The invention relates to a vehicle heating system comprising a plurality of heating devices and heat transfer devices. Such a system is, for example, known from EP 1 780 061 A1.
Where the known heating device is concerned, PTC elements are glued between contact plates which are arranged in parallel and are bonded to corrugated ribs as heat transfer devices. The assemblies thus formed are each provided with a holding frame and are then combined to form a heating unit. A plurality of such heating units which are arranged in series as seen in flow direction are combined with a further frame and an attachment to form a vehicle heating system.
It is an object of the present invention to show a way of simplifying the manufacture of a vehicle heating system.
This problem is solved by a vehicle heating system comprising the features presented in Claim 1. Advantageous further developments of the invention are the subject matter of the subordinate claims.
In a vehicle heating system according to the invention, the heat transfer devices are provided with heating device receptacles in which the heating devices are arranged. For example, the heating device receptacles can be formed as open channels, into which the heating devices and/or their components are inserted. Such channels can, for example, have a U-shaped cross-section. Preferably, however, the heating device receptacles have openings into which the heating devices are inserted.
Easy and cost-effective manufacture can be realized by means of heating device receptacles provided on the heat transfer devices. That is to say that, in this manner, the attachment of the heating devices to the heat transfer device can be achieved without much of an effort. For example, the heating devices can be held in the heating device receptacles in a positive and/or non-positive manner. In particular, the heat transfer devices can advantageously be used to hold the individual elements of the heating devices, i.e. their contact plates with heating elements arranged therebetween, together. Thereby, the structure of the heating devices can be simplified; it is, in particular, possible to do without complex soldering or glueing of the contact plates of the heating devices to the heating elements. Furthermore, the heating devices can be locked in position in the heating device receptacles of the heat transfer devices in a clamping manner, with the result that manufacture can be simplified in this respect as well.
Advantageously, the heat transfer devices and the heating devices attached thereto are combined by means of a holder to form an assembly, so that a vehicle heating system according to the invention can be perfectly handled.
Preferably, the heating devices of neighboring heat transfer devices are arranged in a staggered manner in relation to the flow direction. In this manner, a particularly efficient heat transfer to air flowing through the heat transfer devices can be achieved. If heat transfer devices of equal shape are used, a staggered arrangement of the heating devices can be achieved by arranging neighboring heat transfer devices differently in relation to the flow direction. For example, neighboring heat transfer devices can be arranged in a laterally staggered manner in relation to the flow direction. A further possibility of a staggered arrangement of the heating devices is to arrange neighboring heat transfer devices with reverse orientation in relation to the flow direction, that is to say such that the air flows towards the front side of one heat transfer device whereas another heat transfer device arranged downstream thereof faces the air flow with its rear side. A further possibility is to exchange the connection sides of an asymmetric heat transfer device, that is to say to install at least one of the heat transfer devices upside down. Preferably, the heat transfer devices combined to form an assembly have equally long front sides, with the holder being placed on said front sides.
Preferably, the heat transfer devices comprise tubes into the openings of which the heating devices are inserted. In this manner, the heat transfer devices can be thermally coupled to the heating devices in a particularly efficient manner, especially if the tubes are compressed after the heating devices have been inserted.
An advantageous further development of the invention provides that the heat transfer devices are extruded profiles comprising holes through which air can flow in transverse direction in relation to the extrusion direction. The extrusion direction is the same as the longitudinal direction of the heating devices and their contact plates. In an extruded profile, suitable holes can, for example, be made without much effort by means of a punching process. The use of extruded profiles as heat transfer devices allows cost-effective manufacture because laborious assembly of the heat transfer device from a large number of single components can be avoided. In contrast to traditional heat exchangers which are built of sheet-metal fins, it is, therefore, possible to achieve significant simplification. Furthermore, extruded profiles can be made as tubes extending in extrusion direction without any additional effort. The heating devices can be inserted in the openings of said tubes.
The extruded profiles that are used as heat transfer devices can be obtained by cutting a (long) extruded profile to length such that the individual heat exchangers are formed in an equal manner.
The extruded profiles preferably used as heat transfer devices are, preferably, provided with a base plate in which the holes for air flow are provided. Fins for heat transfer can extend from such a base plate on one side or either side thereof. Preferably, the extruded profile has only one single plate. However, it is also possible to use extruded profiles with two plates which are arranged in parallel and which are connected via heat transfer fins or intermediate walls arranged therebetween.
Preferably, each heat transfer device of a vehicle heating system according to the invention comprises a plurality of heating device receptacles. It is, however, also possible to provide a heat transfer device with only one single heating device receptacle. Heat transfer devices of a vehicle heating system according to the invention can be arranged in parallel rows and a plurality of such rows can be arranged in series as seen in flow direction.
Another advantageous further development of the invention provides that a plurality of contact rails extend in parallel in transverse direction in relation to the flow direction, wherein both contact plates of each heating device are each connected to one of two neighboring contact rails. These contact rails can be alternately connected to the positive and negative pole, respectively, of a voltage source. This alternation in flow direction results in a simple and clear circuit arrangement.
Another advantageous further development of the invention provides that the two contact plates of each heating device are electrically isolated from the heat transfer devices. In this manner, increased safety can be achieved which is, in particular, advantageous for higher supply voltages of, for example, 400 volts. That is to say that, by electrically isolating both contact plates from the heat transfer devices, the heat transfer devices can be connected to ground potential. Thereby the heat transfer devices are prevented from being energized by an electrical potential in the event of a defect.
The contact plates of the heating devices may each carry a positioning frame which forms at least one receptacle for a heating element. In this manner, the assembly of the heating devices can be simplified since the heating elements, which are preferably rectangular PTC elements, are just placed into the receptacles provided to this end and are subsequently covered with a second contact plate which likewise carries a positioning frame which is, preferably, shaped in an equal manner. Thereby, the number of different parts for the manufacture of the vehicle heating system can be reduced, with the result that costs are also reduced.
In order to allow pre-assembly of the positioning frames with the contact plates, the positioning frames can extend around edges of the contact plates, so that the contact plates are held by the positioning frame both on a front side facing the heating elements and on a rear side. Suitable positioning frames can be made of polymer ceramic or plastic and can be clicked into place on the contact plates, pushed onto the contact plates, or injection-molded around the contact plates.
Advantageously, PTC elements, two positioning frames and two contact plates can be pre-assembled to form a unit.
Preferably, the positioning frames leave a rear side of the contact plates open, said rear side facing away from the heating elements. This rear side of the contact plates is, preferably, covered with an electrically insulating lining, for example with a strip made of Kapton film or an electrically insulating ceramic material. In order to obtain a particularly good insulation, it is also possible to place a plurality of strips made of the same or of a different material one on top of the other.
An electric insulation of the contact plates can also be achieved by means of the material of a positioning frame covering the rear side, for example polyamide. However, injection-moldable materials usually are to disadvantage in that they always cause a considerable thermal insulation as well. By electrically insulating the contact plates by means of a separate lining, the electric insulation can be combined with an advantageously higher thermal conductivity and, thus, enhanced thermal coupling of the heating device to the heat transfer device.
The PTC elements can be held by the positioning frame in a friction-locked manner or in a positive manner. For example, the PTC elements can be clamped in the receptacles of the positioning frames. To this end, the positioning frames are, preferably, provided with clamping noses.
Preferably, the positioning frames enclose the heating elements in a fluid-tight manner. Particularly if the contact plates and the heating elements are not arranged in tubes or the tubes are not fluid-tight, the positioning frames can advantageously prevent any contact between the fluid to be heated and the heating elements. For example, the two positioning frames of a heating device can rest against each other in a sealing manner. A seal may be arranged between the insulating frames.
Further details and advantages of the invention will be illustrated by means of an exemplary embodiment with reference being made to the enclosed drawings. In the drawings,
The holder 4 can, for example, be made of plastic or metal, in particular of aluminum. In the exemplary embodiment shown, the holder 4 is made of metal and can therefore advantageously be used for electrically grounding the heat transfer devices 2. Preferably, the holder 4 is connected to the heat transfer devices 2 in a clamping manner. As an alternative or in addition, it is also possible to attach the heat transfer devices 2 to the holder 4 in a positive manner, for example by screwing or snapping into place.
In the embodiment shown, the heat transfer devices 2a, 2b, 2c are extruded profiles which have holes 5 through which air can flow transverse to the direction of extrusion. In the embodiment shown, these holes 5 are only shown schematically by means of strip-like sections of the extruded profile. A plurality of holes 5 is arranged in the strip-like sections. For example, the holes 5 can be punched into the extruded profile and can be of almost any shape desired. Circular or slotted holes are particularly suitable.
The extruded profiles 2a, 2b, 2c each comprise a plurality of tubes 6, into which the heating devices 10 are inserted. The tubes 6 or the openings of these rectangular tubes 6, thus, form receptacles for the heating devices 10.
The extruded profiles 2a, 2b, 2c have heat transfer fins 7 which extend from a base plate 8. The holes 5 through which air to be heated can flow are provided in said base plate 8. In the embodiment shown, heat transfer fins 7 each extend from only one side of this plate 8. However, it is also possible that heat transfer fins 7 extend from both sides of the plate 8.
The structure of the heating devices 10 can be seen from
Advantageously, the contact plates 11, positioning frames 13 and heating elements 12 can be pre-assembled to form a unit which can be easily handled.
As can be seen from
The ends 11a of the contact plates 11 are connected to the contact rails 3 and are bent off. These ends 11a can, for example, be attached to the contact rails 3 by means of rivets 3a or screws.
1 Vehicle heating system
2
a Heat transfer device
2
b Heat transfer device
2
c Heat transfer device
3 Contact rail
3
a Rivet
4 Holder
5 Hole
6 Tube
7 Heat transfer fin
8 Plate
9
a Connectors
9
b Connectors
10 Heating device
11 Contact plate
11
a Bent-off end of the contact plates
12 Heating elements
13 Positioning frame
14 Receptacle for heating elements
15 Insulating lining
16, 17 Positioning and clamping elements
18 Clamping noses
Number | Date | Country | Kind |
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10 2008 033 140.6 | Jul 2008 | DE | national |