DE4222172A1 - Electrically insulating heat coupling for capacitors - made of metal foil and plastic film contacting capacitor body and cooler - Google Patents

Abstract

Electrically insulating heat coupling (1) for force-cooled electrical capacitors, partic. Al electrolytic capacitors, is positioned between the metallic capacitor housing and a cooler. It consists of two metal foils (6,7) and at least one insulation film (8,9) in a comb-like structure. The end faces (10) of one metal foil (6) contact the housing and the end faces (11) of the other foil contact the cooler. Pref. foil is of Al or Cu and film is of polypropylene. ADVANTAGE - Good conductivity, compensates for irregular surfaces.

Description

The invention relates to an electrically insulating heat coupling for forced-cooled electrical capacitors, especially aluminum electrolytic capacitors, the zwi a metallic capacitor housing and a Heat sink is arranged.

When AC capacitors, in particular Aluminum electrolytic capacitors generate heat that must be derived to avoid the capacitor damage.

In the case of forced cooling, this is preferably done by a direct mounting on a cooling plate (e.g. pin mounting). Since in the case of electrolytic capacitors in general the cathode is not insulated against the metallic housing Condenser housing and heat sink electrically against each other be isolated.

It is known to use insulating washers in the peg assembly clog that between the metallic capacitor housing and the heat sink are arranged. Such insulation disks are, for example, from the "Siemens data book 1989/90, aluminum and tantalum electrolytic capacitors ", Pages 260 to 262 known.

Form these at least 1.5 mm thick plastic discs however, a high thermal resistance, with additional Lich weight that the bottom of the capacitor house is generally not plan, so additional Heat transfer resistances result.  

From EP 0 476 164 A1 an insulating washer with good Heat coupling for positively cooled capacitors known that overcomes the difficulties outlined above. In particular, a poor flatness of the housing balanced by the well-known insulating washer become. This consists of at least two on the edges welded foils, between which a thermal conductive mass is arranged, at least one of the Foil is an insulation foil. The manufacturing effort the known insulating washer is high, so that the component is relatively expensive.

The object of the invention is an electrically insulating Heat coupling with good thermal conductivity which, like the well-known insulating washer, is capable of Compensate for unevenness in the bottom of the capacitor housing chen, and which is inexpensive to manufacture.

This object is achieved in that the heat coupling made of two metal foils and at least one Iso arranged between the metal foils lation film exists, and that they are essentially has comb-like structure, such that the end faces the one metal foil in contact with the capacitor housing se and the end faces of the other metal foil in contact stand with the heat sink.

The heat coupling can consist of two ver wrapped metal and insulation foils exist, the Metal foils are staggered, so that one of their end faces over the Isolationsfo lien survived.

Furthermore, the heat coupling from two metal foils and an insulation film, which folded like a meander  are, so that end faces arise that differ on Lichen sides formed by one of the metal foils are. It is expedient that the insulation film is wider than the metal foils.

The metal foils are advantageously made of aluminum or Copper, while the insulation films made of polypropylene consist.

The object of the invention will become apparent from the following Exemplary embodiments explained.

The accompanying drawing shows:

Fig. 1 shows the basic construction of a heat and power,

Fig. 2 is a wound heat coupling and

Fig. 3 shows a folded heat coupling.

In Fig. 1 in principle a thermal coupling 1 is Darge is disposed between a heat flow W and a heat sink S is arranged. The heat coupling 1 consists of a first thermal conductor 2 and a second thermal conductor 3 between which an electrical insulator 4 is arranged. Due to the "comb-like" structure of the heat coupling there is an increase in the effective cross-section for the heat flow, so that the thermal resistance was reduced. This is achieved in that the thermal resistance of the heat coupling 1 is reduced by the enlarged surface of the electrical "insulator" of the thermal "poles" without deteriorating the dielectric strength.

In FIG. 2, a thermal coupling 5 is shown, which is as obtained by that two metal foils 6, 7 with two insulating foils 8, 9 are wound around a not shown in the figure mandrel, that a respective metal foil 6 and 7 faces an end face 10 or 11 . On the end face 10 is the bottom of the capacitor housing and on the end face 11 of the cooling body. The two metal foils 6 , 7 are electrically insulated from one another by the insulation foils 8 , 9 .

In the basic version, this disk-shaped winding 5 is stretched between the capacitor bottom and the heat sink. The protruding metal foils 6 , 7 are pressed together somewhat and can adapt to the surface geometry of the capacitor base and the heat sink. To minimize leakage current, the cavities can be potted with an electrical insulator.

The minimum thermal resistance is achieved if the insulation foil has the same thickness (d _i ) as the metal foil (d _m ) and the following relationship applies:

(b _i / d _i ) ² = λ _m / λ _i ,

where b _{i is} the effective width of the insulation film, λ _{m is} the coefficient of thermal conductivity for the metal of the metal foil and λ _{i is} the coefficient of thermal conductivity for the insulation film. For the combination of metal foils made of aluminum or copper and insulation foils made of polypropylene, the equation given above gives the numerical value of approx. 1000.

In Fig. 3, a heat coupling 12 is shown, which was obtained in that two metal foils 13 , 14 and an intermediate insulating film 15 are folded meandering term. This ensures that the metal foil 13 rests on the end face 16 , which is formed by the capacitor bottom Kon, while the metal foil 14 lies on the end face 17 formed by the heat sink.

In the heat coupling 12 , it is advantageous if the insulation film 15 is wider than the metal foils 13 , 14 , so that undesired short circuits between the metal foils 13 , 14 are avoided.

The heat coupling according to the embodiment shown in FIG. 3 has the advantage over the embodiment shown in FIG. 2 Darge that no leakage currents can flow and that the heat coupling 15 is flexible in one direction, so also for cooling cylindrical body ( Walls of the capacitor housing) is net.

The temperature gradient at a heat flow of 1 W / cm ^{2 was} measured at different heat couplings, the temperature gradient being a measure of the thermal resistance. High temperature differences mean high thermal resistance, whereas small temperature differences indicate low thermal resistance.

The polypropylene iso known from the prior art washer with a thickness of 0.2 mm (dielectric strength 14 kV) has a temperature gradient of 5.0 K. A commercially available heat-conducting foil with a thickness of 0.3 mm (voltage strength 4 kV) had a temperature gradient of 2.5 K. whereas a heat coupling according to the invention of 6 mm Thickness (dielectric strength 14 kV) a temperature gradient of only 1.1 K.

Claims (5)

1. Electrically insulating heat coupling for force-cooled electrical capacitors, in particular aluminum-electric lytkondensatoren, which is arranged between a metallic condenser housing and a heat sink, characterized in that it consists of two metal foils ( 6 , 7 ; 13 , 14 ) and at least one between the Metallfolien ( 6 , 7 ; 13 , 14 ) angeordne th insulation film ( 8 , 9 ; 15 ), and that it has a substantially comb-like structure, such that the end faces ( 10 , 16 ) of a metal foil ( 6 , 13 ) are in contact with the capacitor housing and the end faces ( 11 , 17 ) of the other metal foil ( 7 , 14 ) are in contact with the heat sink. 2. Heat coupling according to claim 1, characterized in that it consists of two mutually entangled metal ( 6 , 7 ) and insulation foils ( 8 , 9 ), the Me tallfolien ( 6 , 7 ) are arranged offset against each other, so that each one of its end faces ( 10 , 11 ) projects beyond the insulation foils ( 8 , 9 ). 3. Heat coupling according to claim 1, characterized in that it consists of two metal foils ( 13 , 14 ) and an insulation foil ( 15 ), which are folded in a meandering manner, so that end faces ( 16 , 17 ) are formed which on different sides by one of the metal foils ( 13 , 14 ) is formed. 4. Heat coupling according to claim 3, characterized in that the insulating film ( 15 ) is wider than the metal foils ( 13 , 14 ). 5. Heat coupling according to one of claims 1 to 4, characterized in that the metal foils ( 6 , 7 ; 13 , 14 ) made of aluminum or copper and the insulation foils ( 8 , 9 ; 15 ) consist of polypropylene.