DE102009025226A1 - System for injecting urea solution on exhaust line of internal combustion engine, has reservoir for urea, and has nozzle that is injected in exhaust line - Google Patents

Abstract

The system (10) has a reservoir (14) for the urea, and has a nozzle (26) that is injected in an exhaust line (12). An electromagnetic valve (22) is provided for blocking and releasing of a current connection for nozzle. A circulating line (16) is provided for the magnetic valve. A control unit (30) is provided for controlling the electro-magnetic valve.

Description

The The invention relates to a system for the injection of urea solution in an exhaust line of an internal combustion engine with a storage tank for the urea solution and at least one in the exhaust line injecting nozzle.

The Injecting urea into the exhaust tract of internal combustion engines, especially diesel engines, is known. The nitrogen oxide content at Exhaust gas of an internal combustion engine can be replaced by a selective catalytic Reduction (SCR) can be reduced. For this purpose, the exhaust gas is an immediate reducing substance such as ammonia or a precursor supplied, releases the first in the exhaust reducing substances. As an intermediate product a urea-water solution is used. A suitable one For example, precursor is available under the name AdBlue.

From the German patent application DE 103 24 482 A1 a device for metering a urea-water solution in the exhaust gas of an internal combustion engine is known.

Problematic in known systems for the injection of urea solution in exhaust pipes is that the system does not get too warm allowed to crystallize the dissolved urea too avoid. Further, fuel injectors are used the nozzle opening while open and can be closed, the mechanism but sensitive to clogging and damage when freezing the urea solution can.

With The invention is an improved system for injection of urea solution in an exhaust line of an internal combustion engine be created.

According to the invention For this a system for the injection of urea solution in an exhaust line of an internal combustion engine with a storage tank for the urea solution and at least one in provided the exhaust line injecting nozzle, in which a electromagnetic valve for optional shut-off and release a flow connection to the nozzle, a circulation line from the storage tank to the electromagnetic valve and back to the Storage tank and a control unit for controlling the electromagnetic Valve is provided.

The Providing a nozzle and one separate from the nozzle electromagnetic valve initially offers the possibility depending on the intended application, a nozzle with optimal Drop spectrum to use, so for example a drop spectrum, that for the most part drops a uniform, contains predefined size. By a Volume flow in the circulation line much larger is held as a means of the nozzle in the exhaust system Intake volume flow can be at the nozzle created essentially constant pressure conditions become. This will ensure that from the nozzle generated droplet spectrum over various operating conditions remains essentially constant. In addition, the functional has Separation of electromagnetic valve and nozzle the advantage that the risk of damaging the nozzle when Freezing the urea solution is much lower, since the nozzle itself has no moving mechanical parts got to. The solenoid valve may be formed, for example, as a so-called. Poppet valve be, in which one, a shut-off occlusive or releasing plate electromagnetically moved and / or deformed becomes. Electromagnetic valves can be insensitive to the Freezing of fluid can be formed within the valve. The For example, the nozzle itself can be self-draining or be designed to be suitable in any other way, so that no Damage when freezing the urea solution to be feared. The functional separation of nozzle and electromagnetic valve therefore allows the inventive System insensitive and at the same time a more even and optimal injection for the intended application to provide the urea solution. The functional separation of nozzle and electromagnetic valve closes not mind that nozzle and electromagnetic valve combined in one unit. As stated, is inventively but provided that the Nozzle itself has no moving, mechanical parts, the for opening and closing the Nozzle openings are provided but that one provided upstream of the nozzle passage opening of the electromagnetic valve opened or closed becomes.

By providing a circulation line and an electromagnetic valve for selectively shutting off and releasing a flow connection to the nozzle, the urea solution can be kept permanently in circulation during the operation of the system according to the invention. This prevents a part of the urea solution located in the region of the nozzle, that is also in the immediate vicinity of the exhaust line, from overheating. It is inventively provided that during operation of the system, the volume flow in the circulation line is substantially larger than the flow flowing to the nozzle volume flow. In this way it can be ensured that a sufficient cooling of the urea solution and the nozzle is given regardless of the operating state of the system. The urea solution present in the circulation line can also be used to the nozzle itself and / or the electromagnetic Cool the valve. By providing an electromagnetic valve and a control unit for the control of the electromagnetic valve, an extremely precise metering of the urea solution can be made. A decisive advantage is that the electromagnetic valve does not necessarily have to be integrated in the nozzle and thereby the nozzle itself, which is indeed arranged directly on the exhaust line, without moving parts, such as needle valves or the like. can get along. The electromagnetic valve itself can thereby be arranged a distance away from the exhaust line, so that too high temperatures at the electromagnetic valve itself are to be feared. In addition, it may be provided to cool the electromagnetic valve or only the solenoid by means of the circulation line. The nozzle itself has - as mentioned - no moving parts and can also have large free flow cross-sections to keep the risk of clogging low.

In Further development of the invention is the nozzle as axial hollow cone nozzle educated.

through An axial hollow cone nozzle can be a very fine distribution the injected urea solution can be achieved. Especially the droplet sizes generated by an axial hollow cone nozzle For one thing, they are small and it can also be ensured that the generated drop sizes within a tight limited area.

In Further development of the invention form the electromagnetic valve and the nozzle is a component passing through a portion of the circulation conduit is.

On this way, both the nozzle and the electromagnetic valve by means of the circulation line flowing urea solution effectively cooled become. By appropriate dimensioning of the circulation line and the volume flow within the circulation line can thereby an inadmissibly high heating of the nozzle and of the electromagnetic valve can be prevented. In this way the crystallization of the urea can be prevented. One large volume flow in the circulation line, which in Compared to the injected volume flow considerably larger In addition, it also allows the nozzle regardless of the operating state with a constant fluid pressure to act on and thereby generated by the nozzle ensure constant drop spectrum.

In Further development of the invention is the nozzle under intermediate joints a holding plate with at least two layers held on the exhaust line.

through a holding plate with at least two layers is a thermal Decoupling between the exhaust line and nozzle allows. The heat input from the exhaust line into the nozzle can be reduced. It may be beyond that be provided that the nozzle in an example frusto-conical and in the direction of the exhaust line opening hollow body sprayed, which projects into the exhaust line and prevents that the nozzle is directly streamed by the hot exhaust gases becomes.

In Further development of the invention are the electromagnetic valve and the nozzle mounted in a holding device, which is located on the exhaust line is arranged, which is composed of several material layers and the by means of recesses in the material layers a section of the circulation pipe provides.

through a holding device of several layers can on the one hand a heat transfer from the exhaust line to the nozzle and / or the electromagnetic Valve and the circulation line can be effectively reduced. In addition, by means of recesses in individual material layers fluid channels in the holding device then define a section of the circulation pipe form. The line sections can be kept short be as between holding device and electromagnetic valve or nozzle no line couplings or the like. required are. Rather, the nozzle and / or the electromagnetic valve inserted into the multi-layer holding device and sealed therein, that the fluid channels in the holding device immediately at corresponding fluid inlets or discharges into the electromagnetic Valve and / or the nozzle ends. For example, the Holding device and the electromagnetic valve and the nozzle permanently connected to a one-piece component.

In Further development of the invention, the control unit controls the electromagnetic Valve by means of a pulse width modulation.

On this way is a precise dosage over one very wide volume flow range easily possible.

In Further development of the invention is a pump in the circulation line provided upstream of the electromagnetic valve.

In Further development of the invention is a cooling device in the circulation line downstream of the electromagnetic Valve provided.

By means of a cooling device or cooling section, the temperature increase of the urea solution, which results from the fact that the circulation tion to the nozzle must be performed directly on the exhaust line, be discharged to the environment. Depending on the application, the circulation line itself can serve as a cooling section or it can be provided in the circulation line inserted heat exchanger.

Further Features and advantages of the invention will become apparent from the following Description of preferred embodiments of the invention. Individual features of the different embodiments can be combined in any way. In show the drawings:

1 the schematic representation of a system according to the invention a first embodiment for the injection of urea solution in an exhaust line of an internal combustion engine and

2 a schematic and sectional representation of a system according to the invention a second embodiment.

In 1 is a system according to the invention 10 for the injection of urea solution into an exhaust system 12 an internal combustion engine, not shown. The system has a storage tank 14 in which the urea solution is kept. A circulation pipe 16 leads from the storage tank 14 out to a pump 18 and to a stub line 20 leading to a valve 22 leads, by means of an electromagnet 24 is pressed. Starting from the valve 22 leads the stub line 20 then to an axial hollow cone nozzle 26 in the exhaust system 12 protrudes into it. From the axial hollow cone nozzle 26 Outgoing spray jets are indicated by dashed lines in the illustration of the figure. The circulation line leads to the electromagnet 24 , so that it is constantly flushed by the volume flow in the circulation line and thereby cooled. The circulation pipe 16 leads again to a cooling device 28 at which the temperature increase of the urea solution is released to the environment. Downstream of the cooling device 28 for the circulation line 16 back into the storage tank 14 ,

In operation, the urea solution is passed through the axial hollow cone nozzle 26 finely distributed and in the exhaust stream in the exhaust system 12 injected. The introduction of minimal volume flows, as required for the injection into the exhaust gas stream of internal combustion engines, is achieved by a pulse width modulated control of the electromagnet 24 and the valve 22 existing electromagnetic valve achieved. The pulse width modulated control takes place by means of a control unit 20 , In a manner not shown receives the control unit 30 Information about the operating condition of the internal combustion engine, thereby einzudösen a adapted to the operating condition amount of urea solution. The control of the volume flow through the stub line 20 and the axial hollow cone nozzle 26 takes place exclusively via the clocking of the electromagnetic valve 22 . 24 , The clocking is done by controlling the electromagnet 24 , The electromagnet 24 is constantly flushed by the urea solution and thereby cooled. In the circulation line 16 is the urea solution from the pump 18 permanently pumped in a circle, the volume flow passing through the axial hollow cone nozzle 26 flows, in relation to in the circulation pipe 16 flowing volume flow is much lower. So can the pressure in the circulation pipe 16 be kept approximately constant, so that in the stub 20 and at the axial hollow cone nozzle 26 constant conditions, in particular a constant pressure, prevail. In this way, with the axial hollow cone nozzle 26 a very precise dosage made and a small, consistent drop size can be achieved because the nozzle 26 always subjected to the same fluid pressure.

It may be provided in the context of the invention, the stub 20 very short to execute or omit so that the valve 22 , the axial hollow cone nozzle 26 and the electromagnet 24 essentially a structural and of the volume flow in the circulation line 16 flow through unit.

The schematic representation of 2 schematically shows a portion of another system according to the invention for the injection of urea in an exhaust line of an internal combustion engine according to a second embodiment. An exhaust system is schematically again with the reference numeral 12 designated. On the wall of the exhaust line is by means of two fastening bolts 32 a holding device 34 fastened, in which a component 36 , consisting of an axial hollow cone nozzle 26 , a valve 22 and an electromagnet 24 is arranged. The exhaust system 12 is below the nozzle 26 with a frustoconically widening pipe section 38 provided, which projects into an exhaust system. In this pipe section 38 injects the axial hollow cone nozzle 26 one and the pipe section 38 ensures that the nozzle 26 not directly from the hot exhaust gas flow in the exhaust system 12 is charged. The holding device 34 is with a two-layer holding plate 40 provided that the nozzle 26 surrounds and these in an opening 42 stops in the exhaust system 12 is provided and the one passage in the interior of the pipe section 38 opens. A first layer of the bivalve retaining plate 40 lies on the wall of the exhaust line 12 on and a second layer is supported on the rest of the holding device. Between the two layers of the retaining plate 40 is in that, the nozzle 26 surrounding area provided an air gap. This allows the nozzle 26 thermally decoupled from the exhaust system 12 to be ordered. A first sealing ring 44 is between nozzle 26 and holding device 34 arranged to nozzle 26 and holding device 34 seal against each other.

The holding device 34 exists next to the retaining plate 40 from further material layers and also has a cooling plate 46 on, which forms a position of the holding device and, moreover, still in contact with the ambient air in contact areas to heat from the holding device 34 derive. A top, the exhaust system 12 remote location 48 the holding device 34 is with two through holes and with the respective through hole aligned threaded connector 50 Mistake. On these threaded connectors 50 can fluid lines 52 . 54 be screwed, then the urea solution from the pump to the holding device 34 and from the holding device 34 lead to the cooling device or back to the storage tank. The material situation 48 the holding device 34 is provided with a further passage opening to the component 36 consisting of nozzle 26 , Valve 22 and electromagnet 24 , into the holding device 34 and between this component and the material layer 48 is a second sealing ring 56 intended. One in the direction of the exhaust system 12 on the first material situation 48 following second material situation 58 is provided with recesses to two of the fluid lines 52 . 54 into the component 36 to form leading fluid channels. These fluid channels end directly on the component 36 , which also has an inlet and an outlet opening for the urea solution at this point. Urea solution can thus be removed from the fluid line 54 , which belongs to the circulation line, in the holding device 34 enter, flows through the valve 22 , leaves the component 36 back into the fixture 34 into it and then leaves it again via the fluid line 52 , which is also part of the circulation line.

It is readily apparent that the entire fluid flow in the circulation line through the component 36 and especially the valve 22 runs and the component 36 thereby effectively cooling. In addition, the fluid flow in the circulation line also passes through sections of the holding device 34 , so that this is also cooled with and thereby heat transfer from the exhaust system 12 on the holding device 34 and the component 36 consisting of nozzle 26 , Valve 22 and electromagnet 24 , effectively prevented. Even under full load of an internal combustion engine can be prevented that the component 36 or the urea solution contained therein is so hot that it crystallizes.

On the material situation 58 follows the cooling plate 46 and continue towards the exhaust system 12 to a third material situation 60 , At the material situation 60 is the first sealing ring 44 arranged, with its inside again at the nozzle 26 is applied. Between the third material situation 60 and the exhaust system 12 is then, as mentioned, still the holding plate 40 as well as next to the retaining plate 40 an intermediate layer 62 in the area of the bolt 32 arranged.

It is based on the representation of 2 good to recognize that the valve 22 and the nozzle 26 are constructed as separate and functionally separate elements that nevertheless in the component 36 are combined into one unit. The nozzle 26 must be due to the functional separation from the valve 22 have no mechanically moving parts, so that they can be made insensitive to a freezing of the urea solution on the one hand and beyond that can also be self-emptying. For example, the nozzle empties 26 when the valve is closed 22 automatically into the exhaust system 12 into it, so that no urea solution in the nozzle when the system is at rest 26 is more and can freeze. Also, it is possible by the nozzle 26 insensitive to constipation and designed so that it produces an optimum droplet spectrum for the intended application. This represents, for example fuel injection valves whose nozzle openings are then opened or closed with a needle, a significant advantage in terms of the generated droplet spectrum.

The valve 22 may be formed, for example, as a so-called. Poppet valve, wherein a plate one to the nozzle 26 opens or closes leading fluid opening. To release or close this opening, the plate by means of the electromagnet 24 moved and / or deformed. Such a poppet valve can be against freezing of the urea solution in the valve 22 be made insensitive. Should the urea solution in the valve 22 actually freeze, so the resulting increase in volume can be absorbed by a deformation of the plate.

In the unit 36 is the electromagnet 24 furthest away from the hot exhaust system 12 arranged. The electromagnet can be kept comparatively cool, so that no malfunction due to high operating temperature of the electromagnet 24 to be feared.

To avoid damaging the system by freezing the urea solution, means may also be provided, for example, around the circulation line 16 and / or the nozzle 26 and the valve 22 to empty at rest, for example by the urea solution from the circulation line 16 is conveyed back into the storage tank by means of compressed air or vacuum.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 10324482 A1 [0003]

Claims (9)

System for injecting urea solution into an exhaust line ( 12 ) of an internal combustion engine, with a storage tank ( 14 ) for the urea solution, at least one in the exhaust line ( 12 ) injecting nozzle ( 26 ), an electromagnetic valve for selectively shutting off and releasing a flow connection to the nozzle ( 26 ), a circulation line ( 16 ) from the storage tank ( 14 ) to the solenoid valve ( 22 . 24 ) and back to the storage tank ( 14 ) and a control unit ( 30 ) for controlling the electromagnetic valve ( 22 . 24 ). System according to claim 1, characterized in that the nozzle ( 26 ) is designed as axial hollow cone nozzle. System according to claim 1 or 2, characterized in that the electromagnetic valve ( 22 . 24 ) and the nozzle ( 26 ) a component ( 36 ) formed by a section of the circulation line ( 16 ) is interspersed. System according to one of the preceding claims, characterized in that the nozzle ( 26 ) with intermediate joints of a retaining plate ( 40 ) with at least two layers thermally decoupled at the exhaust line ( 12 ). System according to one of the preceding claims, characterized in that the electromagnetic valve ( 22 . 24 ) and the nozzle ( 26 ) in a holding device ( 34 ) are attached, which at the exhaust line ( 12 ) is arranged, which is composed of several layers of material and by means of recesses in the material layers a portion of the circulation line ( 16 ). System according to one of the preceding claims, characterized in that in one operation of the system the volume flow in the circulation line ( 16 ) is much larger than one of the nozzle ( 26 ) in the exhaust line ( 12 ) injected volume flow. System according to one of the preceding claims, characterized in that the control unit ( 30 ) the electromagnetic valve ( 22 . 24 ) by means of a pulse width modulation. System according to one of the preceding claims, characterized in that a pump ( 18 ) in the circulation line ( 16 ) upstream of the electromagnetic valve ( 22 . 24 ) is provided. System according to one of the preceding claims, characterized in that a cooling device ( 28 ) in the circulation line ( 16 ) downstream of the electromagnetic valve ( 22 . 24 ) is provided.