The invention relates to a heating device (1) for an air-conditioning housing, said heating device (1) comprising a heating body (2) supplied with current for heating an air flow passing through said heating body (2), said heating body (2) comprising heating elements through which said current passes and which are arranged in electrically insulated tubes (4) of the heating elements, said heating elements being controlled via a distribution unit (3), said heating device (1) comprising means for earthing a plurality of metal elements distributed in the heating body (2) and the distribution unit (3). Said heating device (1) is characterised in that said earthing means consist of a single earthing circuit which passes through the heating body (2) and the distribution unit (3) and is formed by arranging said metal elements in series with direct contact between said metal elements.

The invention relates to an electronic interface housing (6) of an electrical heating device (1) for heating an airflow passing through, the electronic interface housing (6) being configured to house electronic components for controlling at least one heating element (4) fitted to the electrical heating device (1), including at least one printed circuit board (44), the electronic interface housing (6) comprising at least one rib (56, 58) in contact with the printed circuit board (44) in a contact zone (54), characterized in that the printed circuit board (44) comprises at least one water drainage opening (82) in the contact zone (54).

The invention relates to a heating device (1) for an air-conditioning housing, said heating device (1) comprising a heating body (2) supplied with current for heating an air flow passing through said heating body (2), said heating body (2) comprising heating elements through which said current passes and which are arranged in electrically insulated tubes (4) of the heating elements, said heating elements being controlled via a distribution unit (3), said heating device (1) comprising means for earthing a plurality of metal elements distributed in the heating body (2) and the distribution unit (3). Said heating device (1) is characterised in that said earthing means consist of a single earthing circuit which passes through the heating body (2) and the distribution unit (3) and is formed by arranging said metal elements in series with direct contact between said metal elements.

A process for manufacturing a PTC heating element that includes at least one PTC component (20) and a carrier (14, 16) permanently connected to the PTC component on at least one side (24, 26) of thereof The process includes applying electrically conductive sintered material (28, 30, 36, 38) on the one side of the PTC component, which side is to be permanently connected to a carrier. Subsequently, a contact of the PTC component is established with at least one carrier such that sintered material, which was applied between the PTC component and the carrier and is intended for establishing a connection between the at least one PTC component and the at least one carrier, is positioned. The sintered material, which material has been positioned between the PTC component and the carrier, is sintered by heating or/and by applying pressure.

An electric heating device comprises a housing with a partition wall which separates a connection chamber from a heating chamber for dissipating heat and from which at least one PTC heating device protrudes as a heating fin in the direction toward the heating chamber. The PTC heating device comprises at least one PTC element electrically connected to conductor tracks in the connection chamber. A temperature sensor is connected, in terms of data, to a control device and is accommodated in a sealed manner in a temperature sensor receptacle which is formed in a wall delimiting the heating chamber. The temperature sensor is accommodated in a sliding manner in the temperature sensor receptacle. A support prevents the temperature sensor from sliding out of the temperature sensor receptacle and/or directly plugs a temperature sensor contact element of the temperature sensor in the connection chamber into a printed circuit board.

A heating device 1 for an air-conditioning unit, said heating device 1 comprising a heating body 2 supplied with current in order to heat an airflow passing through said heating body 2, the heating body 2 comprising heating elements that are flowed through by said current and located in tubes 4 that are electrically insulated from the heating elements, said heating elements being controlled via a distribution unit 3, the heating device 1 comprising means for grounding a plurality of metal elements that are distributed in the heating body 2 and the distribution unit 3.

This device is characterized in that said grounding means consist of a grounding circuit passing through the heating body 2 and the distribution unit 3, at least one part of said grounding circuit being integrated into a protective housing 8 of the distribution unit 3.

The invention relates to a heating device (1) for an air-conditioning housing, said heating device (1) comprising a heating body (2) supplied with current for heating an air flow passing through said heating body (2), said heating body (2) comprising heating elements through which said current passes and which are arranged in electrically insulated tubes (4) of the heating elements, said heating elements being controlled via a distribution unit (3), said heating device (1) comprising means for earthing a plurality of metal elements distributed in the heating body (2) and the distribution unit (3). Said heating device (1) is characterised in that said earthing means consist of a single earthing circuit which passes through the heating body (2) and the distribution unit (3) and is formed by arranging said metal elements in series with direct contact between said metal elements.

A heat exchanger is disclosed. The heat exchanger includes a protective device, mutually parallel tubes through which a first fluid circulates, and perpendicular fins connecting two successive flat tubes, a second fluid circulating between said flat tubes by passing through said fins, the protective device being apertured so as to allow the circulation of the second fluid through the fins. The protective device includes fixing spikes which are inserted forcibly between the fins.

A PTC heating device has contact surfaces formed by a metallization, and also has first and second contact elements which are to be assigned different polarity and which are electrically contacted with the contact surfaces. Both of the first and second contact surfaces are circumferentially sealed by a frame that follows the contour of the respective contact surface and that is made of an electrically non-conductive adhesive coating. In the method of making the PTC heating device, the contact surfaces of the PTC element are contacted in an electrically conductive manner with the two contact elements, each of which has a strand an electrically non-conductive adhesive coating following the contour of the contact surfaces. During this contacting, the adhesive coating is displaced in such a manner that both contact surfaces are circumferentially sealed by a frame formed by the adhesive coating.

A PTC thermistor module may include at least two PTC thermistor elements. The at least two PTC thermistor elements may be spaced apart from one another by separation sections. The at least two PTC thermistor elements may include two electric lines, spaced apart from one another, for the electrical supply of the PTC thermistor elements. An increased efficiency and operational reliability of the PTC thermistor module are achieved with an electrically insulating receiving body, in which the PTC thermistor elements are received, and which encompasses the PTC thermistor elements in a circumferential direction. A method for producing such a PTC thermistor module and a temperature control device may utilize at least one such PTC thermistor module.