DE202012101468U1 - Media line, in particular for the transport of urea-water solutions - Google Patents

Abstract

Media line, in particular for the transport of urea-water solutions (1), with - a hose line (2) for media transport, - at least one within the hose line (2) arranged in a loop, connectable to an electrical power source Widerstandsheizdraht (3) for heating the medium (1) and - at least one connector (8) attached to a hose end for connecting the hose (2) to another element, characterized in that the connector (8) has at least one stop (9) for exact positioning of the heating wire loop end (10) within the connector (8) is used, so that a targeted heating of the medium (1) is ensured in the connector area.

Description

• – einer Schlauchleitung zum Medientransport,
• – mindestens einem innerhalb der Schlauchleitung schlaufenförmig angeordneten, an eine elektrische Stromquelle anschließbaren Widerstandsheizdraht zur Beheizung des Mediums,
• – mindestens einem an einem Schlauchleitungsende befestigten Konnektor zur Verbindung der Schlauchleitung mit einem anderen Element.

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

• A hose line for transporting media,
• At least one resistance heating wire arranged in a loop shape in the hose line and connectable to an electric power source for heating the medium,
• - At least one attached to a hose end connector for connecting the hose with another element.

Such a media line is from the WO 2011/151008 known. Urea-water solutions, for example, standardized DIN 70070 and CEFIC (European Chemical Industry Council) are z. As combustion exhaust gases from engines, especially diesel engines, added to reduce especially the nitrogen oxide emissions and thus to 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, a Temperierungsmöglichkeit the hose is usually required because the urea-water solution has the disadvantage that it at about -11 ° due to their chemical composition C flocculates or freezes.

When in the WO 2011/151008 described line is the loop-shaped heating wire dimensioned and deformed so that it meets the required requirements for proper heating of the medium. Since the hose lines usually have a considerable length, for example one or even several meters, the exact positioning of the loop end is difficult or not possible. On the one hand, this can result in insufficient heating of the heating medium via the resistance heating wire, in particular in the region of a connector, because it has not been pushed deeply enough into the connector. On the other hand, however, an excessive heating of this connector area can take place, namely when the loop end has been pushed too far into the connector and thereby forms an overlapping area with the inner resistance heating wire of an adjacent media line connected to the connector. In this case, so overlap the loop ends of two adjacent resistance heating wires and lead there to excessive heating, which is also undesirable. In addition, it can also be easily damaged in a projecting outwardly Widerstandsheizdraht.

Against this background, the invention has for its object to provide a media line with the features described above, with a proper heating in the connector area is ensured.

According to the invention the object is achieved in that the connector has at least one stop, which serves for the exact positioning of the Heizdrahtschlaufenendes inside the connector, so that a targeted heating of the medium is ensured in the connector area. The invention is based on the recognition that the position of the heating wire loop end in the connector area can be precisely defined by the stop, for example, by pulling the heating wire at the other end of the media line so far out of the hose line until a resistance caused by the stop is felt. This ensures that the Heizdrahtschlaufenende is located exactly in the position defined by the stop and thus a proper introduction of heat energy is ensured in this sensitive area. The connector can be designed here as a male or as a female connector. The resistance heating wire can basically have a simple, that is to say in particular unwound, loop shape. A winding of the heating wire to achieve a particularly high input of heat energy into the hose, such as in the WO 2011/151008 described, however, is also within the scope of the invention.

The stop may be formed as a stop element, around which the Heizdrahtschlaufenende is placed. In this context, it is expedient that the stop element is integrally formed on the, preferably made of plastic, connector, for example by means of a Anspritzens in the context of an injection molding process. The stop element preferably has a round contour in the abutment region of the heating wire loop end in order to prevent buckling of the heating wire loop end. This round contour is particularly advantageous because the usual inner diameter of media lines used in motor vehicles amount to only a few millimeters and thus a very sharp deflection of Widerstandsheizdrahtes in the region of the loop end is required. However, a bending of the heating wire must be avoided so as not to impair its functionality. Preferably, therefore, the flow cross-section of the connector is formed enlarged in the region of the stop element. This allows an increased bending radius during the deflection. Overall, the stop element according to the invention is a simple constructive method to determine the position of the Heizdrahtschlaufenendes during assembly in a simple manner accurately.

According to a further preferred embodiment of the invention, the connector has as a stop on a receiving area with an enlarged inner diameter, and the Heizdrahtschlaufenende is positioned kink-free in this receiving area. In this case, therefore, the comparatively narrow space and the natural tendency of the heating wire is used after laying with the largest possible radius. In the enlarged receiving area of the connector can then be formed in accordance with an enlarged loop, which is brought when pulling or pushing the heating wire in the tubing to rest with the stop. Expediently, the receiving area has a conically formed wall, against which the Heizdrahtschlaufenende at least partially applied. The enlarged inner diameter can also be realized with - at least substantially - constant hydraulic flow cross-section. In this case, for example, the inner diameter, which is enlarged in the loop plane, is compensated by an inner diameter reduced transversely to the loop plane, so that, for example, in the cone region of the wall a preferably oval flow cross-section results, with at least substantially uniform cross-sectional area along the cone. This has the advantage that the thawing volume remains at least approximately constant in the corresponding area despite the increased inner diameter. In the region of the tip of the Heizdrahtschlaufenendes a fixing element may be arranged on the connector, which reduces a protruding of the tip of the connector, in particular prevents. Consequently, the fixing here forms after insertion of the heating wire in the hose until it stops a counter-stop, which prevents slipping out of the heating wire from the hose and thus accurately positioned Heizdrahtschlaufenende. The fixing element can be configured as a ring, sieve or filter arranged in the flow cross-section of the connector. The connection of the fixing with the connector can be done via a press-fit, screw-in, Einklebe- or welding.

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

1 a media line according to the invention for the transport of urea-water solutions in a cross-sectional view,

2 the left, circled area in 1 in an enlarged view,

3 a further embodiment of the invention and

4 the cut AA in 3 ,

The 1 and 2 show a media line to transport a urea-water solution 1 in a cross-sectional view. The media line has a hose line 2 for media transport and one inside the hose line 2 arranged in a loop, connectable to a (not shown) electrical power source Widerstandsheizdraht 3 for heating the urea-water solution 1 on. The resistance heating wire 3 is provided with a plastic sheath, not shown, for example, FEP, which the Widerstandsheizdraht 3 against mechanical damage, especially during its installation, protects. The resistance heating wire 3 is about a turnoff 4 in the hose line 2 into the hose line 2 in and out of this led out. In the area of the branch 4 is a turnoff 4 closing plug 5 with two openings 6 to carry out the resistance heating wire 3 arranged. The stopper 5 is by means of a metal compression sleeve 7 in the turnoff 4 pressed, so that at the same time a seal of the resistance heating wire 3 covered openings 6 is guaranteed. Further, at both hose line ends in each case a connector 8th for connecting the hose line 2 provided with another (not shown) element. This other element can be a further, also provided with an internal resistance heating wire media line, but also, for example, a metering element for the urea-water solution 1 or a corresponding tank. In particular, the enlarged view in 2 it can be seen that the connectors 8th one stop each 9 have, for the exact positioning of the respective Heizdrahtschlaufenendes 10 within the corresponding connector 8th serves, allowing targeted heating of the urea-water solution 1 guaranteed in both connector areas. The stop 9 also facilitates the assembly of the resistance heating wire 3 and also the process security gets through the hard stop 9 , possibly combined with a force monitoring when Heizdrahteinzug, improved. According to the embodiment 1 and 2 is the stop 9 formed as a stop element around which the Heizdrahtschlaufenende 10 is laid. The stop element 9 is integral to the formed as a plastic injection molded connector 8th formed. Furthermore, the stop element 9 in the investment area 11 of the heating wire loops end a round contour to a buckling of the heating wire loop end 10 to prevent. In 2 Although not realized, but generally within the scope of the invention, the flow cross-section of the connector 8th in the area of the stop element 9 be formed enlarged.

When in 3 illustrated, inventive connector 8th assign this as a stop 9 a receiving area with increased inner diameter, wherein the Heizdrahtschlaufenende 10 in this recording area 9 is positioned kink-free. Due to the enlarged inner diameter of the receiving area 9 becomes the kink-free installation of the heating wire loop end 10 relieved, as this is imposed on an unacceptably small bending radius. The recording area 9 has a conical wall 12 on, at which the heating wire loop end 10 is applied. During assembly, the heating wire loop is now so far into the hose line 2 pushed in or pulled out until the heater wire loop end 10 on the conical wall at least partially 12 comes to the plant, resulting in an increased resistance in another collection of Widerstandsheizdrahtes 3 into the hose line 2 results. This rising resistance can be detected, for example, automatically, and trigger a termination of the Einziehvorganges. Of the 4 It can be seen that the enlarged inner diameter is compensated by a transverse to the loop plane reduced inner diameter, so that the hydraulic flow cross section has an oval contour and preferably the size of its surface remains unchanged. As a result, the thawing volume in the corresponding area remains constant despite the increased inner diameter. In the area of the top 13 of the heating wire loop end 10 is a fixing element 14 at the connector 8th arranged, which is a protruding of the top 13 from the connector 8th prevented. After completion of the Einzieh- or Einschiebevorganges this fixing 8th mounted to slipping out of the Heizdrahtschlaufenendes 10 from the hose line 2 prevent so that the position of the heating wire loop end 10 can be specified exactly. In the embodiment, the fixing element 14 designed as a ring and in the connector 8th pressed.

The media line according to the invention can, alternatively be used for the transport of urea-water solutions, for example, for the transport of process media of a fuel cell system or windscreen washer fluid, in particular in motor vehicles.

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

• WO 2011/151008 [0002, 0003, 0005]

Cited non-patent literature

• DIN 70070 [0002]
• CEFIC [0002]

Claims (11)

Media line, in particular for transporting urea-water solutions ( 1 ), with - a hose line ( 2 ) for media transport, - at least one within the hose line ( 2 ) arranged in a loop, connectable to an electric current source resistance heating wire ( 3 ) for heating the medium ( 1 ) and - at least one connector attached to a hose end ( 8th ) for connecting the hose line ( 2 ) with another element, characterized in that the connector ( 8th ) at least one stop ( 9 ), for the exact positioning of the Heizdrahtschlaufenendes ( 10 ) within the connector ( 8th ), so that a targeted heating of the medium ( 1 ) is ensured in the connector area. Media line according to claim 1, characterized in that the stop ( 9 ) is formed as a stop element around which the Heizdrahtschlaufenende ( 10 ) is placed. Media line according to claim 2, characterized in that the stop element ( 9 ) in one piece to the connector ( 8th ) is formed. Media line according to claim 2 or 3, characterized in that the stop element ( 9 ) in the investment area ( 11 ) of the heating wire loop end ( 10 ) has a round contour to prevent buckling of the heating wire loop end ( 10 ) to prevent. Media line according to one of claims 2 to 4, characterized in that the flow cross-section of the connector ( 8th ) in the region of the stop element ( 9 ) is formed enlarged. Media line according to one of claims 1 to 4, characterized in that the connector ( 8th ) as a stop ( 9 ) has a receiving area with an enlarged inner diameter and the Heizdrahtschlaufenende ( 10 ) in this reception area ( 9 ) is positioned kink-free. Media line according to claim 6, characterized in that the receiving area ( 9 ) a conically shaped wall ( 12 ), at which the Heizdrahtschlaufenende ( 10 ) at least partially applied. Media line according to one of claims 6 or 7, characterized in that the enlarged inner diameter is compensated by a transversely reduced to the loop plane inner diameter. Media line according to one of claims 1 to 8, characterized in that in the region of the tip ( 13 ) of the heating wire loop end ( 10 ) a fixing element ( 14 ) on the connector ( 8th ), which protrudes from the tip ( 13 ) from the connector ( 8th ) reduced, in particular prevented. Media line according to claim 9, characterized in that the fixing element ( 14 ) than in the flow cross-section of the connector ( 8th ) arranged / s ring, sieve or filter is formed. Media line according to claim 9 or 10, characterized in that the fixing element ( 14 ) in the connector ( 8th ) is pressed, screwed in, glued or welded.

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