DE102018113632A1 - Guide channel and line arrangement - Google Patents

Abstract

The invention relates to a line arrangement (1) comprising at least one guide channel (6) with an interior (10) for receiving and arranging at least two liquid-tightly separated line systems (2, 4) with different diameters and with two end openings, and having at least two Pipe systems (2, 4). It is provided that a cross section of the interior (10) is oval shaped, wherein the oval cross section of the interior (10) of the guide channel (6) has an axis of symmetry (S).

Description

The invention relates to a guide channel having an interior for receiving and arranging at least two liquid-tightly separated line systems with different diameters and two end openings.

In various technical areas, the drive and line systems used are becoming increasingly complex. With an increasing degree of complexity, the number of necessary lines often increases. Such lines may be, for example, coolant lines, hydraulic or pneumatic lines, overpressure or vacuum control lines, which are usually laid independently of one another in devices or vehicles depending on the space available. The respective piping systems must be operable under different environmental conditions.

Due to legally prescribed emission standards, diesel vehicles use a further conduit system for providing a urea solution, which is necessary for carrying out a selective catalytic reduction in the exhaust gas tract. Since a urea solution commonly used in diesel vehicles, which is also called UREA, crystallizes with a urea content of 32.5% at a temperature of -11.5 ° C, such a conduit system must be heatable to ensure reliable operation.

Systems are already known in which a storage tank for the urea solution is equipped with an additional heater. Furthermore, systems are known which have a heating element integrated in the line system for heating up the urea solution. Such a device is for example in the EP 2 706 280 B1 disclosed.

However, a problem with the known solutions is that the heaters occupy additional space in the vehicle and require electronic control. As a result, the assembly cost is increased. Furthermore, the heating takes place locally, so that the urea solution within the conduit system can cool and crystallize despite the heating.

The object of the invention is therefore to eliminate the disadvantages of the prior art and provide a Temperierungsmöglichkeit a conduit system, which is connected to save space and with minimal control and assembly costs.

Main features of the invention are specified in the characterizing part of claim 1. Embodiments are the subject of claims 2 to 12.

The invention relates to a conduit arrangement with at least one guide channel and at least two conduit systems. The guide channel has an inner space for receiving and arranging at least two fluid-tightly separated line systems with different diameters and two end openings. According to the invention, a cross section of the interior is oval shaped, wherein the oval cross section of the interior of the guide channel has an axis of symmetry.

Through the guide channel, a section can be provided by which at least two pipe systems are at least partially adjacent to each other. In particular, a plurality of fluid lines in the interior of the guide channel can be arranged parallel to each other and space-saving along an elongated extension of the guide channel are performed together. Such an arrangement of line systems can be designed to save space if the cross-section of the guide channel or the interior is adapted in its configuration to the respective diameters of the arranged in the interior piping systems. Since the respective piping systems have a different diameter, the cross-section of the interior of the guide channel must be tapered or conically shaped according to the diameters for optimum and space-saving adaptation. Under an oval cross-section not only strictly round or convex shapes are understood, but also symmetrical shapes with flat areas that are connected to each other via convex shapes, the flat areas in particular not parallel, but inclined to each other. The line arrangement is very flexible due to this shape and can be easily laid.

In addition to a space-optimized arrangement of the respective lines, a heat exchange between the arranged in the interior of the guide channel lines take place. As a result, for example, a line section of a cooling water circuit can be passed through the interior of the guide channel, so as to heat or cool other arranged in the guide channel lines. Such a temperature control can be carried out completely passively. In particular, this electronic controls can be omitted and an assembly effort can be minimized.

It is particularly preferred that the line systems rest in the longitudinal direction, So there is a line contact between the pipe systems. As a result, effective heat transfer with low heat losses can be ensured.

For example, a piping system of a refrigeration cycle with a piping system for supplying a urea solution through the interior of the guide channel can be installed. By such an arrangement, the urea solution can be efficiently, inexpensively and protected with a minimum of effort before crystallizing. In addition, an already crystallized urea in the corresponding line can be re-liquefied or dissolved when the coolant temperature rises during operation and a heat transfer between the arranged in the interior of the guide channel piping systems takes place.

The conduit arrangement may preferably be designed as an integrated component of the respective conduit systems. As a result, for example, the temperature of the laid by the guide channel lines are passively and automatically matched to each other. Alternatively, the line arrangement can be arranged parallel to existing line systems and can be actively coupled to the line systems via electronic or mechanical valves.

According to an advantageous embodiment, the at least two liquid-tightly separated line systems are arranged in a form-fitting manner in the interior of the guide channel. In this way, a particularly space-saving arrangement of the conduit systems can be realized in the guide channel. In particular, in addition to the at least two line systems, current-carrying lines, air lines and drainage lines can be laid in the interior of the guide channel. The at least two conduit systems can have different diameters. Here, the cross section of the interior of the guide channel is designed such that the outer contours of the conduit systems correspond to the contours of the interior. As a result, the cross section of the interior has a width which differs transversely to the longitudinal orientation of the guide channel. This shape allows flexible placement within a vehicle and allows, for example, a wind-protected arrangement of the line arrangement.

A heat transfer between the at least two conduit systems can be carried out particularly efficiently if an end sleeve is arranged in at least one end opening of the guide channel.

According to one embodiment, the at least one end sleeve has at least two openings for the form-fitting arrangement of the at least two fluid-tightly separated line systems. As a result, each line system received by the guide channel can be guided through the at least one end sleeve in a precisely fitting manner. Through the use of ferrules end-arranged shrink tubing can be omitted and an assembly effort of the guide channel can be reduced.

According to a further embodiment, the openings of the end sleeve have the same distance as the at least two liquid-tightly separated line systems received in the interior of the guide channel with respect to one another. The at least two conduit systems can be arranged parallel to one another along the guide channel and guided out of the guide channel at the end. As a result, it can be prevented that the respective line systems arranged in the interior are kinked or lose their relative alignment with one another. In particular, the respective piping systems can be arranged non-positively in the openings of the end sleeve, whereby the conduit systems are positionally fixed in the interior of the guide channel. Preferably, the distance between the mutually parallel piping systems is minimized. To allow optimum heat transfer between the piping systems, the piping systems can be arranged without a distance parallel to one another in the guide channel.

In a further embodiment, the openings of the end sleeve at a greater distance from each other, as housed in the interior of the guide channel at least two liquid-tightly separated line systems. By this measure, the respective pipe systems end of the guide channel can be objected to each other so that, for example, connection systems or screw can be positioned in order to continue the line systems without affecting each other spatially.

The end-side complaint of the at least two conduit systems from one another can be implemented particularly gentle on the material if the guide channel has at least one transition area arranged at the end for spacing the at least two conduit systems. Through the transition region, the conduit systems can be aligned continuously to a position of the openings of the ferrule. Through the transition region, the conduit systems can be spaced from each other so that, after a lead out of the conduit systems from the guide channel space for mounting or connection possibilities between the piping systems is created.

At least one end sleeve can be arranged particularly easily and quickly on the guide channel if it has a connecting portion for receiving an end portion of the guide channel inside. Through the connecting portion, the ferrule can be inserted over the guide channel and attached to the end of the guide channel. The guide channel can hereby be designed as simple, since no end-side receiving portions for receiving end sleeves are necessary. The end sleeve can be fixed, for example, positively, non-positively or frictionally engaged on the guide channel.

According to a preferred embodiment of the line arrangement, the at least two liquid-tightly separated from each other and arranged in the guide channel pipe systems are thermally coupled together. This makes it technically easy to realize a heat exchanger, which is inexpensive to produce in the form of the guide channel, has a low weight and occupies a minimal additional mounting space. The thermal coupling of the at least two conduit systems preferably consists of a heat conduction through the materials of the conduit systems. In addition, the volume of air trapped in the interior can be used to control the temperature of the piping systems.

The guide channel can be used particularly efficiently if a line system arranged in the guide channel for guiding a coolant and a further line system arranged in the guide channel for guiding a urea solution (UREA) are configured. In this case, the line system used for the urea solution preferably has a small diameter or flow cross-section than the line system used for the coolant. This allows effective heat transfer from the coolant to the urea solution. As a result, a cold-induced crystallization of the urea can be prevented or a crystallized urea can be re-liquefied without an active regulatory effort.

The guide channel can be used in many ways if it is rigid or flexible. As a result, the guide channel can be adapted to existing space or structurally supportive in a rigid design. For example, the guide channel made of a flexible or rigid plastic. For example, the guide channel may be shaped as a corrugated tube. The guide channel can be made particularly inexpensive, if an injection molding process is used for this purpose.

According to a further embodiment of the conduit arrangement of the guide channel is designed to be divisible along a longitudinal direction. As a result, the guide channel can be subsequently introduced at a low cost in a system with at least two lines. Preferably, the guide channel is flexible and can thus be bent apart along a longitudinal seam to allow insertion of lines.

• 1 eine perspektivische Darstellung einer erfindungsgemäßen Leitungsanordnung gemäß einer Ausführungsform,
• 2 eine Schnittdarstellung der Leitungsanordnung aus 1,
• 3 eine perspektivische Darstellung einer erfindungsgemäßen Leitungsanordnung aus 1 mit mindestens einer Endhülse,
• 4 eine perspektivische Darstellung einer erfindungsgemäßen Leitungsanordnung mit mindestens einer Endhülse gemäß einer weiteren Ausführungsform,
• 5 eine perspektivische Darstellung einer erfindungsgemäßen Leitungsanordnung mit einer endseitigen Beabstandung der Leitungssysteme gemäß einer Ausführungsform.

Further features, details and advantages of the invention will become apparent from the wording of the claims and from the following description of exemplary embodiments with reference to the drawings. Show it:

• 1 a perspective view of a conduit arrangement according to the invention according to an embodiment,
• 2 a sectional view of the line arrangement 1 .
• 3 a perspective view of a conduit arrangement according to the invention 1 with at least one end sleeve,
• 4 a perspective view of a conduit arrangement according to the invention with at least one ferrule according to a further embodiment,
• 5 a perspective view of a conduit assembly according to the invention with an end-side spacing of the conduit systems according to one embodiment.

The 1 shows a conduit arrangement according to the invention 1 with two pipe systems 2 . 4 which is in a guide channel 6 are arranged. For clarity, the piping systems 2 . 4 shown in simplified form. A first line system 2 serves to guide an aqueous coolant. A second line system 4 provides a urea solution for conducting a selective catalytic reduction. The first line system 2 has a larger diameter than the second conduit system 4 , The two pipe systems 2 . 4 are so in the guide channel 6 arranged that the piping systems 2 . 4 have a body contact with each other. As a result, an immediate heat transfer between the aqueous cooling liquid and the urea solution take place. The guide channel 6 is formed according to the embodiment of a flexible and corrugated plastic. The guide channel 6 has at the end a coupling section 8th on, which is flat or without a corrugation configured.

In the 2 is a sectional view of the line arrangement 1 from the 1 illustrated. It is especially the oval cross-section of the interior 10 clarifies which one axis of symmetry S and is configured such that the conduit systems 2 . 4 positively in the inner space 10 are arranged. The interior 10 can be made slightly smaller than the dimensions of the two pipe systems 2 . 4 so that the two pipe systems 2 . 4 through the guide channel 6 be pressed against each other. This allows a contact surface between the two conduit systems 2 . 4 enlarged and a heat transfer are favored. According to the embodiment, the guide channel 6 an outer contour, which with the interior 10 corresponds.

The 3 clarifies the line arrangement 1 from the 1 in a further embodiment with an end sleeve arranged at the end 12 , The ferrule 12 has two openings 14 . 16 for positive reception of the pipe systems 2 . 4 on. The diameters of the openings 14 . 16 are related to the dimensions of the piping systems 2 . 4 adapted and may be preferably formed slightly smaller to a frictional receiving the piping systems 2 . 4 to enable. This allows the piping systems 2 . 4 fixed to the ferrule 12 be positioned. The ferrule 12 is for the sake of clarity of the guide channel 6 shown separately and has a connection area 18 on. The connection area 18 the ferrule 12 is dimensioned such that the coupling portion 8th of the guide channel 6 in the connection area 18 arranged inside and fixed in place. The attachment of the ferrule 12 For example, by a positive connection between the connection area 18 and the coupling section 8th respectively.

The 4 shows a line arrangement 1 with end in the guide channel 6 inserted end sleeves 12 , In particular, a complete guide channel is exemplified 6 and a detailed view of an end portion of the guide channel 6 shown. Unlike in 3 illustrated embodiment, has the ferrule 12 a connection area 18 on which in the interior 10 of the guide channel 6 protrudes. This will be the ferrule 12 end of the guide channel 6 spanned and thus secured form-fitting.

In the 5 is a conduit arrangement 1 illustrated according to another embodiment. In contrast to the embodiments already shown, the line arrangement 1 a transition region arranged at the end 20 on. The transition area 20 has a larger cross sectional area than the cross section of the interior 10 on. In particular, the transition region 20 designed such that the two conduit systems 2 . 4 end with an increased distance A can be positioned to each other. Due to the greater distance A can provide additional space for connecting the piping systems 2 . 4 outside the guide channel 6 be created. The ferrule 12 here has one to the shape of the transition region 20 adjusted shape, so that the ferrule with the connection area 18 inside in the transition area 20 of the guide channel 6 protrude and, for example, can engage. Due to the end-side spacing of the two pipe systems 2 . 4 can the piping systems 2 . 4 in the area of the guide channel 6 arranged coupling systems 22 or bolting systems 24 respectively. With the help of the coupling system 22 or bolting system 24 can the piping systems 2 . 4 be mounted with a small effort.

The invention is not limited to one of the above-described embodiments, but can be modified in many ways.

All of the claims, the description and the drawings resulting features and advantages, including design details, spatial arrangements and method steps may be essential to the invention both in itself and in various combinations.

LIST OF REFERENCE NUMBERS

1

line arrangement

2

first line system

4

second pipe system

6

guide channel

8th

Coupling section of the guide channel

10

Interior of the guide channel

12

ferrule

14

first opening of the ferrule

16

second opening of the ferrule

18

Connection area of the guide channel

20

Transition area

22

coupling system

24

bolting

A

Distance between piping systems

S

axis of symmetry

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 2706280 B1 [0004]

Claims (12)

A conduit arrangement (1) comprising at least one guide channel (6) with an interior space (10) for receiving and arranging at least two fluid-tightly separated conduit systems (2, 4) with different diameters and with two end openings, and comprising at least two conduit systems (2, 4), characterized in that a cross section of the inner space (10) is oval shaped, wherein the oval cross section of the inner space (10) of the guide channel (6) has an axis of symmetry (S). Line arrangement according to Claim 1 , characterized in that the at least two liquid-tightly separated line systems (2, 4) are arranged in a form-fitting manner in the interior (10) of the guide channel (6). Line arrangement according to Claim 1 or 2 , characterized in that in at least one end-side opening of the guide channel (6) an end sleeve (12) is arranged. Line arrangement according to Claim 3 , characterized in that the at least one end sleeve (12) has at least two openings (14, 16) for the positive arrangement of the at least two liquid-tightly separated line systems (2, 4). Line arrangement according to Claim 4 , characterized in that the openings (14, 16) of the end sleeve (12) have an equal distance (A), as in the interior (10) of the guide channel (6) recorded at least two liquid-tightly separated line systems (2, 4) to each other , Line arrangement according to Claim 4 , characterized in that the openings (14, 16) of the end sleeve (12) have a greater distance (A) from each other, as in the interior (10) of the guide channel (6) recorded at least two liquid-tightly separated line systems (2, 4) , Line arrangement according to one of Claims 1 to 6 , characterized in that the guide channel (6) has at least one end arranged transition region (20) for spacing the at least two conduit systems (2, 4). Line arrangement according to one of Claims 1 to 7 , characterized in that the at least one end sleeve has a connecting portion for receiving on the inside an end portion of the guide channel. Line arrangement according to one of Claims 1 to 8th , characterized in that the at least two liquid-tightly separated from one another and in the guide channel (6) arranged line systems (2, 4) are thermally conductively coupled together. Line arrangement according to one of Claims 1 to 9 , characterized in that in the guide channel (6) arranged line system (2) for guiding a coolant and another in the guide channel (6) arranged line system (4) are configured for guiding a urea solution. Line arrangement according to one of Claims 1 to 10 , characterized in that the guide channel (6) is configured rigid or flexible. Line arrangement according to one of Claims 1 to 11 , characterized in that the guide channel (6) is designed to be divisible along a longitudinal direction.

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