DE102017210228A1 - Delivery module and injection system for exhaust gas reduction - Google Patents

Abstract

A fluid reduction (6) delivery module (6) of an exhaust system injection system (1) has a pumping device (20) configured to deliver the fluid reduction agent (6) from a reducing agent tank (2) to an injection device (10) , At the output of the pumping device (20), a one-way valve (22) is provided which opens during operation of the pumping device (20) and which prevents a backflow of reducing agent (6) into the pumping device (20) when the pumping device (20 ) is not in operation.

Description

The invention relates to a delivery module, in particular a delivery module of an injection system for exhaust gas reduction, which is designed for conveying a fluid reducing agent from a tank to an injection device arranged on an exhaust line. The invention also relates to an injection system for exhaust gas reduction with such a delivery module.

State of the art

In order to reduce the nitrogen oxides (NO _x ) in the exhaust gases of an internal combustion engine, in particular a diesel engine, a liquid reducing agent, in particular a urea water solution ("AdBlue" ®) is injected into the exhaust tract of the internal combustion engine with the aid of an injection system.

Urea water solution freezes at approx. -11.5 ° C. The injection system is therefore emptied after switching off the internal combustion engine, to prevent the urea water solution freezes at low ambient temperatures in the injection system and damaged or destroyed by the resulting ice pressure components of the injection system.

Disclosure of the invention:

It is an object of the invention to improve the frost resistance of the injection system and, in particular, to prevent reducing agent from passing uncontrolled into already emptied components of the injection system.

According to an embodiment of the invention, a fluid reducing agent delivery module of an exhaust gas reduction system includes a pumping device configured to deliver the reducing agent from a tank (reducing agent tank) to an injection device. Provided at the outlet of the pumping device is a one-way valve, which is designed such that it opens during operation of the pumping device in order to allow the delivery of fluid to the injection device. The one-way valve is also designed to close and in particular prevent backflow of reducing agent into the pumping device when the pumping device is not in operation.

By such a one-way valve is reliably prevented that reducing agent flows back into the pumping device after the delivery module has been deactivated and emptied. Thus, no reducing agent uncontrolled in the delivery module, in particular in the pumping device, get. There is therefore no risk that reducing agent freezes at low ambient temperatures within the delivery module, in particular in the pumping device, thereby causing damage.

In one embodiment, an elastic element, in particular a (spiral) spring is present, which closes the one-way valve. By an elastic element, the one-way valve can be reliably closed. By selecting the elastic member, the opening pressure of the one-way valve can be set to a desired value in a wide range.

In one embodiment, the elastic element is chosen so that the opening pressure of the one-way valve is greater than the maximum tank pressure of the fluid. In this way it is prevented that the one-way valve opens by the tank pressure of the fluid. The one-way valve only opens in such a configuration when the pumping device is in operation.

In one embodiment, the one-way valve has a rubber seal to reliably seal the one-way valve in its closed state.

In one embodiment, the one-way valve is formed at the bottom of the conveyor module. In one embodiment, the one-way valve is welded in particular to the bottom of the conveyor module. On or in the bottom of the conveyor module, the one-way valve can be positioned to save space, without increasing the space of the conveyor module considerably.

In one embodiment, the delivery module has a changeover valve, which makes it possible to reverse the delivery direction of the delivery module. By reversing the conveying direction, the injection system can be emptied by means of the pumping device provided in the delivery module, i. In the injection system remaining reducing agent can be pumped out to prevent damage by freezing reducing agent.

In one embodiment, the delivery module has a return passage that allows reductant delivered by the delivery module, which is not injected from the injection device into the exhaust line, to be returned to the tank.

Embodiments of the invention also include an injection system for injecting a fluid reducing agent into an exhaust line of an internal combustion engine, in particular a diesel engine, with a reducing agent tank, with a delivery module according to an embodiment of the invention and with an injection device. The Injector is attached to the exhaust line and connected to the delivery module to inject from the delivery module promoted reductant into the exhaust line.

In this case, the delivery module can be integrated in particular in the tank, so that no fluid lines between the tank and the delivery module are required to remove the fluid from the tank and / or returned to the tank.

list of figures

• 1 zeigt eine schematische Ansicht einer Einrichtung zum Einspritzen eines in einem Tank gespeicherten Reduktionsmittels in einen Abgasstrang eines Verbrennungsmotors;
• 2 zeigt eine schematische Ansicht eines Fördermoduls gemäß einem Ausführungsbeispiel der Erfindung; und
• 3 zeigt eine Schnittansicht durch einen unteren Bereich eines Fördermoduls, das gemäß einem Ausführungsbeispiel der Erfindung ausgebildet ist.

Embodiments of the invention will be described below with reference to the accompanying drawings.

• 1 shows a schematic view of a device for injecting a stored reductant in a tank in an exhaust line of an internal combustion engine;
• 2 shows a schematic view of a conveyor module according to an embodiment of the invention; and
• 3 shows a sectional view through a lower portion of a conveyor module, which is formed according to an embodiment of the invention.

figure description

1 shows a schematic view of an injection system 1 for injecting one in a tank (reducing agent tank) 2 stored reducing agent 6 (Fluid), in particular an aqueous urea solution ("AdBlue" ®), in an exhaust line 12 an internal combustion engine 14 , in particular a diesel engine 14 ,

When operating the injection system 1 becomes the fluid 6 from a conveyor module 4 inside or outside the tank 2 can be arranged from the tank 2 removed and under increased pressure through a pressure line 8th one directly at the exhaust system 12 positioned injector 10 fed. The injector 10 the fluid splatters 6 in the exhaust system 12 one where it is with the through the exhaust line 12 flowing exhaust gases 16 of the internal combustion engine 14 mixed.

2 shows a schematic view of a conveyor module 4 according to an embodiment of the invention.

The conveyor module 4 includes a pumping device 20 , which is formed by a suction line 7 fluid 6 from the tank 2 and through the pressure line 8th the injector 10 supply.

In the suction line 7 is an inlet filter 5 provided to the pumping device 20 sucked fluid 6 to filter and prevent that with the fluid 6 Dirt particles from the tank 2 into the pumping device 20 reach.

At the outlet of the pumping device 20 is an inventive one-way valve 22 provided, which in the conveying direction of the pumping device 20 opens. In this case, the opening pressure of the one-way valve 22 in particular be chosen so that it is greater than the tank pressure of the fluid 6 is. This has the consequence that the one-way valve 22 for a fluid flow in the conveying direction of the pumping device 20 only opens when the pumping device 20 is in operation.

For a fluid flow in the conveying direction of the pumping device 20 opposite direction closes / blocks the one-way valve 22 , This will be an undesirable reflux of fluid 6 into the pumping device 20 prevents when the pumping device 20 not in operation.

Downstream of the one-way valve 22 becomes the pumped fluid 6 through the pressure line 8th the injector 10 fed.

From the pumping device 20 promoted fluid 6 that is not from the injector 10 needed is through a return line 30 in which a throttle 32 and a return filter 35 are trained back into the tank 2 guided.

One changeover valve (RVV valve) 28 that with the suction line 7 and the pressure line 8th the pumping device 20 is connected, it allows the conveying direction of the conveyor module 4 reverse. By reversing the conveying direction of the conveyor module 4 may after completing the injection operation in the injector 10 and the pressure line 8th remaining fluid 6 back to the tank 2 be promoted to damage by freezing fluid 6 to avoid.

3 shows a sectional view through a lower portion of a conveyor module 4 , which is formed according to an embodiment of the invention.

The pumping device 20 includes a pumping membrane 21 that by an electric motor 23 is moved to the fluid 6 from the tank 2 in the pressure line 8th to pump.

In an inlet of the pumping device 20 is an inlet valve 25 intended.

At the outlet / exit 27 the pumping device is the one-way valve 22 designed to prevent unwanted backflow of fluid 6 into the pumping device 20 to prevent. The one-way valve 22 is by a coil spring 24 closed. The opening pressure of the one-way valve 22 can by choosing the coil spring 24 be set to a desired value.

The one-way valve 22 is closed by a rubber seal 26 sealed.

The pumping device 20 is on a floor plate 3 of the conveyor module 4 arranged.

The one-way valve 22 is space-saving at least partially within the bottom plate 3 educated. The one-way valve 22 can in particular to the bottom plate 3 welded the conveyor module.

Claims (10)

Conveying module (4) for a fluid reducing agent (6) of an injection system (1) for exhaust gas reduction with a pump device (20), which is designed to deliver the fluid reducing agent (6) from a tank (2) to an injection device (10), wherein a one-way valve (22) is provided at the outlet of the pumping device (20) so as to open during operation of the pumping device (20) and to prevent backflow of reducing agent (6) into the pumping device (20) the pumping device (20) is not in operation. Conveyor module (4) according to Claim 1 wherein the one-way valve (22) is closed by an elastic member (24); wherein the elastic element (24) is in particular a spring (24), in particular a spiral spring (24). Conveyor module (4) according to Claim 1 or 2 , wherein the opening pressure of the one-way valve (22) is greater than the resulting from the maximum tank pressure fluid pressure. Conveying module (4) according to one of the preceding claims, wherein the one-way valve (22) has a rubber seal (26). Conveying module (4) according to one of the preceding claims, wherein the one-way valve (22) on the bottom (3) of the conveyor module (4) is formed. Conveyor module (4) according to Claim 5 wherein the one-way valve (22) is welded to the bottom (3) of the conveyor module (4). The conveying module (4) according to one of the preceding claims, wherein the conveying module (4) has a switching valve (28) which makes it possible to reverse the conveying direction of the conveying module (4). Conveying module (4) according to one of the preceding claims, wherein the conveying module (4) has a return (30), which allows conveyed fluid (6), which is not injected from the injection device (10) in the exhaust line (12), attributed to the tank (2). Injection system (1) for injecting a fluid reducing agent (6) into an exhaust gas line (12) of an internal combustion engine (14), in particular of a diesel engine (14) with: a reducing agent tank (2); a conveyor module (4) according to one of the preceding claims; and an injection device (10) attached to the exhaust line (12) and connected to the delivery module (4) for injecting reductant conveyed by the delivery module (4) into the exhaust line (12). Injection system (1) after Claim 9 , wherein the delivery module (4) is integrated in the reducing agent tank (2).

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