DE102011115890A1 - Partially heated line connector for heatable media line of assembled media line, is partially made of thermally conductive material, where heating system or heating elements are assigned outside body of line connector - Google Patents

Abstract

The partially heated line connector (1) is partially made of thermally conductive material. A heating system or heating elements (9) are assigned outside the body of the line connector. The thermally conductive material is thermally conductive plastic. A connector-like section is formed as a connection section, and the thermally conductive material is provided in the area of the connection section. An independent claim is included for an assembled media line with a heating wire.

Description

The invention relates to an at least partially heatable line connector for a heatable media line and a ready-made media line with at least one heatable media line and at least one at least partially heatable line connector.

Prefabricated media lines with heatable media lines and at least partially heatable line connectors are known in the art. Especially in vehicles media lines are provided for conducting mostly liquid media. At low temperatures threaten to freeze the media lines, which is why a heating is provided. Line connectors serve to connect at least two media lines or to connect a media line to any aggregate. Due to the media lines such media are often performed that tend to freeze due to a relatively high freezing even at very high ambient temperatures, whereby the functionality of, for example. A vehicle affected or even significantly disturbed. This is clearly the case, in particular, with water pipes for windscreen washer systems, as well as with media lines, by means of which aqueous urea solution is transported as a medium, which are used as NO _x reaction additive for diesel engines with so-called SCR catalysts.

From the EP 2 102 464 B1 a device is known for conveying a fluid medium with a heated delivery line and at least one system component with a heated interior region, wherein the delivery line comprises a line connection piece and the system component comprises a module connection piece directly or indirectly coupled to the line connection piece. Furthermore, the device comprises at least one heat conducting sleeve which is inserted into the line connecting piece and the module connecting piece. The heat conducting sleeve is thermally coupled to the transmission of heat with the heated conveyor line or the heated inner region, wherein the heat conducting sleeve produces a fluidic connection of the delivery line and the inner region of the system component. The Wärmeleithülse consists of a metal, in particular copper, aluminum, brass, zinc, silver, gold, magnesium, tungsten, graphite, or a thermally conductive plastic, which is filled with graphite or metal particles.

When freezing the medium guided through the delivery line and the system component, there is the problem that the thin-walled heat-conducting sleeve is pushed out of the inner region of the system component. Furthermore, the assembly of the Wärmeleithülse in the transition region of the delivery line and system component associated with significant costs and effort.

The present invention is therefore based on the object to provide a solving this problem and cheaper way at least a partial heating of a line connector.

The object is achieved for an at least partially heatable line connector for a heatable media line according to the preamble of claim 1, characterized in that the line connector consists at least partially of a thermally conductive or thermally conductive material, outside of the body of the line connector, a heating system and / or heating elements are assigned. For a ready-made media line according to the preamble of claim 12, the object is achieved in that it is provided with such a line connector. Further developments of the invention are defined in the dependent claims.

This creates an at least partially heatable line connector for a heatable media line and a ready-made media line, comprising a heatable media line and at least one such line connector, in which or no longer a heat conducting sleeve is inserted into the transition area or connection area of the media line and line connector, which is pushed out of the line connector during freezing of the guided in the media line and the cable connector medium due to the case occurring volume expansion and thus no heating of the line connector and the corresponding part of the media line can cause more. Rather, the line connector itself is or is formed thermally conductive or thermally conductive, so that it serves to heat the passing medium. There are thus no costs for the additional mounting a Wärmeleithülse, as shown in the EP 2 102 464 B1 is disclosed to. Heat is introduced or coupled directly by conduction or by heating in the thermally conductive or thermally conductive material of the line connector. No heating elements are provided in the body of the conduit connector. Heating elements can be arranged on the outside of the line connector and / or a heating system which couples heat into the line connector can be provided, in particular via the media line connected thereto and / or via heating elements located in the flow line of the media line. Since no loose Wärmeleithülse is provided, there is the problem of pushing out the same during freezing of the medium passed therethrough. The complex installation of such a heat conducting sleeve on an existing Cable connector and media line omitted. Further, in forming the lead connector from a thermally conductive or thermally conductive material, the flow area can be maintained, unlike when inserting a heat conduction sleeve, wherein the flow area of an inner through hole is restricted by the lead connector.

The line connector is advantageously at least in the largest part of the range of a thermally conductive or thermally conductive material, in the medium through the line connector is passed through or is passed through, so in the medium with the line connector comes into contact. It proves to be particularly advantageous if the thermally conductive or heat-conducting material of the line connector is a material that conducts heat better than the material or at least one of the materials of the media line. As a result, it is ensured in the connection region of the media line to the line connector that the existing of the thermally conductive material part of the line connector is heated and does not flow heat from the line connector into the media line. To ensure that the usually thicker in terms of its material or wall thickness line connector at least in a large part of the area in which medium is passed therethrough, the provision of a heat better conductive material in this area of the line connector proves in the Comparison to the material of the media line as very beneficial. When providing a multilayer media conduit jacket, a so-called multilayer structure, in particular a material is used which conducts heat better than at least one of the materials of the media conduit.

The thermally conductive material may, for example, be a thermally conductive plastic. Advantageously, this has a thermal conductivity of 1-20 W / (m · K), in particular 1 to 7 W / (m · K) on. Although the heat conductivity increasing high filler content in the thermally conductive plastic degrades the mechanical properties of the plastic considerably, since this is very brittle by a very high proportion of filler and thus its strength decreases sharply. Thus, even with a thermal conductivity in the range of 1-7 W / (m · K), a good compromise between good mechanical properties of the plastic and an acceptable thermal conductivity can be provided.

The line connector may have at least one part designed as a connection section, in particular a plug-like part, which is designed and / or provided for engagement in a coupling part, the heat-conductive or heat-conducting material being provided at least in the area of the connection section. The coupling part can, for. B. be part of a compound to an aggregate or an aggregate itself. Due to the engagement of the connecting portion, in particular plug-like part formed in the coupling part or vice versa a plug-like part him the connection portion, a heat transfer from one to the other part take place inside. In this way, the transition region can be heated to an aggregate or the media line, so that even there an already frozen medium can be thawed or prevented again that freezes in the media line, the transition region to the line connector and in this guided medium.

Advantageously, the line connector comprises at least one thermally conductive or thermally conductive sleeve member, which is fixedly connected to this, in particular as a two-component injection molded part, insert or Einpressteil formed and firmly connected thereto. The thermally conductive or thermally conductive sleeve member is advantageously made of a thermally conductive or thermally conductive plastic and is z. B. by injecting, inserting or pressing firmly connected to the rest of the body of the pipe connector. When providing a subsequently inserted into an existing cable connector Wärmeleithülse the flow area of the line connector is greatly reduced in this area. If a thermally conductive or thermally conductive sleeve member is integrated with them directly in the manufacture of the conduit connector to provide thermal conductivity and heating of the conduit connector in the area through which the medium flows, the inner diameter of such a sleeve member can be chosen as large as this otherwise provided as an inner diameter of the passage opening through the conduit connector for carrying out medium. It can be a thin-walled metal sleeve, so that only slightly narrowed the inner diameter of the passage opening through the conduit connector for the passage of medium and which has a high conductivity due to the use of metal, are used, for. B. a sleeve made of stainless steel or aluminum. Stainless steel is particularly suitable for use in fuel cells in which deionized water flows through the line connector and media line as a medium. However, since stainless steel is difficult to work with, aluminum is generally preferred. In aluminum, however, the problem of corrosion and the need to provide corrosion protection occurs. To solve this problem, a coating with corrosion inhibitor can be provided. As a result, however, such a metal sleeve is expensive and difficult to produce. For this reason, in particular a sleeve member made of aluminum can be used. It is possible, such an aluminum sleeve in the manufacture of the Press in or insert the cable connector into it, ie firmly integrate the aluminum sleeve into the cable connector. The flow diameter or flow diameter for flowing through with medium is hardly reduced when providing such an aluminum sleeve due to its thin walls. Further, it is possible to form the sleeve member of a thermally conductive or thermally conductive plastic and to integrate in the manufacture of the line connector in this. An integration is possible, for example as a two-component injection molded part.

The line connector may be formed as a multi-component part, in particular as a two-component injection molded part, wherein at least one part is designed to be conductive. A connection section for connecting to the media line is advantageously made laser-transparent. Since thermally conductive materials are usually not laser weldable, it proves to be very advantageous, when providing a multicomponent or two-component part, the part which is provided for connection of the media line or other aggregates laser-transparent form to allow a connection there via laser welding.

Further advantageously, the line connector comprises an insulation device for thermal and / or electrical insulation, in particular the line connector is at least partially surrounded by at least one air volume for thermal insulation enclosing insulation and / or protection device or protective cap and / or in the region of a connecting portion for connecting a plug or the media line, an insulation device for external thermal insulation is provided, in particular a mounting clip, which includes an air volume or an air gap to the line connector. For example, a connection or coupling portion on the outside at least partially surrounding a mounting clip according to WO 2006/018384 A1 to be ordered. For thermal insulation is an air gap or trapped air volume between the line connector and the isolation device. By providing one or more isolation devices heat losses in the region of the line connector can be limited or even prevented. Insulation and / or protective device or protective cap and clip can also consist of an insulating material itself. Furthermore, encapsulation as outside protection of the line connector and its connecting or connecting sections against mechanical and, depending on the choice of material, also against chemical damage is possible. As encapsulation, an encapsulation of the line connector, in particular total encapsulation, can be provided with an outer housing. Furthermore, a so-called shrinking tube, fabric tube or the like can be provided as encapsulation. With the provision of the encapsulation, an air volume can be enclosed between the line connector and the encapsulation, whereby a good heat distribution and a good thermal insulation from the environment, ie to the outside, can be achieved.

The line connector can also be designed such that heat can be coupled into the line connector in the radial direction by means of a device for coupling in heat, in particular in the connection region with the media line. Here, for example, by one or more heating elements heat is coupled into the jacket of the media line, transported axially over the jacket to the end of the media line and in the region of the line connector, in which the end of the media line is inserted radially from the jacket of the media line in the Line connector coupled. This coupled-in heat can be forwarded quickly within this, in particular when provision is made for a higher thermal conductivity of the material of the line connector in comparison to the material of the media line, so that heating of the line connector via the media line is possible. For axial heat transport within the line connector this is advantageously provided with a wall thickness of 1 to 20 mm, in particular with a wall thickness of 2 to 5 mm.

The line connector may be provided with at least one fastening element and / or guide element for arranging heating elements on the outside and for improving the heat introduction, in particular with a rib structure. By means of such fasteners or guide elements or such a rib structure heating elements can be selectively fixed there in position on the outside of the line connector, where they can be connected to PTC thermistors or an electrical supply or where an external winding of the line connector to take place with heating elements , The heat coupling takes place in this case from the outside arranged around at least a part of the line connector on the thermally conductive material in the interior of the line connector into or to the sections of the line connector to be heated and therefore provided with the thermally conductive or thermally conductive means or thermally conductive or thermally conductive material are formed.

The media line is also advantageously provided with at least one heating element, in particular at least one heating element extending continuously along the media line. In particular, the media line with at least one heating wire, in particular two heating wires at least partially provided. The heating element or the at least one heating wire can be arranged outside and / or inside with respect to the media line / be. Furthermore, it is also possible to arrange it in the jacket of the media conduit in one or more layers thereof. The media line or the jacket of the media line may in particular contain at least one layer of an electrically conductive and / or electrically and / or thermally conductive plastic. The layer or heat-generating layer may have heating elements for heating the plastic material, thus heating the layer is directly possible. In providing such a conductive or conductive layer in the jacket of the media line contacting elements are advantageously provided, in particular guided by the jacket of the media line to the outside to provide there a supply of electrical energy can. In particular, PTC thermistors can be connected there, which in turn are connected to an electrical energy source. For the line connector, a supply of electrical energy in the region of a connection section, in particular a plug-type or line connection section and / or a coupling section can take place. Advantageously, there is the power supply for both the media line and the line connector. For example, the ends of the heating elements, which are provided for heating the media line and which are provided for heating the line connector, suitably connected and the connection points are received protected within the insulation and / or protection device.

In particular in the region of the line connector, at least one heating strand can be arranged, in particular one, two or four heating strands. When a heating strand is provided, it advantageously extends continuously along the media line and the at least one line connector, ie, starts at the one line connector, extends along the media line to the other line connector, possibly beyond it, back to the first line connector, thus being double placed inside, outside and / or in the jacket of the media line along it. When providing two heating strands advantageously both extend along the media line and advantageously at least one of the two heating strands is provided for wrapping around the line connector. With the provision of four heating strands, two heating strands advantageously extend along the media conduit and two heating strands are provided for wrapping around the conduit connectors. The heating strand surrounding the conduit connector is connected to one of the two heating strands extending along the media conduit. The other along the media line extending heating strand and the other end of the line connector at least partially surrounding heating strand are connected to the electrical power supply, in particular PTC thermistor. The two Heizlitzen extending along the media line can thus be connected to each other at their ends and / or to a further heating strand or PTC thermistors for the energy supply. Accordingly, it is possible to provide the supply of electrical energy only in the region of one of the two line connectors, which are arranged on the end of the media line, both when providing two heating strands and when providing four heating strands.

Furthermore, a different number of heating strands than on the other can be arranged at the one line connector. For example, the one line connector may be provided with two heating strands and the other with four heating strands, with two heating strands at each of the line connectors for wrapping the same. By providing a different number of heating strands or generally heating elements on the two line connectors of the assembled media line different amounts of heat can be introduced into the line connector.

As a material for the at least partially made of thermally conductive and heat-conducting material line connector is particularly suitable a thermally conductive material having an elongation at break of 1 to 10%, in particular with an elongation at break of ≥ 2% and with a tensile strength of more than 50 MPa, in particular more than 80 MPa. It proves to be particularly advantageous to provide a mineral filler, in particular long glass fibers with a diameter of> 0.2 mm. Also, short fibers can be used. For example, a carbon-based material, in particular graphite, can be used as the filler. When using long glass fibers, a tensile strength of more than 140 MPa with a breaking elongation of 2% is possible for a polymer material. When short glass fibers are used, for example, a polymer material having a thermal conductivity of 5 W / (m.K) can be provided, which has a tensile strength of about 70 MPa and an elongation at break of less than 1%, using as the filler a carbon-based material. The use of short fibers, however, leads to an almost twice as expensive plastic material compared to the use of long glass fibers, so that in view of cost savings, the use of long glass fibers is preferred, especially with regard to the possible higher tensile strength. For permanent contact with an aqueous urea solution, such as AdBlue ^® , the filler is a mineral or mineral-based material that has sufficient stability against prolonged exposure to this substance. As already mentioned, alternatively or optionally in addition to the use of plastic material, a metal as thermally conductive or thermally conductive material are used, in particular stainless steel, which proves to be particularly suitable when passing deionized water when used in fuel cells.

For further explanation of the invention embodiments of this will be described in more detail below with reference to the drawings.

These show in:

1 shows a cross-sectional view through a first embodiment of a line connector according to the invention,

2 a cross-sectional view through a second embodiment of a line connector according to the invention,

3 a cross-sectional view through a third embodiment of a line connector according to the invention,

3a a longitudinal sectional view of another embodiment of a conduit connector according to the invention with external rib structure for inserting heating elements,

3b a cross-sectional view of the line connector according 3a .

4 a cross-sectional view through a fourth embodiment of an inventive line connector,

5 1 a side and partially cross-sectional view through a prefabricated media line with line connectors according to the invention in the fifth embodiment,

6 a side sketchy view of a line connector according to the invention with attached heatable media line, wherein a four heating strands comprehensive prefabricated media line can be formed using this Heizelementeanordnung,

7 a side sketchy view of a line connector according to the invention with attached heatable media line, wherein a two heating strands comprehensive prefabricated media line can be formed using this Heizelementeanordnung,

8th 3 shows a side view of a prefabricated media line according to the invention using the two end-side line connectors, one of which is a straight line connector and one angled,

9 a side view of a prefabricated media line according to the invention using the line connector according to 6 and of in 3 on average and in 10 shown line connector,

10 a partial side sectional view of the line connector according to 3 , without fixing clip, but with encapsulation,

11 a detailed view of the media line according to 9 , and

12 a side sketchy view of the radial heat transfer from the media line in a line connector according to the invention.

In 1 is a cross-sectional view of a line connector 1 shown, which consists of a thermally conductive material. The cable connector 1 is currently being trained. It has a line connection section 10 and a coupling section 15 on. The pipe connection section 10 the conduit connector has an inner sleeve-shaped plug-like part 11 and an outer sleeve-shaped part surrounding it on the outside and at a distance therefrom 12 on. The wall of a dashed line indicated media line 2 gets into the gap 13 between the sleeve-shaped plug-like part 11 and the outer sleeve-shaped part 12 plugged in. The media management 2 is about heating elements 9 heated, wherein in the illustrated embodiment, the heating of the line connector 1 by heat transfer from the heated media line 2 via the pipe connection section 10 on the cable connector 1 he follows. For this purpose, the in 1 shown conduit connector made of a thermally conductive material that conducts heat better than the material of the media line 2 , This is a heating of the cable connector 1 by heat transfer from the media line 2 on the cable connector 1 very possible. A through an internal passage opening 14 of the line connector 1 flowable medium can thus be protected from freezing or thawed again, if this within the media line 2 and the conduit connector 1 flowing medium should be frozen.

At the coupling section 15 For example, an aggregate can be coupled. This is in 1 indicated only by dashed lines. The inner passage opening 14 extends through the conduit connection section 10 and the coupling section 15 therethrough. For isolating the coupling section on the outside 15 of the line connector 1 and for connecting the conduit connector 1 with an aggregate or an aggregate connector is a mounting clip 3 intended. This serves to hold the on the coupling section 15 mounted aggregate connector and the outside thermal insulation of the coupling portion to keep the heat losses here as low as possible, so that this coupling portion are kept sufficiently warm and so freezing of the through the inner through hole 14 flowing medium prevented or this can be thawed after Everituellem freezing again.

In 2 is another embodiment of the line connector 1 shown. In this embodiment, in contrast to the embodiment according to 1 , the conduit connector 1 with a thermally conductive sleeve member fixedly mounted therein 16 Mistake. This comprises a sleeve-shaped plug-like part 17 and a cantilevered flange-like part 18 , It extends through the entire longitudinal extent of the line connector 1 through from the end of the conduit connection section 10 to the opposite end of the coupling section 15 , The flange-like part 18 of the sleeve element 16 cantilevers there, ie in the area in which a connection to an aggregate connector or an aggregate, etc. is possible, plate-like or flange-like, so that there is a better heat input possible at the front. The thermally conductive or thermally conductive sleeve member 16 can be manufactured as a separate part and inserted into the line connector during its manufacture and fastened in this, in particular be pressed. Furthermore, it is possible to form the line connector as a two-component injection molded part, wherein the thermally conductive or thermally conductive sleeve member 16 forms the one part and the rest of the body of the line connector 1 the other part. As the sleeve element 16 directly in the production of the line connector 1 is integrated with this, is the inner through hole 19 in the sleeve member having a diameter of the inner through hole 14 in the embodiment of the line connector 1 to 1 corresponding inner diameter provided. In contrast to the subsequent insertion of a separate Wärmeleithülse in an existing line connector, wherein the diameter of the inner passage opening is reduced by twice the wall thickness of the Wärmeleithülse, this is in the provision of the heat-conducting or thermally conductive sleeve member 16 not the case, since the wall thickness of the sleeve element 16 in the manufacture of the line connector 1 already can be taken into account.

In 3 a further embodiment of a line connector according to the invention is shown, which, in contrast to the embodiments according to 1 and 2 as angled cable connector 4 is trained. This also has, as the embodiment of the line connector 1 according to 2 , a thermally conductive sleeve member 40 on, so it is not necessary that the rest of the body of the pipe connector 4 consists of a thermally conductive or thermally conductive material. For heating one inside the inner through hole 41 flowing medium is already the heating of the thermally conductive or thermally conductive sleeve member 40 sufficient. The thermally conductive sleeve element 40 ends in an angle section 42 of the line connector 4 this being sufficient to allow heating by the conduit connector 4 to allow flowing medium and to prevent freezing of this or to thaw it after freezing can. The sleeve element 40 preferably projects into the region of the line connector, which is / is wrapped by a heating conductor or heating element. Instead of the straight end formation of the sleeve member 40 like this in 3 is shown, this can also be formed obliquely at the end, that is provided with an end chamfer cut, be formed or longer than this in 3 is shown.

A to the angle section 42 subsequent line connection section 43 of the line connector 4 is laser transparent in this embodiment to allow bonding in this area using a laser. The pipe connection section 43 is in 3 the area in which the bore portion of the stepped bore with the larger diameter lies, in which the end of the media line 2 is inserted and fastened in it. Also, the outer sleeve-shaped part 12 of the pipe connection section 10 of the line connector 1 according to 1 is preferably laser-transparent designed to allow the use of a laser for connecting by laser welding here. Since thermally conductive materials, in particular plastics, are usually not transparent to the laser, the line connection section is used 43 of the line connector 4 according to 3 or the outer sleeve-shaped part 12 of the pipe connection section 10 of the line connector 1 another material, namely a laser-transparent material, used, whereby here also a two-component injection molded part can be manufactured.

For insulating and external protection also with the conduit connection section 43 provided portion of the angled conduit connector 4 this can be encapsulated 5 be provided on the outside, or be between encapsulation 5 and cable connectors 4 an air gap 50 remains, so an air volume is included, which serves for the insulation. This is in 3 indicated. Such encapsulations 5 In particular, they can be designed as two half-shells in order to allow problem-free mounting after the joining together of the line connector and the media line. Furthermore, z. B. forming as encapsulation of the line connector or in the form of a Heat shrink tubing or fabric hose jacket possible.

Also in the embodiment of the line connector 4 to 3 is a coupling section 44 from the mounting clip 3 surrounded at least for the most part to here on the one hand attaching, for example, a plug of an aggregate or the like and on the other hand, an outside thermal insulation of the coupling portion 44 to enable.

In the transition region from coupling section to the angle section 42 is a centering approach 45 formed, which due to the angular shape of the line connector 4 as very helpful for mounting the various components to the conduit connector 4 proves. Further, on the outside of the line connector 4 Means for fixing and / or for guiding the heating elements are provided, of which in 3 an example of a groove 142 at the angle section 42 is shown. In this groove 142 For example, a heating element can be inserted in order to be able to inject heat from the outside into the line connector at desired locations. By means of a device for fixing the heating elements they are attached to the line connector, inserted into a device for guiding only loosely.

The 3a and 3b show an outside rib structure with individual ribs 242 and intervening grooves 243 as a guide, in the heating elements 9 are inserted. Especially good in these figures is the air gap 50 or the volume of air between pipe connectors 4 and encapsulation 5 to recognize, which causes the actual isolation.

The wall thickness w of the line connector, in particular in the coupling region, can be 2 to 5 mm, with the largest wall thickness in the region of a flange-like projection 46 for example, at 20 mm. At the flange-like projection 46 a mounting section is supported 30 of the mounting clip 3 off, in a groove 49 of the coupling section 44 is arranged. The groove is between the projection 46 and a protrusion spaced therefrom 146 educated.

The fastening clips 3 can be fully arranged around the respective coupling portion of the line connector around or C-shaped, so that they surround only a portion of the respective coupling portions. For latching to the respective line connector, a fastening track, in particular the already mentioned groove, can be provided. In the 1 to 4 is such a mounting groove 100 respectively. 49 shown in the attachment section 30 of the respective fastening clips 3 intervenes.

4 shows a sketch-like cross-sectional view through a further embodiment of a line connector according to the invention 1 , The one in here 4 sketched line connector is designed as a two-component part and has an inner thermally conductive part 60 and an outer thermally insulating part 61 on. The thermally conductive part extends inside the conduit connector and includes an internal passage opening 62 through which medium to be heated can flow. The outer insulating part 61 extends in the region of the conduit connector which is intended for connection or mating with a media conduit. The inner thermally conductive part 60 also extends to the outside of the conduit connector 1 and forms a coupling section 63 , This surrounding can turn a clip 3 be arranged to provide isolation to the outside. This is in 4 but not shown. The in 4 only partially shown connection area 64 to connect the media line is laser transparent advantageous, thus in particular the material of the outer insolating part 61 , As a result, a use of a laser for attaching the media line to the line connector 4 possible.

5 shows a side view and partial sectional view of a prefabricated media line 7 , This includes two cable connectors 1 . 8th and the associated media line 2 , The media management 2 is from a corrugated pipe 20 surround. In the attachment area of the corrugated tube to the two line connectors 1 . 8th are fixing clips 21 arranged. Furthermore, on both line connectors 1 . 8th mounting clips 3 arranged on the line connector 8th arranged fastening clip 3 is shown cut and the on the line connector 1 arranged fastening clip 3 shown in side view. The latter is c-shaped, like 5 can be removed.

The cable connector 8th according to 5 has a laterally branching connection section 80 on. In these stick-like elements protrude 81 . 82 as electrical contacts for a power connection into it. The pencils 81 . 82 are with the coat 22 the media management 2 connected or with the heating elements guided therein or a thermally conductive layer of the media line 2 , This is connected to the heating conductor or PTC thermistor inside the connection section 80 possible.

In particular, the connection section 80 comprehensive part of the line connector 8th can, as in 5 indicated by encapsulation 5 be surrounded to provide insulation and at the same time an external protection. As in 5 implied, can also be a part of the mounting clip 21 in the enclosure 5 be recorded.

The 6 and 7 show possible embodiments of the heating of angled and straight line connectors, ie the heat and the arrangement of the heating strands provided for this purpose within the line connector. According to 6 are three heating strands within the conduit connector 4 or the encapsulation 5 arranged. Two heating strands 90 . 91 extend along the media line 2 in the line connector 4 or the encapsulation 5 , in particular protective cap, into it. Another heating strand 92 is a coupling section 47 of the line connector 4 around to heat it, and to a connection section 48 of the line connector 4 guided. The respective ends 192 . 193 the heating wire 92 are with the heating strand 91 or their end 191 and a PTC thermistor 95 at the connection or crimping points 93 . 94 connected. The end 190 the first heating strand 90 that through the media line 2 is guided, is with a second PTC thermistor 96 connected. The two PTC thermistors 95 . 96 are to a plug 97 guided, which can be plugged into an electrical power supply device.

There are also other interconnections of the heating strands for electrically contacting them possible.

As 7 it can be seen, here are the two heating strands 90 . 91 first along the media line 2 guided, subsequently within the line connector 1 around the pipe connection section 10 coiled around, with both heating strands 90 . 91 Coiled around the plug portion are arranged. Both heating strands 90 . 91 are within the encapsulation 5 that the line connector 1 surrounds, interconnected, in particular crimped. This is through a connection or crimping point 98 in 7 indicated. Here, no connection to an electrical power supply is provided. This can be done in the area of the opposite other line connector.

8th shows a combination of a straight line connector, such as the line connector 1 according to 1 . 2 or 4 , and an angled conduit connector 4 , such as In 3 shown, with the two line connectors 1 . 4 with the media management 2 , the encapsulations 5 and a fastening clip 3 already assembled as pre-fabricated media line 7 are shown.

In the embodiment of the assembled media line 7 according to 9 is in place of the line connector 1 another angled conduit connector 4 end to the media line 2 intended. This is 10 shown in detail, wherein the one shell half of the cap designed as encapsulation 5 is removed to better recognize the cable connector. Similar to the line connector according to 7 Here are the two heating strands 90 . 91 interconnected or crimped at the junction 98 , Heat is thus outside here in the line connector 4 coupled, so that a heating of the inner passage opening through the conduit connector is possible therethrough in order to heat the medium flowing therein can. Only the pipe connection section is heated on the outside 43 as well as the angle section 42 but not the coupling section 44 , In these, the heat passes through heat conduction due to the provision of a thermally conductive or thermally conductive material, such as the 1 to 4 described above. The coupling section 44 of the line connector 4 in turn serves to connect to a unit plug, etc., which can be plugged there.

In 11 is the detail of the corrugated tube 20 jacketed media line 2 shown. At the in 11 embodiment shown, the heating strands are outside the media line 2 guided around For fixing and / or for external protection is a wrapping with adhesive or tissue adhesive tape 23 intended. This is in 11 also indicated.

Instead of arranging the heating strands 90 . 91 on the outside of the media line, as in 11 indicated, these can also be in the coat 22 the media line are arranged so that the media line has a thermally conductive jacket. Likewise, at least one layer of the jacket 22 the media line are formed thermally conductive. Is the thermally conductive layer up to the front side of the media line 2 guided, a heat transfer from the heated media line to the thermally conductive layer or the thermally conductive material of the line connector can be made by contact of the end face of the media line with the corresponding thermally conductive portion of the line connector. In principle, it is also possible to pass heating wires or heating elements through the interior of the media line. This is in 11 but not shown.

The heating strands can be arranged along the media line, for example, with a pitch s of 15 to 35 mm, in particular 20 to 25 mm. In this way, a secure hold even when curving the line in the subsequent assembly, for example. In a vehicle, as possible as possible a very good heating of the guided medium within the media line medium.

In 12 is a radial heat input from the media line 2 in the line connector 1 outlined, taking out the coat 22 the media management 2 Heat is coupled radially into the line connector. 12 shows the principle of radial Heat input from the media line 2 or the heating strands along it 90 . 91 in the line connector 1 into it.

As 10 can be taken, the area served by the two heating strands 90 . 91 is surrounded, as heat coupling region WE and the area in which heat is transported, comprising the coupling portion and the angle portion, as the heat transfer area WT. In particular, the heat transport region is therefore formed thermally conductive, in particular by the in the 1 to 4 shown possibilities.

As material for the line connector or in particular the thermally conductive part of the line connector is a material having a thermal conductivity of 1 to 20 W / (m · K), in particular 1 to 7 W / (m · K). Furthermore, it proves to be advantageous to use a material having an elongation at break of 1 to 10%, in particular an elongation at break of about 2%. A high thermal conductivity is achieved by the highest possible proportion of filler, but the mechanical properties, especially of plastic, greatly deteriorates, so that plastic is very brittle and decreases its strength. Therefore, a good compromise is chosen between the desired high thermal conductivity and good mechanical properties. Suitable fillers are, in particular, mineral fillers, such as long glass fibers or short glass fibers. For example, a polymer PA66 with long glass fibers can be used as a filler, which has a tensile strength of about 145 MPa and an elongation at break of 2%, such as. Star-Therm ^® WG A-2 from EPIC Polymers Ltd., Kaiserslautern. Also suitable, since very highly conductive, a polymer PA66 with short glass fibers as carbon-based filler (graphite) with a tensile strength of 60 MPa and an elongation at break of 0.9%, eg. The product Alcom PA66 910 / 30.1 GF15 TCE5 ALBIS Plastic GmbH. Other thermally conductive materials are suitable for the production of the line connector, in particular also material combinations.

In addition to the embodiments described above and shown in the drawings of line connectors and ready-made media lines with such line connectors numerous other can be formed in which each of the line connectors at least partially made of a thermally conductive or thermally conductive material, wherein embedded in the body of the line connector no heating elements are. In particular, any combinations of the embodiments described above can be provided.

LIST OF REFERENCE NUMBERS

1

Line connector, straight

2

media line

3

mounting clip

4

Cable connector, angled

5

encapsulation

7

ready made media line

8th

line connectors

9

heating element

10

Conduit connection section

11

sleeve-shaped plug-like part

12

outer sleeve-shaped part

13

gap

14

inner passage opening

15

coupling section

16

thermally conductive / thermally conductive sleeve element

17

sleeve-shaped plug-like part

18

projecting flange-like part

19

inner passage opening

20

corrugated pipe

21

mounting clip

22

coat

23

Adhesive or tissue adhesive tape

30

attachment section

40

thermally conductive / thermally conductive sleeve element

41

inner passage opening

42

angle section

43

plug-in section

44

coupling section

45

Spigot

46

flange-like projection

47

coupling section

48

connecting section

49

groove

50

air gap

60

inner thermally conductive part

61

outer insulating part

62

inner passage opening

63

coupling section

64

terminal area

80

laterally branching connection section

81

pen

82

pen

90

first heating strand

91

second heating strand

92

third heating strand

93

Connection / crimping

94

Connection / crimping

95

PTC

96

PTC

97

plug

98

Connection / crimping

100

groove

142

groove

146

projection

190

The End

191

The End

192

The End

193

The End

242

rib

243

groove

W

Wall thickness

S

pitch

WE

Wärmeeinkopplungsbereich

WT

Heat transfer area

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

• EP 2102464 B1 [0003, 0007]
• WO 2006/018384 A1 [0013]

Claims (17)

At least partially heatable line connector ( 1 . 4 . 8th ) for a heatable media line ( 2 ), characterized in that the conduit connector ( 1 . 4 . 8th ) consists at least partially of a thermally conductive or thermally conductive material, wherein outside the body of the line connector ( 1 . 4 . 8th ) are assigned a heating system and / or heating elements. Cable connector ( 1 . 4 . 8th ) according to claim 1, characterized in that the thermally conductive material is a thermally conductive plastic. Cable connector ( 1 . 4 . 8th ) according to claim 1 or 2, characterized in that the line connector ( 1 . 4 . 8th ) consists of a thermally conductive or heat-conducting material in at least the majority of the area, in the medium through the line connector ( 1 . 4 . 8th ) is passed through or passed therethrough. Cable connector ( 1 . 4 . 8th ) according to claim 3, characterized in that the thermally conductive plastic has a thermal conductivity of 1 to 20 W / (m · K), in particular 1 to 7 W / (m · K). Cable connector ( 1 . 4 . 8th ) according to one of the preceding claims, characterized in that the line connector ( 1 . 4 . 8th ) at least one part designed as a connection section, in particular a plug-like, part ( 11 . 17 . 43 . 48 . 80 ), wherein at least in the region of the connecting portion, the thermally conductive or thermally conductive material is provided. Cable connector ( 1 . 4 . 8th ) according to one of the preceding claims, characterized in that the line connector ( 1 . 4 ) at least one thermally conductive or thermally conductive sleeve element ( 16 . 40 ), which is fixedly connected to this, in particular as a two-component injection molded part, insert or Einpressteil formed and firmly connected thereto. Cable connector ( 1 . 4 . 8th ) according to one of the preceding claims, characterized in that the line connector ( 1 ) is designed as a multi-component part, in particular as a two-component injection-molded part, wherein at least one part ( 60 ) is designed to be conductive, in particular a connection section ( 64 ) for connecting to the media line ( 2 ) is formed laser-transparent. Cable connector ( 1 . 4 . 8th ) according to one of the preceding claims, characterized in that the line connector ( 1 . 4 . 8th ) an isolation device ( 3 . 5 ) for thermal and / or electrical insulation comprises, in particular at least partially, at least one insulation and / or protection device enclosing an air volume for thermal insulation ( 5 ) is surrounded and / or in the region of a connecting portion for connecting to a plug or the media line ( 2 ) an insulation device for outside thermal insulation is provided, in particular a fastening clip ( 3 ) containing an air volume or an air gap to the line connector ( 1 . 4 . 8th ). Cable connector ( 1 . 4 . 8th ) according to one of the preceding claims, characterized in that the line connector ( 1 . 4 . 8th ) is formed so that by means of a device for heat coupling heat in the radial direction in the line connector ( 1 . 4 . 8th ) can be coupled, in particular in the connection area with the media line ( 2 ). Cable connector ( 1 . 4 . 8th ) according to one of the preceding claims, characterized in that the line connector ( 1 . 4 . 8th ) is provided for axial heat transfer with a wall thickness (w) of 1 to 20 mm, in particular with a wall thickness (w) of 2 to 5 mm. Cable connector ( 1 . 4 . 8th ) according to one of the preceding claims, characterized in that the line connector ( 1 . 4 . 8th ) with at least one fastening element and / or guide element ( 242 . 243 ) for externally arranging heating elements ( 9 ) and for improving the heat input is providable or provided, in particular with a rib structure. Assembled media line ( 7 ) with at least one heatable media line ( 2 ) and with at least one at least partially heatable line connector ( 1 . 4 . 8th ) according to any one of the preceding claims. Assembled media line ( 7 ) according to claim 12, characterized in that the thermally conductive or thermally conductive material of the line connector ( 1 . 4 . 8th ) is a material that conducts heat better than the material or at least one of the materials of the media line ( 2 ). Assembled media line ( 7 ) according to claim 12 or 13, characterized in that the media line ( 2 ) with at least one heating element ( 9 ), in particular at least one continuous along the media line ( 2 ) extending heating element ( 9 ), in particular with at least one heating wire, in particular two heating wires. Assembled media line ( 7 ) according to one of claims 12 to 14, characterized in that the media line ( 2 ) contains at least one layer of a conductive or conductive plastic, in particular with Contacting elements is provided, in particular the heat-generating layer has heating elements for heating the plastic material. Assembled media line ( 7 ) according to one of claims 14 to 15, characterized in that in the region of the line connector ( 1 . 4 . 8th ) at least one heating strand ( 90 . 91 . 92 ), in particular one, two or four heating strands ( 90 . 91 . 92 ), in particular in the region of the one line connector ( 1 . 4 . 8th ) a different number of heating strands ( 90 . 91 . 92 ) is arranged as at the other. Assembled media line ( 7 ) according to claim 16, characterized in that when providing a heating strand, these are continuous along the media line ( 2 ) and the at least one line connector ( 1 . 4 . 8th ), when providing two Heizlitzen ( 90 . 91 ) both along the media line ( 2 ) and at least one of the two heating strands ( 90 . 91 ) for wrapping the line connector ( 1 . 4 . 8th ) is provided, when providing four Heizlitzen ( 90 . 91 . 92 ) two heating strands ( 90 . 91 ) along the media line ( 2 ) and two heating strands ( 92 ) for wrapping the line connectors ( 1 . 4 . 8th ) are provided.

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