhaust aftertreatment agent from the lines 8th . 11 as well as from the dosing valve 2 to remove the ice pressure safety of the dosing system 1 to ensure the dosing system 1 Means on which a flushing of the exhaust aftertreatment agent from the lines 8th and 11 as well as from the dosing valve 2 enable. These means have a controllable valve 14 on, which is designed in particular as an electromagnetic valve and has at least two switching positions. The valve 14 is on the one hand with the pressure line 8th , especially between filters 9 and conveyor 5 , and on the other hand with a compressed air generator 15 and / or connected to a compressed air reservoir, which constitute a source of compressed air. In the present embodiment, the air pressure generator is a compressed air pump, a compressor or a compressor, which can be controlled as needed to generate compressed air and the valve 14 supply. Also, it may be at the compressed air generator 15 to a compressed air system of the motor vehicle, such as the internal combustion engine, act, so anyway in the vehicle existing compressed air for the dosing 1 if necessary also used.

In a first switching position, the valve separates 14 the connection between the pressure line 8th and the compressed air generator 15 , so that the gas-free transport of the exhaust aftertreatment agent through the conveyor 5 is guaranteed. In the second switching position, the valve connects 14 the compressed air generator 15 with the pressure line 8th , so that the compressed air in the pressure line 8th flows in and the exhaust aftertreatment there located through the pressure line 8th , the dosing valve 2 and the return line 11 in the tank 4 promotes, so the line 8th and the metering valve 2 at least partially the line 11 from the exhaust aftertreatment agent 2 be freed or emptied.

While a gas-free transport of the exhaust gas aftertreatment agent thus takes place in the normal delivery mode, it is provided for the rinsing out process that the exhaust gas aftertreatment agent is removed from the relevant sections of the dosing system by compressed air 1 Will get removed. Is no return line 11 If present, the remaining exhaust aftertreatment agent could also drive directly to the exhaust tract 3 through the metering valve 2 be encouraged.

While according to the present embodiment, the valve 14 with the pressure line 8th between filters 9 and conveyor 5 is connected, is provided according to an alternative embodiment that the valve 14 with the pressure line 8th downstream of the filter 9 , for example, at the level of the pressure sensor 10 , is connected as shown by a dashed first line. This will make the filter 9 bypassed and the rinsing of the exhaust aftertreatment agent simplified.

According to a further embodiment it is provided that the valve 14 with the suction line 7 and thus upstream of the conveyor 5 is connected as shown by a second dashed line. In this case, the compressed air is upstream of the conveyor 5 or the feed pump 6 into the dosing system 1 introduced, so that also the feed pump 6 flows through the compressed air and thus of the Exhaust gas after-treatment agent is released. This ensures that the feed pump 6 ice pressure resistant. Thus, in this embodiment, the greatest possible security for the dosing 1 offered. So that the compressed air is not in the tank 4 directly through the suction line 7 escapes, is preferably between tank 4 and the confluence point of the compressed air provided a further check valve, which prevents the compressed air in the tank 4 arrives.

The alternative connection of the valve 14 with the pressure line 8th downstream of the filter 9 has the advantage that after switching off the metering valve 1 Thus, after it has been substantially freed from the exhaust aftertreatment agent, it can be put back into operation particularly quickly, because pump 6 and filters 9 do not have to be flushed with exhaust aftertreatment agent.

2 shows a second embodiment of the dosing 1 , being out 1 already known elements are provided with the same reference numerals and insofar reference is made to the above description. In the following, essentially only the differences will be discussed.

In contrast to the previous embodiment, it is now provided that the valve 14 between the conveyor 6 and the tank 7 and thus in the suction line 7 is arranged to in the first switching position, the conveyor 14 with the tank and in the second switching position with the environment 16 or ambient air to connect. Thus, the conveyor acts 5 or the delivery pump 6 even as a compressed air generator 15 when the valve 14 is switched such that it is the suction side of the feed pump 6 connects with the ambient air. Then the suction pump sucks instead of the exhaust aftertreatment agent from the tank 4 Ambient air and promotes these through the pressure line 8th , the dosing valve 2 and optionally the return line 11 to the tank, eliminating the pipes and the metering valve 2 be advantageously freed from the exhaust aftertreatment agent.

3 shows a third embodiment of the dosing in a simplified representation, wherein from the preceding embodiments already known elements are provided with the same reference numerals and in so far as the above description is referenced. In the following, essentially only the differences will be discussed.

In contrast to the embodiment of 1 is provided that the compressed air generator 15 directly into the pressure line 8th between conveyor 6 and filters 9 empties. Between the compressed air generator 15 and the pressure line 8th is the valve 14 arranged in the form of a check valve, which prevents that from the conveyor 5 promoted exhaust aftertreatment the compressed air generator 15 is supplied. Only then, when the compressed air generator 15 generates a sufficiently high air pressure, for example as a compressor, compressor or air pump, opens the check valve in the direction of the pressure line 8th so that the compressed air pipes 8th and 11 as well as the dosing valve 2 can rinse off.

4 shows an advantageous embodiment of the metering valve 2 in a simplified longitudinal view. As previously mentioned, the metering valve 2 in the normal conveying operation continuously flushed with the exhaust gas aftertreatment agent, so that it is cooled by this. For this purpose, the metering valve 2 in particular a conveyor channel 17 on, passing through the dosing valve 2 , in particular its housing, extending therethrough such that large parts of the metering valve 2 be lapped by the exhaust aftertreatment agent. The conveyor channel 17 , which may be formed, for example, as a cylindrical conveying jacket, has at least one connection 18 to the valve opening 19 through which the exhaust aftertreatment agent is ultimately injected as needed by the metering valve 2 either actively activated or opened by increasing the delivery pressure. For this required facilities / elements are not shown in favor of improved clarity.

Advantageously, the metering valve 2 also at least one cooling water channel 20 in the present case is formed in the manner of a water jacket. The cooling water channel is through an inlet 21 and a process 22 with a cooling system, not shown here in particular of the internal combustion engine, from which also the nachzubehandelnde exhaust, connected. The cooling water channel 20 is flowed through by the cooling water of the cooling system during operation, so that additional cooling of the metering valve 2 he follows. According to the embodiment of 4 is provided that the cooling water jacket 20 radially inside the cooling water jacket 17 lies.

According to an alternative embodiment, as in 5 shown are cooling water jacket 20 and conveyor channel 17 reversed trained, so the cooling water jacket 20 the conveyor channel 17 surrounds. Conveniently, the two channels are arranged coaxially with each other, as in the 4 and 5 shown.

The advantageous embodiment of the metering valve 2 causes the metering valve 2 even then can be cooled if after the rinsing process, the exhaust aftertreatment agent was removed from the respective channels. There is thus a post-cooling of the metering valve 2 by means of the cooling water, whereby the heat remaining in the exhaust tract is prevented from leaving residues of exhaust aftertreatment agent in the metering valve 2 can heat so that they crystallize.

Advantageously, the channels are in the metering valve 2 cascaded, so that the one channel encapsulates or surrounds the other, resulting in advantageous cooling conditions. The at the metering valve 2 Exhaust aftertreatment agent volume also acts as a pressure damper, allowing for reduced pressure oscillations and improvements in injection tolerance. The advantageous embodiment ensures that the permitted temperatures in the metering valve 2 be respected.

Advantageously, a control device is provided, which controls the flushing process such that initially the metering valve 2 closed and the exhaust aftertreatment agent from the pressure line and the metering valve 2 through the return line 11 in the tank 4 and / or in the return line 11 is promoted, so freezing damage and valve sticking especially on the metering valve 2 be avoided. Subsequently, the metering valve 2 preferably briefly opened and blown out. Only then is also preferred the return line 11 by closing and compressed air delivery into the tank 4 at least partially emptied or blown out by means of the compressed air. By means of the pressure sensor 10 the process is easy to monitor. In contrast to previous solutions, in which the exhaust aftertreatment agent was sucked back, the rinsing by the advantageous metering 1 be done faster.

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 102004054238 A1 [0002]

Claims (8)

Dosing system ( 1 ) for an exhaust aftertreatment of an internal combustion engine, in particular of a motor vehicle, with a tank ( 4 ) for storing a liquid exhaust aftertreatment agent, with a metering valve ( 2 ) for injecting the exhaust gas aftertreatment agent in exhaust gas of the internal combustion engine, with a conveyor ( 5 ), the exhaust aftertreatment agent from the tank ( 4 ) to the metering valve ( 2 ) by at least one line ( 8th ) promotes gas-free, and with means for freeing at least the line ( 8th . 11 ) and the metering valve ( 2 ) of the exhaust aftertreatment agent, characterized in that the means at least one actuatable / controllable valve ( 14 ), through which the line ( 8th . 7 ) is connected to a source of compressed air to, if necessary, the exhaust aftertreatment agent from the line ( 7 . 8th . 11 ) and the metering valve ( 2 ) blow out. Dosing system according to claim 1, characterized in that the compressed air source as a compressed air generator ( 15 ) and / or is designed as a compressed air reservoir. Dosing system according to one of the preceding claims, characterized in that the valve ( 14 ) upstream or downstream of the conveyor ( 5 ) is arranged. Dosing system according to one of the preceding claims, characterized in that the valve ( 2 ) between the conveyor ( 5 ) and the tank ( 4 ) is switched to in a first switching position, the conveyor ( 5 ) with the tank ( 4 ) and in a second switching position, the conveyor ( 5 ) as a compressed air generator ( 15 ) for blowing the exhaust aftertreatment agent with ambient air to connect. Dosing system according to one of the preceding claims, characterized by the pressure generator ( 15 ), which is designed in particular as a compressor, compressor or air pump. Dosing system according to one of the preceding claims, characterized in that of the metering valve ( 2 ) a return line ( 11 ) to the tank ( 4 ) leads, which is at least partially blown with. Dosing system according to one of the preceding claims, characterized in that the metering valve ( 2 ) can be flowed through by the exhaust aftertreatment agent for cooling. Dosing system according to one of the preceding claims, characterized in that the metering valve ( 2 ) at least one cooling water channel ( 20 ) and / or has a cooling water jacket which / is connected / connectable to a cooling water system, in particular the internal combustion engine / are.

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