DE102010063939A1 - Electrical heating device for e.g. fuel filter of diesel water separator in motor car, has ceramic layer and/or contact layer chosen according to composition and/or thickness of heating element having predefined electric resistance value - Google Patents

Abstract

The device (1) has a control/regulating device (4) comprising a positive thermal coefficient (PTC) heating element (2) that produces or limits the supplied current value. A ceramic layer (6) and/or a contact layer is chosen according to composition and/or thickness of the PTC heating element, where the PTC heating element has predefined electric resistance value. The trimming and/or calibration of the PTC heating element are made based on predefined electric resistance value, where removal of a surface of the contact layer is made in a linear manner. An independent claim is also included for a method for operating an electrical heating device with a PTC heating element.

Description

The present invention relates to an electric heating device with at least one PTC heating element, in particular for a filter device in a motor vehicle according to the preamble of claim 1. The invention also relates to a method for operating such an electric heater and a filter device with such a heater.

PTC elements or thermistors (positive temperature coefficient) are electrically conductive materials that can conduct the current better at low temperatures than at high temperatures. Their electrical resistance increases accordingly with increasing temperature. In general, however, such a PTC element has a very high dispersion with respect to its resistance values and a current peak lasting about 2 seconds at the beginning of the energization of the PTC element. In the design of PTC heating elements must be set at a predefined maximum power consumption lower by the current spike, which reduces the value of a maximum possible heating power. At the same time, an electrical resistance of known PTC heating elements of, for example, -40 ° C. to Abregeltemperatur runs on approximately square function, so that there are basically two possible temperatures on a characteristic curve for a resistance value, which is also negative.

From the DE 10 2005 011 182 A1 a generic heating device for fuel with at least one PTC heating element is known, which is held on a support body. This support body encloses the PTC heating element, wherein on the support body additionally an insulating protective layer is applied. This is to create a high chemical and thermal resistance to fuels.

From the EP 1 523 224 B2 as well as from the EP 1 667 490 B1 Further electrical heating elements are known.

The present invention is concerned with the problem of providing an improved or at least one alternative embodiment for an electrical heating device of the generic type with at least one PTC heating element, which is characterized in particular by reduced scattering of the resistance values of the PTC heating elements.

This problem is solved according to the invention by the subject matters of the independent claims. Advantageous embodiments are the subject of the dependent claims.

The present invention is based on the general idea, in an electric heater with at least one PTC heating element, to provide a control device that predetermines or limits a current supplied to the at least one PTC heating element. In the worst case, ie at a maximum deviation of the electrical resistance value of + 35%, the PTC heating element provides the predetermined heating power of, for example, 100 watts, in all other cases, that is, with lower electrical resistance, exceeding the predefined heating power by limiting the the PTC heating element supplied current is prevented. As a positive side effect, it should be noted here that the PTC heating element no longer provides heating power, as long as it has reached its Abregeltemperatur. By limiting or predetermining the current intensity supplied to the PTC heating element, in particular within a narrowly defined current intensity window, the scattering of the heating power generated by the PTC heating element can be severely restricted. Additionally or alternatively, a ceramic layer and / or a contact layer of the at least one PTC heating element with respect to their composition and / or their thickness can be selected so that the PTC heating element has a predefined electrical resistance value. The thickness can be precisely adjusted, in particular by a laser ablation, whereby indirectly the electrical resistance of the PTC heating element can be influenced. It is also conceivable, for example, a perfect separation of the contact layer, for example, the length, whereby a serial or parallel operation is possible and thereby the energy yield can be accurately controlled. With a serial current supply, a one-sided heat emission is optimized. The removal of the contact layer was previously, for example, by grinding or burning away, which was complicated and expensive.

In an advantageous development of the solution according to the invention, the control / regulating device is designed such that it keeps the power supplied to the at least one PTC heating element constant over preferably the entire characteristic range, for example, limited to 7 amps. This allows a particularly precise control of the electrical resistance and thus a particularly accurate control of the heating power of the PTC heating element can be achieved. At the same time thereby typical inrush current peaks of a PTC heating element can be eliminated. By predefining or limiting the current strength provided to the at least one PTC heating element, its heating power can be regulated to a desired value, without influencing the actual turn-off function at a specific temperature.

In an advantageous development of the heating device according to the invention, a ceramic layer and / or a contact layer of the at least one PTC heating element is selected in terms of their composition and / or thickness such that the PTC heating element has a predefined electrical resistance and thus also a predefined and modifiable heating power having. The heating power can thus be influenced directly by an intervention in the layer thickness of the ceramic or the metal electrode, so that for the calibration of the PTC heating element and a removal of the existing contact layer to a predefined level, for example by means of a laser, are conceivable. Of course, in advance can be taken by an appropriate composition of the ceramic mixture influence on the electrical resistance and thus the heating power of the PTC heating element. As a material for such ceramic mixtures, for example, barium titanate comes into consideration. The thickness can be precisely adjusted in particular by a laser ablation. It is also conceivable a perfect separation of the contact layer, for example, the length, whereby a serial or parallel operation is possible.

Other important features and advantages of the invention will become apparent from the dependent claims, from the drawings and from the associated figure description with reference to the drawings.

It is understood that the features mentioned above and those yet to be explained below can be used not only in the particular combination given, but also in other combinations or in isolation, without departing from the scope of the present invention.

Preferred embodiments of the invention are illustrated in the drawings and will be described in more detail in the following description, wherein like reference numerals refer to the same or similar or functionally identical components.

Show, in each case schematically,

1 a current intensity temperature diagram with a predetermined maximum current intensity at 7 A for controlling or controlling an electrical resistance and thus a heating power of a PTC heating element,

2 a heating device according to the invention,

3 a removal process of a contact layer in a PTC heating element.

According to the 2 , Has an electric heater according to the invention 1 , at least one PTC heating element 2 in particular for heating fuel in a filter device 3 is arranged in a motor vehicle. According to the invention is now additionally a control / regulating device 4 provided, one the at least one PTC heating element 2 supplied current specified or limited. The control / regulating device can be the heating element 2 Limit supplied current to a maximum of 7 amps - or within a predefined window, for example, +/- 1 amp, hold. Additionally or alternatively, a ceramic layer may also be used 6 and / or a contact layer 7 the at least one PTC heating element 2 be chosen in terms of their composition and / or their thickness so that the PTC heating element 2 has a predefined electrical resistance. The thickness can be precisely adjusted in particular by a laser ablation, which indirectly the electrical resistance of the PTC heating element 2 can be influenced. It is also conceivable, for example, a perfect separation of the contact layer 7 , for example, lengthwise, whereby a serial or parallel operation is possible and thus the energy yield can be controlled accurately. With a serial current supply, a one-sided heat emission is optimized. Of course, also have trimmed or controlled PTC heating elements 2 a mountainous course on.

• – eine Abregeltemperatur des PTC-Heizelementes 2 wird nicht beeinflusst,
• – eine zu Beginn der Bestromung des PTC-Heizelementes auftretende Stromspitze kann eliminiert werden,
• – eine Streuung der elektrische Widerstandswerte des PTC-Heizelementes 2 und damit eine Streuung der Heizleistung kann deutlich reduziert werden.

The control device 4 Moreover, it is preferably designed such that it is the at least one PTC heating element 2 supplied current over preferably the entire characteristic range (see. 1 ) keeps constant, for example at 7 amperes. As a result, the following advantages can be achieved:

• - A Abregeltemperatur the PTC heating element 2 is not affected
• A current peak occurring at the beginning of the energization of the PTC heating element can be eliminated,
• - A scattering of the electrical resistance values of the PTC heating element 2 and thus a dispersion of the heating power can be significantly reduced.

The idea according to the invention is therefore a PTC heating element 2 by a current limiting with a preferably linear, constant current characteristic 5 (see. 1 ) to operate up to the Abregeltemperatur. By limiting the maximum current to be supplied, the heating power of the PTC heating element 2 can be accurately influenced, which in particular a required by the vehicle manufacturer and narrow power requirements window can be taken into account.

In an advantageous development of the solution according to the invention (cf. 3 ), that has at least one PTC heating element 2 a ceramic layer 6 and a contact layer 7 which is chosen in terms of their composition or thickness such that the PTC heating element 2 having a predefined electrical resistance and thus a predefined heating power. The normal reduction of the heating power when reaching the Abregeltemperatur is not affected. A removal process of the contact layer 7 For example, by means of a laser ( 8th ) (Engraving laser), thereby trimming or calibrating the PTC heating element 2 to a predefined electrical resistance is possible. The removal of surface of the contact layer 7 is linear with an increasing ohm number. Of course, a breaking or cutting the contact layer 7 respectively.

Looking at the 1 , it can be seen, with an electrical resistance tolerance of +/- 30% at otherwise the same temperature up to 10 amps difference in terms of by the PTC heating element 2 conductive current exists. By limiting the flow of current through the PTC heating element 2 For example, 7 A, the power demand window can be limited.

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

• DE 102005011182 A1 [0003]
• EP 1523224 B2 [0004]
• EP 1667490 B1 [0004]

Claims (8)

Electric heating device ( 1 ) with at least one PTC heating element ( 2 ), in particular for a filter device ( 3 ) in a motor vehicle, characterized in that - a control device ( 4 ) which is provided to the at least one PTC heating element ( 2 ) specified or limited, and / or - that a ceramic layer ( 6 ) and / or a contact layer ( 7 ) of the at least one PTC heating element ( 2 ) is chosen with regard to its composition and / or its thickness such that the PTC heating element ( 2 ) has a predefined electrical resistance. Heating device according to claim 1, characterized in that the control device ( 4 ) Limits the current, for example, to 7 amps. Heating device according to claim 1 or 2, characterized in that the control device ( 4 ) the at least one PTC heating element ( 2 ) supplied current within a predefined window, for example, holds +/- 1 A. Heating device according to one of claims 1 to 3, characterized in that the control device ( 4 ) is designed such that it corresponds to the at least one PTC heating element ( 2 ) supplied current constant over preferably the entire characteristic range constant, for example at 7 A. Filter device, ( 3 ), in particular a fuel filter, a urea filter or a lubricant filter with a heating device ( 1 ) according to any one of the preceding claims. Fuel cell water separator, diesel water separator, air heater for a passenger compartment, defrosting device each with a heater ( 1 ) according to one of claims 1 to 4. Method for operating an electric heater ( 1 ) with at least one PTC heating element ( 2 ), in particular for a filter device ( 3 ) in a motor vehicle, in which - a control device ( 4 ) a the at least one PTC heating element ( 2 ) provides supplied current, and / or - a ceramic layer ( 6 ) and / or a contact layer ( 7 ) of the at least one PTC heating element ( 2 ) is processed, that is trimmed, eg lasered, in thickness, that the PTC heating element ( 2 ) has a predefined electrical resistance. Method according to claim 7, characterized in that the control device ( 4 ) the PTC heating element ( 2 ) supplied current constant over preferably the entire characteristic range constant, for example at 7 A.

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