EP2979018A1 - Media line having a connector heating device - Google Patents

Abstract

The invention relates to a media line, in particular for transporting a urea-water solution (1), comprising a hose line (2) for media transport, a heating device for heating the medium (1), at least one connector (3) mounted at one hose line end for liquid-tight connection of the hose line (2) to an assembly, and a preferably electrical connector heating device (4) for heating the connector (3). According to the invention the connector heating device (4) comprises an elastically deformable clamping component (5), which is pushed in the elastically deformed state onto the connector (3) and is fixed on the connector (3) by the clamping action of the connector (3).

Description

 MEDIA CONNECTION WITH CONNECTOR HEATING DEVICE

The invention relates to a media line, in particular for transporting a urea-water solution, with

a hose line for transporting media,

a heating device for heating the medium,

- At least one arranged at a hose end end connector for liquid-tight connection of the hose to an aggregate and

- One, preferably electrical, connector heater for heating the connector.

Such a media line is known from document EP 1 985 908 A1. Urea water solutions, for example standardized according to DIN 70070 and CEFIC (European Chemical Industry Council) are used e.g. in combustion exhaust gases of motor vehicles, especially with diesel engines, added to reduce especially the nitrogen oxide emission 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 is usually a Temperierungsmöglichkeit mostly from a

Polymer material existing hose required because the urea-water solution has the disadvantage that it flocculates at about - 11 ° C or freezes due to their chemical composition. Therefore, as a rule, the hose line must be designed to be heatable, in which case a fast thawing of the frozen urea-water solution standing in the hose line must be ensured, especially during a cold start of the motor vehicle at very low outside temperatures. The heating device for heating the medium is usually wound spirally around the hose line. Although this ensures sufficient heating of the hose line, but in the Re- gel hereby in the field of connectors no satisfactory heating can be realized. The connectors are arranged at one or both ends of the hose and serve for liquid-tight connection of the hose to an aggregate, for example a tank container for the urea-water solution or for connection to a further media line or to a nozzle for injection Solution in the combustion gases. In practice, it is therefore common to provide a separate connector heater for the connectors. In the case of the media line described in EP 1 985 908 A1, the heating of the connector takes place via a heating wire wound around the connector. In order to ensure even heating and at the same time avoid local overheating (eg by crossing the heating wires), guide elements for the wire winding are provided on the connector. The described

Connector heater according to the prior art has the disadvantage that the mounting of the heating wire on the connector is comparatively expensive and not faulty winding despite the proposed guide elements local overheating, which can cause system failure, can not be safely ruled out. In addition, a large wire projection is required for electrical contacting of the heating wire on both sides. This additional wire length must be positioned after contacting in a holding element to exclude mechanical damage to the joint.

Against this background, the present invention seeks to provide a media line with the features described above, which is structurally simple and can be mounted with little effort, while ensuring uniform heating in the region of the connector.

According to the invention the object is achieved in that the connector heater has an elastically deformable clamping member which is pushed in the elastically deformed state on the connector and fixed by its clamping action on the connector. With the clamping principle according to the invention, it is possible, on the one hand, to mount this on the connector by a simple elastic deformation of the clamping component. The pushing on of the clamping component in the elastically deformed state can take place here axially or alternatively also radially. After pushing the clamping component onto the connector, the force for elastic deformation of the clamping component is withdrawn and due to its geometry, which is matched to the geometry of the connector, the clamping component clamps on the outer surface of the connector Connector firmly, so that this alone a secure mounting of the clamping member is ensured on the connector. The teaching of the invention is further characterized in that due to the clamping member no Heizleiterüberstände are required. In addition to the saving of Heizleiterermaterial therefore required according to the prior art protection of wire projections from mechanical damage during operation accounts. The clamping component is expediently surrounded by an outer encapsulation in order to protect the connector heater from mechanical damage and at the same time to reduce heat losses. Conveniently, the clamping member is a heating element of the connector heater and is for this purpose connected to an electrical power source. In the context of the invention, it is also the case that the connector heating device consists of the elastically deformable clamping component.

According to a preferred embodiment of the invention, the clamping member on a claw-shaped geometry, wherein the width of the mouth opening is changed by an elastic deformation of the clamping member. When mounting the clamping component, the width of the mouth opening is increased so far that a trouble-free sliding of the clamping member is possible on the connector. In the case of an axial pushing, a comparatively small expansion is generally sufficient. In contrast, in a radial mounting, the width of the mouth opening must be greater than the outer diameter of the

Be connector so that the connector fits through the mouth opening. The clamping member may have lever arms, via which the force required to expand the clamping member can be applied.

Expediently, the clamping component is designed as a molded part, preferably stamped and subsequently bent. This has the advantage that the clamping component with low production costs, especially at high volumes, can be produced. The punching process also allows the production of a comparatively complex geometry, so that the molded part can be tailored very precisely to the specific application. As a result of the subsequent bending process, the curvature of the molded part can be adapted exactly to the geometry of the connector to be overlapped, so that the desired clamping action of the molded part is ensured in the assembled state. In the context of the invention, it is here that the molding is formed meander-shaped. This ensures a very uniform heating of the connector via an energization of the molded part, without there being any risk of overheating. In addition, the meander shape ensures the desired flexibility which is required for the elastic deformation of the clamping component during assembly. ge is required, while still ensuring the required inherent stability of the clamping member so that it is permanently secured securely and firmly by the clamping action on the connector after installation. Conveniently, the molding on several meander loops. The thickness of the clamping component is expediently not more than 1 mm, for example 0.1-0.5 mm.

In the context of the invention it is that the molding is formed as a single-layer sheet metal part. This makes it possible, a comparatively large heating power in

Create connector area. This is particularly advantageous in a series connection of the connector heater with the heater for heating the medium.

Alternatively, however, it may also be expedient that the molded part is designed to be multi-layered and in this case has an outer layer of an electrical insulation material, preferably plastic, as well as a metallic inner layer. Such a design is particularly advantageous in the case of a parallel connection of the connector heating device with the heating device for heating the medium. The metallic inner layer may in this embodiment have a very thin layer thickness and e.g. be formed film-like, so that even with a high applied electrical voltage introduced into the connector area heating power does not lead to overheating. The required mechanical stability is ensured by the electrically non-conductive outer layer. The metal layer and the outer layer may be cohesively, e.g. be connected by means of an adhesive.

Expediently, the molded part has two connection lugs for electrical contacting. These connection lugs can easily be taken into account when determining the punching geometry. To the terminal lugs electrical lines are preferably connected, via which the energization and thus the heating of the sheet metal part takes place. The connecting drives can expediently simultaneously serve as lever arms for the above-described widening of the clamping component. As a material for the elastically deformable clamping component is in particular a spring-hard metal alloy, so that the necessary restoring force is ensured to ensure the clamping effect. The metal must also have a comparatively high electrical resistance in order to ensure effective heating of the connector. Alternatively, the clamping member may also be formed as a spiral spring. The spiral spring expediently has at least one spiral-shaped heating wire for connector heating and at least one spiral-shaped spring wire for providing the clamping effect. Thus, a separation between electrical heating on the one hand and provision of the mechanical clamping effect on the other hand is deliberately carried out here. Conveniently, the heating wire and the spring wire are provided together with a, preferably also helical, electrically insulating sheath, which may for example consist of plastic. In this case, the elastically deformable clamping member is thus designed as a plastic spiral, which has in its interior both a soul for the electrical heating and a soul for the mechanical stability of the coil spring.

In the context of the invention, it is furthermore the case that the hose line has at least one resistance heating wire, preferably wound spirally around the hose line. Conveniently, this heating wire is surrounded on the outside by an insulating layer to reduce heat losses. This outer insulation layer may be formed, for example, as a corrugated tube and is suitably made of plastic. In the context of the invention, it is further that the connector heater and the

Heating device for the hose are electrically connected in parallel or alternatively in series.

The media line according to the invention finds particular use in the transport of a urea-water solution, which is added in motor vehicles combustion exhaust gases from engines, especially diesel engines.

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

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

Fig. 2a, 2b are three-dimensional representations of the media line shown in Fig. 1 and 3a, 3b a connector heater according to the invention in a single representation in a plan view or three-dimensional view.

Fig. 1 shows a detail of a media line, which is provided for transporting a urea-water solution 1 in a diesel motor vehicle. The urea-water solution 1 is added to the combustion exhaust gases to reduce the nitrogen oxide emissions. The media line has a polymeric hose line 2 for media transport (see Fig. 2a), a (not shown) heating device for heating the medium 1 and at the hose line end a connector 3 for liquid-tight connection of the hose 2 to an aggregate. This aggregate can be, for example, a reservoir for the urea-water solution, a further media line or even a nozzle for injecting the solution into the exhaust gas flow. Figures 1, 2a and 2b show only one end of the media line according to the invention. The other end of the media line can be designed analogously for this purpose.

As can be seen from FIGS. 1, 2a and 2b, an electrically operated connector heater 4 is provided on the connector 3 for heating. In particular, in a comparative consideration of all figures it can be seen that the connector heater 4 has an elastically deformable clamping member 5, which is pushed in the elastically deformed state on the connector 3 and fixed by its clamping action on the connector 3. The clamping component 5 is a heating element of the Kciinektor- heater 4 and is for this purpose connected via electrical wires 7 to a (not shown) electrical power source. In the exemplary embodiment, the connector heating device 4 consists of the elastically deformable clamping component 5.

Figures 3a and 3b show the clamping member 5 in a single representation. It can be seen that the clamping component 5 has a claw-shaped geometry. The width W of the mouth opening is variable by an elastic deformation of the clamping member 5. By widening the clamping component 5, it is possible to easily postpone this to the connector 3. If the force required for widening the clamping component 5 is withdrawn, the clamping component 5 clamps firmly on the outer surface of the connector 3 and is thereby securely connected to it (compare FIGS. 1, 2 a, 2 b). After assembly, the clamping component 5 is encased with an outer encapsulation (not shown) in order to protect the connector heating device 4 from mechanical damage and at the same time to reduce heat losses. In particular, Figures 3a and 3b it can be seen that the clamping member 5 is formed as a stamped and then bent sheet metal part. Furthermore, it can be seen that the sheet metal part 5 is designed meandering. The sheet metal part 5 has two connecting lugs 6 for electrical contacting. As can be seen from FIGS. 1, 2a and 2b, the ends 6 of the electric wires 7 are respectively connected to the lugs 6, so that the lugs 5 can be supplied with current via the lugs 6 and thus heated. The connection of the electrical wires 7 to the terminal lugs 6 can be done via a soldering or welding process. The electric wires 7 are connected to an electrical connector 8. The sheet metal part advantageously has a thickness of 0.1 to 0.5 mm. In the exemplary embodiment, the thickness s = 0.3 mm. The width bi of the meander-shaped sections 9 is 0.5-3 mm, for example 1-2 mm. The sheet metal part has a plurality of meander loops 11. The meander loops 11 each have two meandering sections 9. The axial distance b ₂ between two meandering sections 9 is 0.2 to 10 mm, in particular 0.5 to 5 mm, for example 1 to 4 mm. The sheet-metal part 5 consists of a metal alloy adapted to the intended use in terms of electrical resistance and corrosive load capacity.

The heating device for heating the hose line 2 has a resistance heating wire wound spirally around the hose line 2. This resistance heating wire is not shown in detail in the figures. However, it can be seen in particular in FIG. 2 a that the hose line 2 is surrounded by an outer jacket in the form of a corrugated hose 10. This also encloses the Widerstandsheizdraht and thus serves as a mechanical protection for this. At the same time, the corrugated hose is a thermal insulation to ensure the most complete transfer of the heat energy emitted by the heating wire to the hose 2 and thus to the located in the hose 2 urea-water solution 1. In the exemplary embodiment, the connector heating device 4 and the resistance heating wire spirally wound around the hose line 2 are electrically connected in parallel.

In the embodiments, the clamping member 5 is formed as a single-layer sheet metal part. Alternatively, however, it is also within the scope of the invention that the clamping member 5 is formed as a multi-layer molded part and in this case has an outer layer of an electrical insulation material, preferably plastic, and a metallic inner layer. In this case, the inner layer can be coated with a very small layer be provided thick, wherein the mechanical stability of the entire clamping member 5 is ensured by the outer layer. The small layer thickness of the metal layer allows a dosage of the introduced heating power, so that overheating in the connector area is avoided even at a high voltage applied to the connector heater 4 electrical voltage, with an adjustment of the heating power can be done on the choice of the layer thickness of the metallic inner layer.

claims

Claims

Patent claims

Media line, in particular for transporting a urea-water solution (1).

- a hose line (2) for media transport,

- a heating device for heating the medium (1),

- At least one connector (3) arranged at one end of the hose line for the liquid-tight connection of the hose line

(2) to an aggregate and

- a, preferably electrical, connector heating device (4) for heating the connector (3), characterized in that the connector heating device (4) has an elastically deformable clamping component (5), which in the elastically deformed state rests on the connector (3 ) pushed on and due to its clamping effect on the connector

(3) is attached.

Media line according to claim 1, characterized in that the clamping component (5) represents a heating element of the connector heating device (4) and is connected to an electrical power source for this purpose.

Media line according to claim 1 or 2, characterized in that the connector heating device

(4) consists of the elastically deformable clamping component (5).

Media line according to one of claims 1 to 3, characterized in that the clamping component (5) has a claw-shaped geometry, the width (W) of the claw opening being changeable by an elastic deformation of the clamping component (5).

5. Media line according to one of claims 1 to 4, characterized in that the clamping component (5) is designed as a, preferably punched and then bent, molded part.

6. Media line according to claim 5, characterized in that the molded part (5) is designed in a meander shape.

7. Media line according to claim 6, characterized in that the molded part (5) has a plurality of meander loops (11).

8. Media line according to one of claims 5 to 7, characterized in that the molded part (5) is designed as a single-layer sheet metal molded part.

9. Media line according to one of claims 5 to 7, characterized in that the molded part (5) is designed in multiple layers and has an outer layer made of an electrical insulating material, preferably plastic, and a metallic inner layer.

10. Media line according to one of claims 5 to 9, characterized in that the molded part (5) has two connecting lugs (6) for electrical contacting.

11. Media line according to claim 1 or 2, characterized in that the clamping component (5) is designed as a spiral spring.

12. Media line according to claim 11, characterized in that the spiral spring has at least one spiral-shaped heating wire for connector heating and at least one spiral-shaped spring wire to provide the clamping effect.

13. Media line according to claim 12, characterized in that the heating wire and the spring wire are provided together with an electrically insulating sheath, preferably also spiral-shaped.

14. Media line according to one of claims 1 to 13, characterized in that the heating device has at least one resistance heating wire, preferably wound spirally around the hose line (2). Media line according to one of claims 1 to 14, characterized in that the connector heating device (4) and the heating device are electrically connected in parallel or in series.