DE102006056707B4 - Reductant tank and reducing agent arrangement for filling and / or refilling of reducing agent - Google Patents

Abstract

Reducing agent container for filling and / or refilling of reducing agent for exhaust gas aftertreatment of the exhaust gas of internal combustion engines, in particular motor vehicles, with a filling element, wherein the filling element (13) is associated with a self-closing, inwardly opening valve (14) and wherein the valve (14) a displaceable closure body (18, 27, 35) which consists of or comprises elastic material, characterized in that the closure body (27) is an elastic membrane (28) provided with expansion holes (29), wherein the holes (29) of the membrane (28) in the unloaded state of the membrane (28) are closed due to the elasticity of the membrane (28).

Description

The invention relates to a reducing agent container for filling and / or refilling of reducing agent for exhaust aftertreatment of the exhaust gas of internal combustion engines, in particular of motor vehicles, with a filling element.

State of the art

To reduce the pollutant NO _x contained in the exhaust gas of an internal combustion engine, the so-called SCR process (selective catalytic reduction) is used today, in which the pollutant NO _{x is} reduced to N ₂ and H ₂ O with the aid of liquid reducing agent , The liquid reducing agent is stored in a reducing agent tank and is conveyed by a conveyor via a line from the reducing agent tank to a metering module, which adds a corresponding amount of the reducing agent to the exhaust gas.

Reducing agent containers of the type mentioned are known, but there is still no satisfactory solution for how the reducing agent tank can be filled without causing pollution, such as the vehicle interior of a motor vehicle, by reducing agent and / or escaping gas of the reducing agent. In general, there is a desire to be able to make the filling in principle from outside the vehicle interior, and / or a trunk of the motor vehicle. However, this requires between the reducing agent tank and the filling element of the reducing agent tank, a complex plastic molded part, which is known in principle from the fuel refueling of a motor vehicle, but both cost and time consuming to produce.

The publication DE 100 53 515 A1 shows a reducing agent container for use in a motor vehicle, in particular for the operation of a catalytic converter system. The reducing agent container has a filler element designed as a filling element, to which a self-closing, inwardly opening valve is assigned, which has a displaceable sealing body. The closure body is pressed by a spring in a closed position, so that the closure body rests against a stop side of the valve. DE 102 07 984 A1 discloses a device for exhaust gas purification, which has a pressure vessel and a buffer. The buffer is filled with ammonia, which is supplied to this from the pressure vessel.

Disclosure of the invention

The invention is characterized in that the filling element of the reducing agent tank is associated with a valve, in particular an inwardly opening valve. This prevents that reducing agent can flow out of the reducing agent container unintentionally. If the valve is designed as an inwardly-opening valve, it must be opened against the pressure of the reducing agent which arises due to the dead weight of the reducing agent. In addition, the valve is thereby secured against accidental opening, that the essential elements of the valve do not protrude from the reducing agent tank and / or the filling element to the outside.

According to the invention, the valve is designed as a self-closing valve. Thus, the valve closes automatically after, for example, a filling. As a result, after-running of reducing agent from the reducing agent container is advantageously prevented, so that at most a small amount of reducing agent escapes from the reducing agent container after a filling operation.

Preferably, the filling element of the reducing agent tank is a filler neck, that is to say a substantially tubular element which protrudes from the reducing agent tank and thus permits targeted filling. The filler greatly facilitates a user's use of the reducing agent container or the filling.

According to a development of the invention, the valve has a displaceable closure body. Thus, a closure body is provided which is moved by displacing the closure body, in particular inwards, ie in the direction of the reducing agent container, in order to open the valve.

Advantageously, the closure body is spring-loaded towards the closed position, that is, the closure body is held by spring force in its closed position, so that a force against the spring force must act on the closure body to move it from the closed position, and to open the valve. Advantageously, the closure body is designed as a spherical closure body, which is pressed in the closed position by the spring force against a corresponding valve seat. Of course, any other shapes for the closure body are conceivable, it is important that the closure body is pressed into a corresponding valve seat, which ensures a tight closure of the reducing agent tank.

According to the invention the closure body made of elastic material or has this. As a result, the closure body itself can apply the spring force, which keeps it in the closed position. In this case, the closure body is at least partially deformed or displaced purely elastically. Since the purely elastic deformation is reversible, the reductant container or the valve is closed again when the deformation is withdrawn.

According to an embodiment of the invention, the closure body is a particularly elastic membrane. If the membrane is arranged perpendicular to the flow direction of the reducing agent, it can release a flow cross-section for the reducing agent by displacing, at least one area of it, against the flow direction of the reducing agent.

According to the invention, the closure body is an elastic membrane provided with holes which open when stretched. In the unloaded state, the holes are closed due to the elasticity of the membrane. If the membrane is at least partially displaced or deformed, the membrane expands and the holes open, and the reducing agent can flow out of the reducing agent container through the filling element or through the valve. If the membrane is relieved, it shifts back into its closed position due to its elasticity, whereby the holes close again and the reducing agent can not continue to flow.

Advantageously, the closure body is a membrane acting as a valve flap. Here, the membrane is advantageously clamped on one side and can be pushed open.

Advantageously, the membrane is firmly closed during the initial assembly of the reducing agent tank in order to ensure a secure, durable seal for the reducing agent tank. Advantageously, the membrane has at least one predetermined breaking point for creating a connection in the container interior. Thus, if the reducing agent tank is used for the first time for filling a reducing agent tank, the membrane ruptures at the predetermined breaking point and can be displaced at least in places, so that a throughflow cross section for the reducing agent is released and this can flow out of the reducing agent tank interior (through the created connection). After the filling process, the membrane closes due to their elasticity and / or the hydrostatic pressure of the reducing agent still located in the reducing agent container.

Conveniently, the membrane is designed to occlude or arranged non-loading, so that the valve acts self-closing. Furthermore, the invention relates to a reducing agent arrangement with a reducing agent tank as described above and associated with the internal combustion engine, in particular the motor vehicle associated reducing agent tank, reducing agent tank and reducing agent tank for filling and / or refilling the reducing agent tank are connected to each other via a coupling device or connectable, wherein the Coupling device is formed by a filling element of the reducing agent container and a filling component of the reducing agent tank, and filling element and filling member are formed plugged together. For filling the reducing agent tank, therefore, the reducing agent tank is connected via the coupling device with the reducing agent tank, whereby the filling element of the reducing agent tank and the filling component of the reducing agent tank are plugged together. In this case, either the filling element can be inserted into the filling component or the filling component in the filling element. Under the mating here is not only a simple connector, so to understand an axial merging of filler and Füllbauteil, but also a screwing of filler and Füllbauteil, for this purpose, for example, a thread or a bayonet fitting are provided. It is essential that the filling element or the filling component is at least partially enclosed by the filling component or the filling element in order to ensure a tight connection.

According to a development of the invention, the filling element and / or the filling component is assigned one or in each case a self-closing valve, so that an unwanted escape of reducing agent from the reducing agent container and / or from the reducing agent tank is excluded or prevented for the reasons already mentioned above.

Expediently, the valve or the valves are opened by the mating of the coupling device or of the filling element and of the filling component. As a result, a flow cross section for the reducing agent is released, so that it can flow from the reducing agent tank into the reducing agent tank.

Advantageously, the filling element and / or the filling component sealing means are assigned. In the event that the filling element is inserted into the filling member, and both are formed substantially circular cylindrical, in the end region of the filling element, a groove extending over the entire outer circumference is provided, in which a Elastomeric ring, such as an O-ring, is arranged for radial sealing as a sealing means. Alternatively or additionally, for the case described above, the filling member has an axial stop for the filling element, on which an elastomeric ring, such as an O-ring, is arranged as a sealing means.

According to a development of the invention, the reducing agent tank or the reducing agent tank has a union fitting for joining the filling element and the filling component or the coupling device.

Thus, if the filling element and the filling component are plugged together, a union fitting is provided which holds the filling element and the filling component or reducing agent container and the reducing agent tank together. By means of this fixation in the assembled position, ie when the valve or valves are opened, it is ensured that the reducing agent flowing from the reducing agent container into the reducing agent tank is exchanged by the air escaping from the reducing agent tank. If ammonia is used as the reducing agent, ammonia vapors could disturb a user when filling the reducing agent tank. For this purpose, in particular the said sealing means are provided.

Today's reducing agent tanks have a ventilation device. Since this, for technical reasons, can not be absolutely tight, a Überertanken the reducing agent tank must be excluded. Otherwise, it would be conceivable that the reducing agent escapes from the ventilation device and thereby on the one hand annoying gases are released, and on the other hand, the ventilation device is inoperative due to crystal formation. The filling component of the reducing agent tank is therefore advantageously connected to a riser pointing into the interior of the reducing agent tank. Advantageously, a Aufschwimmventilkörper is arranged for closing the filling member in the riser. Now, if reducing agent is filled in the reducing agent tank, the Aufschwimmventilkörper rises in the riser upwards until it is pressed by the increasing reducing agent level in a valve seat and thereby closes the inlet opening or the released flow area. Advantageously, the riser in the bottom region of the reducing agent tank has a connection to the remaining reducing agent tank content, so that the reducing agent in the riser pipe corresponding to the reducing agent outside the riser pipe in the reducing agent tank can rise. Conveniently, the riser below the valve seat, preferably just below the valve seat, a connection to the region of the reducing agent, in which no reducing agent, but air or reducing agent gas is present, so that a pressure equalization take place and the Aufschwimmventilkörper can be displaced to the valve seat , This ensures that, on the one hand, the reducing agent flows from the reducing agent tank into the reducing agent tank and, on the other hand, the reducing agent tank can not be overfilled.

Advantageously, the filling component has an opening projection for, in particular, automatic opening of the filling element or of the valve of the filling element. When the filling element is plugged together with the filling component, the opening projection advantageously presses against the displaceable closing body of the filling element, so that a throughflow cross-section is released, the closure body being designed as described above.

According to a development of the invention, the filling component is recessed lying in an upper tank wall of the reducing agent tank. If the filling element is then plugged together with the filling component, the reducing agent can flow from the reducing agent container into the reducing agent tank until the reducing agent level in the reducing agent tank has reached the lower edge of the depression of the filling component, the reducing agent container being advantageously fixed in the assembled state. Overtanking of the reducing agent tank is thus excluded. The maximum reducing agent level is thus dependent on the depression of the filling component in the upper tank wall.

Under certain circumstances, the reducing agent, especially in passenger cars, can be stored for a very long time in the reducing agent tank. Due to the aging behavior of the reducing agents used so far or in the case of misfueling, it is advantageous if the reducing agent tank can be emptied. For this purpose, a suction lance can be introduced through the filling component into the reducing agent tank, wherein the reducing agent can be sucked out of the tank by means of the suction lance.

Advantageously, the reducing agent container has a transparent region by means of which the fill level of the reducing agent in the reducing agent container can be visually detected.

list of figures

• 1 ein beispielhaftes Reduktionsmittelzuführsystem,
• 2 ein erstes Ausführungsbeispiel des erfindungsgemäßen Reduktionsmittelbehälters,
• 3a bis 3d ein Ausführungsbeispiel eines erfindungsgemäßen Verschlusskörpers,
• 4a bis 4c ein weiteres Ausführungsbeispiel des erfindungsgemäßen Verschlusskörpers,
• 5 ein Ausführungsbeispiel der erfindungsgemäßen Reduktionsmittelanordnung,
• 6 ein Ausführungsbeispiel eines Übertankschutzes und
• 7 ein weiteres Ausführungsbeispiel eines Übertankschutzes.

In the following, the invention will be explained in more detail with reference to some drawings. To show this in the following

• 1 an exemplary reductant delivery system,
• 2 A first embodiment of the reducing agent container according to the invention,
• 3a to 3d an embodiment of a closure body according to the invention,
• 4a to 4c a further embodiment of the closure body according to the invention,
• 5 An embodiment of the reducing agent arrangement according to the invention,
• 6 an embodiment of a Überertankschutzes and
• 7 a further embodiment of a Überertankschutzes.

Embodiment (s) of the invention

The 1 shows a schematic representation of an embodiment of a device 1 for a selective catalytic reduction (SCR) process with a reducing agent tank 2 to which a conveyor 3 , For example, a feed pump is arranged, the reducing agent from the reducing agent tank 2 over a line 4 to a dosing module 5 promotes, which advantageously in the exhaust system 6 an internal combustion engine of the motor vehicle opens. The dosing module 5 controls the amount of reducing agent which is passing through the exhaust tract 6 flowing exhaust gas is added. The reducing agent, advantageously ammonia, reacts with the exhaust gas and reduces the pollutant NO _x to N ₂ and H ₂ O in a reduction reactor associated with the exhaust tract. The reducing agent tank 2 has a ventilation device 7 which serves inter alia to prevent excessive pressure rise in the reducing agent tank 2 to prevent. In addition, the reducing agent tank has 2 a filling component 8th on, which for filling the reducing agent tank 2 serves with reducing agent.

Generally, there is a desire to fill the reducing agent tank 2 from outside a passenger compartment and / or a trunk of the motor vehicle to make. However, this requires between the reducing agent tank and an externally accessible filler neck of the motor vehicle, a complex (plastic) molding, which must be designed and manufactured consuming. So what is desired is a possibility, the reducing agent tank 2 by means of simple means to fill with reducing agent without causing interfering gases from the reducing agent tank 2 escape into the environment and without the reducing agent itself enters the environment.

The 2 shows in a sectional view an embodiment of an advantageously designed reducing agent container 9 , This has a substantially rectangular cross-section and contains a reducing agent 10 where the amount of reducing agent 10 by the level of reducing agent 11 is marked. At its bottom 12 has the reducing agent tank 9 a filling element 13 on, which is designed as a filler neck, and which an inwardly opening valve 14 assigned. The filling element 13 has a substantially circular cylindrical cross section extending from the bottom 12 of the reducing agent tank 2 over a first area 15 not changed and over a second area 16 reduced. The reducing agent tank 2 points to its underside 12 an opening 17 on, through which the reducing agent 10 from the reducing agent tank 9 through the filling element 13 can flow, with the inward-opening valve 14 at rest, an outlet opening 17 ' closes, and thus an outflow of the reducing agent 10 prevented from the container.

The valve 14 has a spherical closure body 18 on, in the closed position with the inside 19 of the filling element 13 sealing closes. The opening 17 has a smaller diameter than the area 15 of the filling element 13 on, so a stop 20 is formed, on which a spring element 21 , preferably a coil spring 22 , which supports her at the stop 20 opposite end with the closure body 18 cooperates, so that it is pressed in the closed position.

Now to the reducing agent 10 from the reducing agent tank 9 to let flow, the closure body 18 inward, ie against the spring force of the spring element 21 and against the weight of the reducing agent on the closure body 10 be relocated. The spring force also ensures that when the reducing agent tank 9 rotated by 180 °, so that the filling element 13 pointing up, no gases from the reducing agent tank 9 can escape.

The filling element 13 has free end area 23 a over the entire outer circumference of the filling element 13 extending groove 24 in which a sealant 25 , preferably an O-ring 26, is arranged. The function of the sealant 25 will be explained later.

The 3a and 3d show an embodiment of an advantageous closure body 27 that as a membrane 28 is formed, the holes 29 which, in the unloaded state of the membrane 28 closed ( 3a ) and in the stressed, stretched state of the membrane 28 ( 3c ) are open. The 3a shows the membrane 28 in a plan view and the 3b in a cross-sectional view, wherein the membrane 28 on its outer circumference 30 alternatively to the one in 2 described embodiment as a closure body 27 in the filling element 13 is arranged. In the unloaded or relaxed state are the holes 29 , as in 3a , shown closed.

The 3c shows the membrane 28 also in a plan view and the 3d in a cross-sectional view. The 3d shows the membrane 28 , which by means of an opening projection 31 loaded or operated. The opening tab 31 points at its free, the membrane 28 stressful end 32 a circular cylindrical section 33 on, perpendicular to the opening projection 31 projects. The membrane 28 gets through the opening tab 31 or the circular cylindrical portion 33 at least partially inwards, ie in the direction of the reducing agent tank 9 located reducing agent 10 relocated. This will make the membrane 28 stretched and the holes 29 open and thereby each release a flow cross-section for the reducing agent. Advantageously, the section 33 formed as a sleeve, so that the reducing agent 10 also in the direction of the arrow 34 through the membrane 28 and the holes 29 can flow. Conveniently, the membrane 28 formed as an elastomeric membrane, which is advantageously deformed purely elastically.

The 4a to 4c show a further embodiment of an advantageous closure body 35 for the valve 14 that as an elastomeric membrane 36 is trained. The 4a shows the membrane 36 in a top view. The membrane 36 is one-sided in the packing 13 clamped and lies with an outdoor area (characterized by the outer circumference 37 and the dashed line 38 ) on a support surface 39 of the filling element 13 so that the reducing agent 10 on the membrane in the direction of the arrow 40 acts, and thus this, and thus the valve 14 , closes as in 4b shown.

By means of an opening projection 41 , the opening tab 31 can correspond, the membrane becomes 36 , at least in some areas, displaced inwards, ie counter to the reducing agent pressure, whereby a flow cross-section is released and the reducing agent along the arrow line 42 from the reducing agent tank 9 can flow as in 4c shown.

Advantageously, the membrane 36 at the first assembly firmly with the filling element 13 or the reducing agent tank 9 connected and has a predetermined breaking point, which in the first use by the opening projection 41 tears. Thus, during storage of the reducing agent tank 9 ensures a secure closure. After rupturing the predetermined breaking point, the membrane 36 functioning.

The 5 shows in one embodiment, a Reduktionsmittelanördnung invention with the reducing agent tank 9 from the 2 , of which only the filling element 13 is shown, and a reducing agent tank 43 who at his top 44 one from the top 44 protruding filling component 45 has, which is formed substantially circular cylindrical. The filling component 45 has a recording 46 on, whose shape is substantially the outer contour of the filling element 13 matches, so this in the recording 46 , as shown, can be plugged. In the area of the filling component 45 the reducing agent tank has an opening 47 through which the reducing agent can flow into the reducing agent tank. In the area of the opening 47 is on the top 44 the Indian 3d described opening projection 31 arranged, which is the spherical closure body 18 against the spring force of the coil spring 22 displaced inward so reducing agent along the arrow 48 through the filling element 13 into the reducing agent tank 43 can get. The function of already in the 2 mentioned elastomeric rings 25 will be in the 5 seen. He serves to through the filling element 13 and the filling component 45 formed coupling device 49 seal so that neither reducing agent nor a reducing agent gas can escape, and the reducing agent 10 through out of the reducing agent tank 43 replacing gas is replaced. The elastomer ring 25 lies on an inside of the recording 46 of the filling component 45 and the groove 24 of the filling element 13 at. Advantageously, another sealing element is on the front side 50 of the filling element 13 arranged so that the sealing element between the filling element and an axial stop 51 of the reducing agent tank 43 located.

Furthermore, the reducing agent tank 9 a union fitting 52 on, used for joining filler element 13 and filling component 45 serves. For this purpose, the filling component has a thread on its outer circumference 53 and the union fitting 52 on its inner circumference a mating thread 54 on. The union fitting 52 lies at a stop 55 of the filling element 13 so that this in the recording 46 of the filling component 45 pressed and the closure body 18 is relocated inside.

Will the reducing agent container or the filling element 13 from the reducing agent tank 41 or the filling component 45 after filling the reducing agent tank 43 removed again, so the closure body closes the valve 14 , wherein when removing reducing agent continues to flow until the closure body 18 in his closed position "lands". In this case, it is important that the length of the opening projection 31 and the location of the sealant 25 are selected on the filling element so that the flowing from the reducing agent container during the removal process reducing agent is minimized. This means that the elastomer ring is as close as possible to the front side 50 of the filling element 13 is arranged, and the opening projection 31 is designed as short / low as possible.

Advantageously, the reducing agent tank 9 a transparent area, by means of which visually the reducing agent level 11 of the reducing agent 10 can be checked.

The 6 shows a sectional view of an embodiment of an over-tank protection 56 that is overfilling the reductant tank 43 prevented. For this purpose, the reducing agent tank 43 a riser pipe pointing into the interior of the reducing agent tank 57 on, which in the area of the filling component 45 arranged and thus connected to this. The riser 57 goes so far into the reducing agent tank 43 into that between riser 57 and a floor area 58 A gap 59 is present, by the reducing agent 10 from the reducing agent tank 43 in the riser 57 can flow in. In the riser 57 is a float valve body 60 arranged, which is formed such that it from the reducing agent 10 can be worn. Will now be reducing agent 10 into the reducing agent tank 43 filled, the level of reducing agent increases 11 on and the float valve body 60 climbs in the riser 57 up until it touches a sealing edge 61 the opening 47 of the reducing agent tank 43 pushes and thereby another filling of the reducing agent tank 43 prevented. For this principle to work properly, the riser must 57 just below the sealing edge 61 a breakthrough or an opening 62 that lead to an airspace 63 , ie a space above the reductant level 11 lies, leads. As in 6 shown is the opening projection 31 advantageously notched laterally, so no reducing agent 10 in the foot area of the opening projection 31 stops and can lead to crystals on evaporation. Through an advantageous opening 64 in the section 33 the opening projection 31 is allowed, the reducing agent ( 10 ), as in 3d represented by the opening projection 31 can flow.

The 7 shows a further embodiment of a Überertankschutz 65 in a sectional view. Shown is the reducing agent tank 43 with the filling component 45 which at its top 44 is arranged and that already from the 5 and 2 known filling element 13 with the valve 14 that the spherical closure body 18 having. The filling component 45 is in the upper tank wall 44 arranged recessed lying. When assembled, the valve is 14 as described above, and the closure element 18 displaced to the inside, reducing the reducing agent 10 from the reducing agent tank 9 into the editorial tank 43 can flow until the reductant level 11 in the reducing agent tank 43 a lower edge 66 of here as an insert 67 trained filling component 45 has reached. The reducing agent tank must be axially in its end position, for example by means of the union fitting 52 be fixed. Will the reducing agent tank 9 removed, still flows a minimum amount of reducing agent during withdrawal during the closing movement of the valve 14 to. Depending on the height of the opening projection 31 is the valve 14 already closed after a short stroke. A transfer of the reducing agent tank 41 is excluded. The maximum level of reducing agent 11 or the minimum airspace 63 in the reducing agent tank 43 is thus dependent on the position of the lower edge 66 of the filling component 45 , The above embodiments of the reductant tank and / or the reductant tank allow greater flexibility for a "normal" user and / or a service mechanic. By the Überertankschutz 65 or 56 it is possible, even larger reducing agent tank 9 to use. Advantageously, the filling element 13 designed as a flexible line, so when using a large reducing agent tank 9 a simple filling of the reducing agent tank 43 is possible, wherein the flexible conduit at its conduit end the valve described above 14 having.

To, if necessary, the reducing agent 10 from the reducing agent tank 43 To remove, advantageously, a suction lance through the filling of the filling component 45 into the reducing agent tank 43 guided. Advantageously, the suction lance is designed so that it passes through the opening 64 the opening projection can be filled. Alternatively, a second opening may be for emptying in the reducing agent tank 43 be provided.

Claims (13)

Reducing agent container for filling and / or refilling of reducing agent for exhaust gas aftertreatment of the exhaust gas of internal combustion engines, in particular of motor vehicles, with a filling element, wherein the filling element (13) is associated with a self-closing, inwardly opening valve (14) and wherein the valve (14) a displaceable closure body (18,27,35), which consists of elastic material or this, characterized in that the closure body (27) has an elastic, with upon stretching opening (29) provided membrane (28), wherein the holes (29) of the membrane (28) in the unloaded state of the membrane (28) are closed due to the elasticity of the membrane (28). Reductant container after Claim 1 , characterized in that the filling element (13) is a filler neck. Reducing agent container according to one of the preceding claims, characterized in that the closure body (27) is spring-loaded in the direction of the closed position. Reducing agent container according to one of the preceding claims, characterized in that the membrane (28) has at least one predetermined breaking point for creating a connection in the container interior. Reducing agent arrangement with a reducing agent container (9) according to one or more of the preceding claims and associated with the internal combustion engine, in particular the motor vehicle associated reducing agent tank (43), wherein the reducing agent tank (9) and reducing agent tank (43) for filling and / or refilling with each other via a coupling device (49) are connected / connectable, wherein the coupling means (49) of a filling element (13) of the reducing agent container (9) and a filling member (45) of the reducing agent tank (43) is formed and filling element (13) and filling member (45) formed plugged together are. Reductant according to Claim 5 , characterized in that the filling element (13) and / or the filling component (45) is associated with one or in each case a self-closing valve (14). Reductant according to Claim 6 , characterized in that the valve (14) or that the valves open by the mating. Reducing agent arrangement according to one of Claims 5 to 7 , characterized by at least one sealing means (25) associated with the filling element (13) and / or the filling component (45). Reducing agent arrangement according to one of Claims 5 to 8th , characterized in that the reducing agent container (9) or the reducing agent tank (43) has a union fitting (52) for joining the filling element (13) and filling component (45). Reducing agent arrangement according to one of Claims 5 to 9 , characterized in that the filling component (45) of the reducing agent tank (43) is connected to a riser (57) pointing into the interior of the reducing agent tank (43). Reductant according to Claim 10 , characterized in that the riser (57) is arranged a Aufschwimmventilkörper (60) for closing the filling member (45). Reducing agent arrangement according to one of Claims 5 to 11 , characterized in that the filling component (45) has an opening projection (31, 41) for, in particular, automatic opening of the filling element (13). Reducing agent arrangement according to one of Claims 5 to 12 , characterized in that the filling component (45) is recessed in an upper tank wall (44) of the reducing agent tank (43).

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