DE10143852A1 - Heating body for heating system of motor vehicles for energizing PTC heating elements within heat conductive ducts has a spring element holding one electrical conductor against one side and the other conductor on the other side - Google Patents

Abstract

The heating body has at least one spring element by which the PTC heating element is pressed against the contact surface (14). The PTC element (10) has an electrical conductor (30) between one face and one part of an aluminum channel (22) and another aluminum channel (20) is pressed into position to form a duct. A first spring element shank (24) presses a second shank (26) to the other side of the PTC element.

Description

The invention relates to a radiator, in particular for a heating system of a motor vehicle which has at least one PTC heating element which for Heating of the radiator is provided.

Such a radiator is known for example from EP 0 707 434 B1. It can in particular be a radiator with a finned tube block act, which can be flowed through by air to be heated, and the at least one Row of heat-conducting tubular arranged between the ribs Elements. The ribs can in particular be corrugated ribs, wherein additionally or alternatively, corrugated fins can also be provided. In one tubular element is typically a plurality of PTC heating elements arranged. This does not rule out that the radiator has additional pipes has, which are intended to flow through a liquid heat transfer medium to become. With regard to the PTC heating elements, it is important that a transition from a PTC heating element to a contact surface, to which heat from the PTC Heating element should be transferred, the lowest possible thermal resistance having. This is particularly problematic when PTC heating elements are used, the outer dimensions of which are relatively large tolerances subject.

The invention has for its object the generic radiator to further develop such that a reduced thermal resistance between at least a PTC heating element and a contact surface is achieved on the heat of to be transferred to the PTC heating element.

This object is achieved by a radiator with the features of claim 1 solved.

Advantageous refinements and developments of the invention result from the dependent claims.

The invention thus builds on the generic prior art that at least one spring element is provided, through which the at least a PTC heating element is pressed against at least one contact surface. By this solution will increase the thermal resistance between the at least one PTC Heating element and the contact surface minimized without sticking or the like is required. There is also an exchange of one or more PTC heating elements possible. Separate disposal of PTC Heating elements and other components of the radiator is on this Way relieved.

In preferred embodiments of the radiator according to the invention provided that the at least one PTC heating element in a tubular Element is arranged. The tubular element can, for example, be a Form a tube to which the fins and / or fins are attached. Alternative is it is conceivable that the tubular element is inserted into a cladding tube the ribs and / or slats are attached. In the latter variant can initially use several cladding tubes in the manufacture of the radiator Ribs and / or fins are connected, for example by soldering and / or Welding, preferably several tubular elements in which preferably several PTC heating elements are arranged, first then be inserted into the cladding tubes.

It is also preferably provided that the tubular element is covered on its longitudinal axis, by at least one upper element and at least one lower element is formed. Especially when several PTC heating elements in to be arranged in a tubular element, facilitates the two-part Execution of the tubular element arranging the PTC heating elements.

It can advantageously be provided that at least one upper one Element and / or at least one lower element through an aluminum profile is formed. Aluminum is preferred because it has good thermal conductivity having.

It is also preferably provided that an upper element and / or a lower element extends through the entire radiator. this applies especially when the tubular element directly with ribs and / or Slats is connected. In many cases it is sufficient that only one of the top and bottom elements extending through the entire radiator. The other element can optionally be formed in several parts if this is advantageous.

A preferred development of the radiator according to the invention provides that at least one upper element and one lower element are positively and / or interlock. This solution is for example advantageous if the upper element and the lower element each by a Aluminum profile are formed. In this case, the tubular element can be formed by pushing the two aluminum profiles into each other. Alternatively or in addition to pushing one another in, a snap-in Connection can be provided.

In particularly preferred embodiments of the invention Radiator is provided that the at least one spring element a first Has leg and a second leg, which are connected to each other in this way are that the at least one spring element is essentially U-shaped Has cross-section. The spring action in this case is between the first free leg and the second free leg of the spring element caused, for example, by the first free leg and the second free leg Thighs are compressed.

In this context, it is preferably further provided that the first leg is supported on the tubular element, and that the second Legs is supported on the at least one PTC heating element. The support in this context does not rule out that between the first Leg and the tubular element and / or the second leg and the PTC heating element further elements are arranged, for example electrical Insulation material.

An advantageous development of the radiator according to the invention provides that the at least one PTC heating element is a first Power supply connector that is in electrical contact with the tubular member stands. It is preferred that the first power supply connection to this it is intended to be connected to the negative pole of a voltage source. This is especially true when the negative pole is formed by the vehicle mass is or is connected to it.

Additionally or alternatively, it can be provided that the at least one PTC Heating element has a second power supply connection, which in electrical contact with the at least one spring element. In this case the electrically conductive spring element, for example, with the positive pole Voltage source to be connected to heat the radiator. In In this context, it is preferred that a plurality of PTC Heating elements are arranged one behind the other in a tubular element, the tubular member having all of the first power supply connections in electrical contact, while also in the tubular element arranged spring element electrically, for example, by foil-like material is isolated from the tubular element and with all the second Power supply connections of the PTC- arranged in the tubular element Heating elements are in electrical contact.

As already indicated above, is in preferred embodiments provided that the at least one spring element relative to the tubular Element is electrically insulated. However, they are also embodiments conceivable in which the area of the tubular element on which the Spring element rests, is formed from an electrically non-conductive material.

In preferred embodiments of the radiator according to the invention provided that several PTC heating elements have a common one Spring element is assigned. This is especially true when multiple PTC heating elements are in a tubular element are arranged and the spring element one in Has a substantially U-shaped cross section.

Furthermore, it can be provided that the at least one spring element Has slats. If the spring element has a U-shaped cross section, For example, it can be provided that an edge area of a free Leg of the spring element formed continuously over its entire length is while the remaining portion of this free leg as well as the has other free legs incisions to form the individual slats. By providing such fins, each PTC heating element can be individually be pressed against the contact surface so that, for example, tolerance-related Differences in height of the individual PTC heating elements can be compensated can or have no negative impact.

In connection with the design of the at least one spring element it is preferably further provided that the at least one spring element is made of aluminum. Aluminum, as mentioned, has a good one Thermal conductivity, which is particularly advantageous in cases where heat is not only on the contact surface, but also on other areas via the spring elements the radiator is to be transferred, for example to one of the Contact surface opposite surface of a tubular element. Farther The electrical conductivity of aluminum allows the spring element to be a Power supply can form.

In a particularly preferred embodiment of the invention Radiator is provided that it has a plurality of tubular elements has, in each of which a plurality of PTC heating elements is arranged, and that between the tubular elements corrugated fins and / or Rib slats are arranged. For a more detailed description of one in itself known, but typical structure of such a radiator is based on the already mentioned EP 0 707 434 B1.

The invention will now be described with reference to the accompanying Drawings based on a preferred embodiment explained by way of example.

Show it:

Figure 1 is a schematic representation of an embodiment of the radiator according to the invention, which has three tubular elements.

FIG. 2 shows a sectional view along the section line AB drawn in FIG. 1 of a tubular element of the heating element from FIG. 1;

Fig. 3 is a plan view of an embodiment of the present invention provided for the spring element; and

Fig. 4 is a front view of the spring member of FIG. 3.

Fig. 1 shows a schematic representation of an embodiment of the radiator according to the invention, which has three tubular elements 16 . Ribs and / or fins 34 , in particular corrugated fins and / or fin fins, are arranged between the tubular elements 16 of the radiator in a manner known per se. The ribs and / or fins 34 are heated during operation of the heating element via the tubular elements 16 , so that air flowing through between the fins and / or fins 34 can be heated. As already mentioned, the electrical heating of the radiator can optionally be combined with heating caused by a liquid heat transfer medium.

FIG. 2 shows a sectional view along the section line AB drawn in FIG. 1 of a tubular element of the radiator from FIG. 1. The tubular element 16 shown has a substantially rectangular inner and outer circumference and is made of an upper element 20 in the form of a Aluminum profile and a lower element 22 is formed, which is also realized by an aluminum profile in the case shown. In the illustrated embodiment, both the upper element 20 and the lower element 22 extend through the entire radiator. The upper element 20 or the upper aluminum profile 20 and the lower element 22 or the lower aluminum profile 22 are designed such that, after they have been pushed into one another, they engage in one another in a positive-locking manner and at least with respect to one degree of freedom. The tubular element 16 is thus formed in two parts with respect to its longitudinal axis 18 . The tubular element 16 can either be directly connected to fins and / or fins 34 of the radiator or be provided to be inserted into a so-called cladding tube, to which the fins and / or fins 34 are then attached. A plurality of PTC heating elements are arranged one behind the other in the tubular element 16 , from the plane of the drawing in FIG. 2, of which only one PTC heating element 10 can be seen in section in FIG. 2. The PTC heating element 10 has a first power supply connection 28 which is in electrical contact with the lower element 22 , which also forms a contact surface 14 for the PTC heating element 10 . A spring element 12 with an essentially U-shaped cross section is arranged above the PTC heating elements, based on the illustration in FIG. 2, of which only the PTC heating element 10 can be seen. The spring element 12 has a first leg 24 and a second leg 26 , the first leg 24 being supported on the upper element 20 of the tubular element 16 , while the second leg 26 is supported on the PTC heating element 10 . The spring element 12 is formed from aluminum and is therefore electrically conductive. The second leg 26 of the spring element 12 is in electrical contact with a second power supply connection 30 , which, based on the illustration in FIG. 2, is formed on the upper side of the PTC heating element 10 . The same applies to the further PTC heating elements which are arranged in the tubular element 16 , but are not shown in FIG. 2. To avoid an electrical short circuit, insulation material 36 , which is designed in the form of a film, is arranged between the first leg 24 of the spring element 12 and the upper element 20 of the tubular element 16 . The lower element 22 thus forms a first electrical connection rail for the PTC heating elements arranged in the tubular element 16 , while the spring element 12 forms a second connection rail. The first leg 24 and the second leg 26 of the spring element 12 are compressed in the arrangement shown in FIG. 2 against the spring force of the spring element 12 , so that the second leg 26 of the spring element 12 the PTC heating element 10 (and the others in the tubular Element 16 arranged PTC heating elements) presses against the contact surface 14 . As a result, a low thermal resistance between the PTC heating elements and the contact surface 14 is achieved. Furthermore, heat is transferred via the spring element 12 from the upper side of the PTC heating elements 10 to the upper element 20 . The spring force of the spring element 12 pushes the upper element 20 and the lower element 22 apart, so that there is a play 38 between the upper element 20 and the lower element 22 . As can be seen from the illustration in FIG. 2, it is possible to compress the upper element 20 and the lower element 22 against the spring force of the spring element 12 in such a way that the play 38 becomes zero. This can be advantageous, for example, if the tubular element 16 is to be inserted into cladding tubes, since in this case the upper element 20 and the lower element 22 of the tubular element 16 are also in contact with a corresponding cladding tube, so that even during a transition a low thermal resistance is achieved from the tubular element 16 to an optionally provided cladding tube. In order to be able to compensate for differences in height of the PTC heating elements 10 arranged in the tubular element 16 , the second leg 26 of the spring element 12 is designed in the manner of a lamella, as can be seen in FIG. 3.

Fig. 3 shows a top view of an embodiment of the present invention provided for the spring element and Fig. 4 shows a front view of the spring member of Fig. 3. Here, Fig. Refer 3, that the second leg 26 12 having the spring element, a plurality of cuts 40, so that slats 32 are formed. The distance between two cuts 40 is preferably adapted to the dimensions of the PTC heating elements or selected to be smaller. The arrow 36 illustrates the direction of view through which the side view of the spring element 12 of FIG. 4 results. FIG. 4 shows the spring element 12 in the relaxed state, in which the first leg 24 and the second leg 26 or the lamellae 32 of the spring element 12 are spaced further apart than is the case in the assembled state according to FIG. 2.

The features of the invention disclosed in the above description, in the drawings and in the claims can be essential both individually and in any combination for realizing the invention. Legend: 10 PTC heating element
12 spring element
14 contact surface
16 tubular element
18 longitudinal axis of the tubular element
20 top element
22 lower element
24 first leg
26 second leg
28 first power supply connector
30 second power supply connection
32 spring element slats
34 corrugated fins and / or ribbed fins
36 insulation material
38 game
40 cuts

Claims (15)

1. Radiator, in particular for a heating system of a motor vehicle, which has at least one PTC heating element ( 10 ) which is provided for heating the radiator, characterized in that at least one spring element ( 12 ) is provided, through which the at least one PTC Heating element ( 10 ) is pressed against at least one contact surface ( 14 ). 2. Radiator according to claim 1, characterized in that the at least one PTC heating element ( 10 ) is arranged in a tubular element ( 16 ). 3. Radiator according to claim 2, characterized in that the tubular element ( 16 ) with respect to its longitudinal axis ( 18 ) is formed by at least one upper element ( 20 ) and at least one lower element ( 22 ). 4. Radiator according to claim 3, characterized in that at least one upper element ( 20 ) and / or at least one lower element ( 22 ) is formed by an aluminum profile. 5. Radiator according to claim 3 or 4, characterized in that an upper element ( 20 ) and / or a lower element ( 22 ) extends through the entire radiator. 6. Radiator according to one of claims 3 to 5, characterized in that at least one upper element ( 20 ) and a lower element ( 22 ) interlock positively and / or non-positively. 7. Radiator according to one of the preceding claims, characterized in that the at least one spring element ( 12 ) has a first leg ( 24 ) and a second leg ( 26 ) which are connected to one another such that the at least one spring element ( 12 ) one has a substantially U-shaped cross section. 8. Radiator according to claim 7, characterized in that the first leg ( 24 ) is supported on the tubular element ( 16 ) and that the second leg ( 26 ) is supported on the at least one PTC heating element ( 10 ). 9. Radiator according to one of the preceding claims, characterized in that the at least one PTC heating element ( 10 ) has a first power supply connection ( 28 ) which is in electrical contact with the tubular element ( 16 ). 10. Radiator according to one of the preceding claims, characterized in that the at least one PTC heating element ( 10 ) has a second power supply connection ( 30 ) which is in electrical contact with the at least one spring element ( 12 ). 11. Radiator according to one of the preceding claims, characterized in that the at least one spring element ( 12 ) is electrically insulated from the tubular element ( 16 ). 12. Radiator according to one of the preceding claims, characterized in that a plurality of PTC heating elements ( 10 ) is assigned a common spring element ( 12 ). 13. Radiator according to one of the preceding claims, characterized in that the at least one spring element ( 12 ) has fins ( 32 ). 14. Radiator according to one of the preceding claims, characterized in that the at least one spring element ( 12 ) is formed from aluminum. 15. Radiator according to one of the preceding claims, characterized in that it has a plurality of tubular elements ( 16 ), in each of which a plurality of PTC heating elements ( 10 ) is arranged, and that between the tubular elements ( 16 ) corrugated fins and / or rib fins ( 34 ) are arranged.