DE202011100991U1 - media line - Google Patents

Abstract

Media line, in particular for the transport of urea-water solutions (1), with - a hose line (2) for media transport and - optionally at least one heating device (3), preferably a resistance heating wire that can be connected to a power source, for heating the medium (1), characterized in that the hose line (2), preferably in certain areas, is surrounded by a liquid-tight sheathing (4) which, together with the hose line (2), can be flowed through by a secondary medium (5), preferably for cooling the medium (1) Gap (6) forms and that the hose line (2) is connected in a liquid-tight manner to a functional device (12) through which the medium (1) can flow, the functional device (12) for connecting the hose line (2) to another element (18) and simultaneously serves to seal the gap (6) at the end in a liquid-tight manner.

Description

• – einer Schlauchleitung zum Medientransport und
• – optional mindestens einer Heizeinrichtung, vorzugsweise einem an eine Stromquelle anschließbaren Widerstandsheizdraht, zur Beheizung des Mediums.

The invention relates to a media line, in particular for the transport of urea-water solutions, with

• - A hose for media transport and
• - Optionally at least one heating device, preferably a connectable to a power source Widerstandsheizdraht, for heating the medium.

Such a device is off DE 10 2006 006 211 B3 known. Urea-water solutions, for example, standardized DIN 70070 and CEFIC (European Chemical Industry Council), are added, for example, in combustion exhaust gases from diesel engines, in particular to reduce the nitrogen oxide emissions and thus meet the ever increasing requirements of the emission regulations. For the management of the urea-water solution from a tank for injection into the combustion gases Temperierungsmöglichkeit the hose is usually required because the urea-water solution due to its chemical composition has the disadvantage that it at about -11 ° C flocculates or freezes. On the other hand, however, the urea-water solution must not be exposed to too high temperatures, since it comes to the formation of gaseous ammonia (NH ₃ ) at about 80 ° C, whereby the proper injection of the solution in the levy difficult or impossible ,

When from the mentioned DE 10 2006 006 211 B3 known line is the Widerstandsheizdraht within the hose. Alternatively, however, it is also possible to arrange the Widerstandsheizdraht on the outer surface of the hose, which, for example, in the EP 2 201 229 B1 described.

Recently, there is an increasing effort, especially in the equipment of passenger cars, to place the metering modules of the urea-water solution in ever hotter areas of the vehicle, so to move the injection in the exhaust line ever more towards the engine. Due to the above-described limited temperature capacity of the urea-water solution, the metering modules are then cooled correspondingly cooling water.

The invention has for its object to provide a media line with the features described above, in which on the one hand overheating of the urea-water solution is reliably avoided in a structurally simple manner and on the other hand has a space-saving design.

According to the invention the object is achieved in that the hose, preferably in regions, is surrounded by a liquid-tight sheath which forms together with the hose one of a, preferably for cooling the medium serving, secondary medium can flow through gap and that the hose with a medium through which can flow Functional device is liquid-tight end connected, wherein the functional device for connecting the tubing with another element and at the same time serves for the end-side liquid-tight sealing of the gap. As a secondary medium and thus as a coolant can be used for example as the cooling water of the engine. Alternatively, however, it is also possible to provide a separate cooling circuit with a correspondingly separate coolant, said cooling circuit preferably operates at significantly lower temperatures than the engine cooling circuit. This avoids a structurally very simple way that the urea-water solution assumes temperatures of over 80 ° C. An unwanted release of ammonia, which makes a proper metering of the urea-water solution on the dosing considerably difficult or even impossible, is thereby safely avoided. In addition, this also avoids the risk of excessive temperature load on the hose line itself. The functional device according to the invention has a multi-functionality, since on the one hand it serves to connect the hose line to another element and on the other hand ensures the end-side liquid-tight boundary of the gap. This multi-functionality ensures a very compact design of the media line and thus a space-saving installation.

Expediently, the functional device has a connecting element, preferably designed as a plug, for connecting the hose line to the other element. Furthermore, the functional device, which expediently consists of plastic, can have a sealing section, which is connected to the jacket in a liquid-tight manner, preferably welded.

According to one embodiment of the invention, the gap is each end of a, preferably made of plastic, tail limited, which are liquid-tightly connected to the sheath and also enclose the hose line liquid-tight. Here, the sealing portion is part of the hose end end associated with this end piece and part of the functional device. This end piece can be both a connection device for the supply of the coolant as well have a connection device for the discharge of the coolant. As a result, the supply of the gap with coolant and its removal is structurally simplified, since here the two corresponding coolant hose connections are connected to the same tail. In general, an end piece can have one or more connection devices. Conveniently, a connection device each has a threaded bore which is introduced into the corresponding end piece. In this threaded hole then the connection end of the corresponding coolant hose for the coolant supply or removal can be easily screwed. Alternatively, it is also possible to provide molded as connecting devices molded or welded coupling elements.

If both connection devices are provided in one end piece, it is expedient to additionally arrange in the gap a riser pipe which is connected to one of the two connection devices and extends into the vicinity of the other end piece in order to ensure a circulation of the coolant within the entire gap , In this case, the coolant must first flow through the riser before it enters the gap between the hose and the jacket and then flows back to the tail with both connectors. Alternatively, it is also conceivable that the coolant first flows through the gap before it is transported via the riser back to the tail with the connection devices.

The hose line and / or the casing and / or the riser expediently consist of a flexible plastic. This is necessary, for example, to guide the media line over the underbody of a motor vehicle, which usually requires a multiple bend with possibly tight bending radii.

The heating device can be arranged inside the hose line. In this case, it must be ensured that the heater is not chemically attacked by the urea-water solution. Alternatively, however, it is also possible to arrange the heater on the outside of the hose, then takes place - depending on the operating condition - both the heating of the urea-water solution at a cold start in winter and the cooling of the urea-water solution at operating temperature of the motor over the outer surface of the hose line.

In order to minimize heating of the coolant over the outer surface of the sheath, this is suitably enclosed by a heat-insulating element. This may have on its outer side a metal layer, which in particular reduces the influence of heat radiation from outside on the coolant.

In the case of internal heating of the hose line, it is within the scope of the invention for the heating device to be led into and / or out of the hose line via at least one branch in the hose line. Conveniently, in the region of the branch, a stopper closing the branch is arranged with at least one opening for the passage of the heating device. This plug can be pressed into the branch, so that at the same time a sealing of the area covered by the heater opening is ensured. In the context of the invention, it is also particularly the case that two openings are provided, namely for both connection regions of the heating device arranged as a loop within the hose line. The plug then has in this case an opening for the introduction and an opening for the lead-out of the heater. The plug can be pressed into the branch by means of a compression sleeve and is preferably made of PTFE. The compression sleeve may be disposed on the outside of the branch and made of metal, preferably stainless steel or brass. If a resistance heating wire is provided as a heating device, this is expediently provided with a plastic casing to safely avoid corrosion of the heating wire.

According to a preferred embodiment of the invention, the gap extends into the functional device. This has the advantage that, as a result, cooling of the functional device with the secondary medium is additionally possible, and thus the urea-water solution is also cooled correspondingly when it flows through the functional device. Preferably, the gap comprises the sealing portion and extends to the connecting element. This ensures a particularly good cooling of the medium also in the area of the functional device. Appropriately, the sealing portion and the connecting element are liquid-tightly connected to each other, so that there is no leakage even when flowing the coolant from the sealing portion in the connecting element.

In the context of the invention, it is further that the sealing portion additionally liquid-tight connected to the tubing, preferably welded, is. The sealing section expediently has an outer sealing section which is connected in a liquid-tight manner to the jacket and an inner sealing section connected in a liquid-tight manner to the hose conduit, the outer sealing section and the inner sealing section preferably being made of different materials. This has the Advantage that the materials of these seal sections can be tailored to the materials of hose or sheath, so that an optimal welding of outer seal section with sheathing on the one hand and inner seal section is ensured with hose on the other side. This results in savings due to a simplified manufacturing and / or material cost savings. The outer seal portion and the inner seal portion may be formed as separate elements. Alternatively, however, it is also possible that the sealing portion is integrally formed with outer seal portion and inner seal portion.

According to a preferred embodiment of the invention, the outer sealing section and / or inner sealing section are additionally part of the connecting element. As a result, it is ensured in a structurally very simple manner that, on the one hand, a secure liquid seal is ensured and, on the other hand, the sealing section can be connected directly to another element, for example a metering module for the urea-water solution.

The subject of the invention is also a functional device according to claim 11.

When transporting a urea-water solution in a motor vehicle using the above-described media line according to the invention, the heater is used to heat the urea-water solution at a cold start of the motor vehicle and the secondary medium for cooling the urea-water solution at the operating temperature of the motor vehicle ,

However, the application of the media line according to the invention is not limited to the transport of urea-water solutions. Alternatively, the media line z. B. also for the transport of drinking water, drinks, such as beer, lemonade, cola or the like, are used. Accordingly, the secondary medium does not necessarily serve to cool the medium, but alternatively can also be supplied to it, for example, or also serve for heating the medium.

In the following the invention will be explained in detail with reference to a drawing showing only one embodiment. They show schematically:

1 a side view of a media line according to the invention,

2 the cut BB in 1 .

3 the cut AA in 1 .

4 the cut CC in 1 .

5 one to the right 1 respectively. 3 subsequent presentation,

6 a side view of another embodiment of the invention,

7 the cut BB in 6 .

8th the cut AA in 6 .

9 a top view of another media line according to the invention,

10 the cut AA in 9 .

11 the cut BB in 10 .

12 a side view of another embodiment of the invention,

13 the cut BB in 12 and

14 the cut AA in 12 ,

The 1 to 4 show a media line for a urea-water solution 1 , wherein the line for dosing the solution 1 in an exhaust line (not shown) of a diesel motor vehicle for the purpose of reducing nitrogen oxide emissions. The media line has a polymeric tubing 2 to transport the urea-water solution 1 as well as a heating device 3 (please refer 5 ) to a (not shown) power source connectable resistance heating wire for heating the urea-water solution 1 on. In the context of the invention it is that the resistance heating wire 3 merely optional. Alternatively, it is also possible to heat the urea-water solution 1 via a liquid heating medium. In this case, the heater has a hose for guiding the heating medium. Optionally, it is also possible that the coolant described below during cold start of the motor vehicle engine for heating the urea-water solution 1 is used while it avoids the operating temperature of the engine overheating. In this case, no separate heater is required.

The hose line 2 is partially of a liquid-tight, also tubular polymeric sheath 4 Surrounded with the hose assembly 2 one from a coolant 5 permeable gap 6 (see esp. 4 ), which is used for external cooling of the urea-water solution 1 in the hose line 2 serves. Of the resistance heating 3 is inside the tubing 2 arranged (in 1 - 4 not shown, see 5 ) and provided with a plastic sheath, not shown, to corrosion by a chemical attack of urea-water solution 1 to avoid.

Of the 3 it can be seen that the hose 2 end with one of the urea-water solution 1 flow-through functional device 12 liquid-tight, wherein the functional device 12 for connecting the hose line 2 with another element, for example a urea-water metering device 18 (Comp. 9 and 10 ) and at the same time to the end-side liquid-tight sealing of the gap 6 serves.

In the exemplary embodiment, the functional device 12 as a connecting element 13 for connection of the hose line 2 to the other element 18 a plastic plug on. The functional device 12 has a polymeric sealing portion 14 that with the sheath 4 welded liquid-tight. Furthermore, the sealing portion 14 additionally liquid-tight with the hose line 2 welded. The sealing section 14 has this one with the sheath 4 connected outer sealing section 15 and one with the hose line 2 connected inner seal portion 16 on. The sealing section 14 is integrally formed. He is also with the plug 13 also connected liquid-tight.

Like that 1 and 3 it can be seen, is the gap 6 each end of an end piece 7 . 7 ' limited in plastic. The sealing section 14 is here part of the tail 7 and the tail 7 itself part of the functional device 12 , The other tail 7 ' is also with the sheath 4 connected liquid-tight and also encloses the hose 2 liquid-tight. Again 3 can be seen overlap the tails 7 . 7 ' each sheath 4 , The tails 7 . 7 ' consist of a laser-transparent material, allowing a secure welding of the end pieces 7 . 7 ' with the sheath 4 and the hose line 2 can be made in a simple manner, which also allows a very space-saving arrangement of the cooling device. In the embodiment is used as a coolant 5 used the cooling water of the engine. The cooled section of the hose line 2 In the exemplary embodiment has a length between 0.1 and 0.8 m, preferably 0.2 to 0.5 m.

In particular the 2 it can be seen that one of the two end pieces 7 both a connection device 8th for the supply of the coolant 5 as well as a connection device 9 for the removal of the coolant 5 having. The connection devices 7 . 8th each have a threaded hole 10 on, in which the corresponding end piece is introduced. In the gap, a riser pipe is additionally arranged, which with the connection device 8th of the corresponding tail 7 is connected and up to the vicinity of the other tail 7 ' extends to a circulation of the coolant 5 within the entire gap 6 sure. In the embodiment also the urea-water solution 1 and the coolant 5 guided in countercurrent to each other, whereby a particularly good heat transfer is ensured. The hose line 2 , the sheathing 4 and the riser 11 consist of a flexible plastic.

The jacket 4 may additionally be enclosed by a heat insulation element, not shown, which preferably has on its outer layer a metal layer to prevent heat radiation from the outside. This heat-insulating element preferably also extends over the end piece 7 ' and / or the functional device 12 ,

The 5 shows a detailed view of the hose 2 as they conform to the right end of the illustration 1 respectively. 3 connects, The 5 you can see how the resistance heating wire 3 into the hose line 2 in and out of this is led out. It can be seen that this is a turnoff 17 in the hose line 2 is provided. In the area of the branch 17 is a turnoff 17 closing plug (not shown) with two openings for passing the resistance heating wire 3 arranged. The plug is in the turnoff 17 pressed, so that at the same time a seal of the resistance heating wire 3 covered opening is ensured. The openings in the stub thus serve both for insertion and for the lead out of the resistance heating wire 3 , In 5 is the resistance heating wire 3 inside the hose line 2 spirally wound in order to achieve the highest possible heating power per unit length. Alternatively, the resistance heating wire 3 but of course also as a simple loop in the hose line 2 be arranged.

In the embodiment according to the 6 - 8th is by means of a coaxial quick release system also in the field of functional device 12 a cooling of the medium 1 through the coolant 5 allows. The system is also characterized by a short assembly time, reduced installation error possibilities and a space-saving design. The functional device 12 is here designed such that the gap 6 into the functional device 12 extends into it. The gap 6 passes through the sealing section 14 and extends to the connecting element 13 These are in the sealing element 14 recesses 20 intended. The 8th shows that in this embodiment, the sealing portion 14 additionally part of the connecting element 13 is and the connection to another element 18 , z. As the urea-water metering ensures. The connecting element 13 indicates the secure connection of the other element 18 sealing elements 19 , z. B. in the form of O-rings on.

Also in the embodiment according to the 9 - 11 is the sealing section 14 both liquid-tight with the hose line 2 as well as with the sheath 4 welded. The sealing section 14 here has one with the sheath 4 welded outer seal section 15 and one with the hose line 2 welded inner sealing portion 16 on, with outer seal portion 15 and inner seal portion 16 made of different materials. For this purpose, the outer seal section 15 and the inner seal portion 16 designed as separate elements. The materials of the sections mentioned 15 . 16 are selected so that on the one hand optimal welding of the outer sealing portion 15 with the sheath 4 and on the other hand, an optimal welding of the inner seal portion 16 with the hose line 2 are guaranteed. How the particular 10 it can be seen, is the inner seal portion 16 additionally part of the connecting element 13 and here connects to the urea-water metering device 18 ago. The outer seal section 15 however, in addition serves to seal the gap 6 towards the urea-water metering device 18 , The connection of the functional device 12 to the element 18 can be done via a union nut, a bayonet lock or a spring clip (not shown in detail). The tail 7 ' is also with both the sheath 4 as well as with the hose line 2 welded liquid-tight. The embodiment according to the 9 - 11 is characterized by easy-to-manufacture injection molded parts for the sealing section 14 and also allows automated pre-assembly.

In the embodiment according to the 12 - 14 this is the outer seal section 15 and inner seal portion 16 having sealing portion 14 however, integrally formed.

The media lines described above are operated as follows: During a cold start of the vehicle, especially at temperatures below -11 ° C, the resistance heating wire is used 3 to heat the urea-water solution 1 and thus provides a quick thawing of the solution 1 for sure. As soon as the motor vehicle then approaches its operating temperature, sufficient cooling of the urea-water solution wins increasingly 1 in importance. This is done via the circulation of the coolant 5 inside the gap 6 an external cooling of the hose line 2 , causing overheating of the urea-water solution 1 and thus an outgassing of ammonia is safely avoided.

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 102006006211 B3 [0002, 0003]
• EP 2201229 B1 [0003]

Cited non-patent literature

• DIN 70070 [0002]

Claims (11)

Media line, in particular for transporting urea-water solutions ( 1 ), with - a hose line ( 2 ) for media transport and - optionally at least one heating device ( 3 ), preferably a connectable to a power source Widerstandsheizdraht, for heating the medium ( 1 ), characterized in that the hose line ( 2 ), preferably in regions, of a liquid-tight sheath ( 4 ), which together with the hose line ( 2 ) one of, preferably for cooling the medium ( 1 ), secondary medium ( 5 ) through-flowable gap ( 6 ) and that the hose line ( 2 ) with one from the medium ( 1 ) throughflowable functional device ( 12 ) is liquid-tightly connected, wherein the functional device ( 12 ) for connecting the hose line ( 2 ) with another element ( 18 ) and at the same time to the end-side liquid-tight sealing of the gap ( 6 ) serves. Media line according to claim 1, characterized in that the functional device ( 12 ), preferably designed as a connector, connecting element ( 13 ) for connecting the hose line ( 2 ) to the other element. Media line according to claim 1 or 2, characterized in that the functional device ( 12 ) a sealing portion ( 14 ), which is connected to the sheath ( 4 ) connected liquid-tight, preferably welded, is. Media line according to one of claims 1 to 3, characterized in that the gap ( 6 ) to the functional device ( 12 ) extends into it. Media line according to claim 3 or 4, characterized in that the gap ( 6 ) the sealing section ( 14 ) and up to the connecting element ( 13 ). Media line according to one of claims 3 to 5, characterized in that the sealing portion ( 14 ) and the connecting element ( 13 ) are connected to each other in a liquid-tight manner. Media line according to one of claims 3 to 6, characterized in that the sealing portion ( 14 ) in addition also liquid-tight with the hose line ( 2 ), preferably welded, is connected. Media line according to claim 7, characterized in that the sealing section ( 14 ) one with the sheath ( 4 ) liquid-tightly connected outer sealing portion ( 15 ) and one with the hose line ( 2 ) liquid-tightly connected inner sealing portion ( 16 ), wherein outer seal portion ( 15 ) and inner seal portion ( 16 ) preferably consist of different materials. Media line according to claim 8, characterized in that the outer sealing section ( 15 ) and the inner seal portion ( 16 ) are formed as separate elements. Media line according to one of claims 7 to 9, characterized in that the outer sealing portion ( 15 ) and / or the inner sealing portion ( 16 ) additionally part of the connecting element ( 13 ) are. Function device ( 12 ) for a media line according to one of claims 1 to 10.

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