DE538666C - Electric capacitor with slotted active metal coatings, especially for high frequency - Google Patents

Description

Electric capacitor with slotted active metal coatings, especially for high frequency The invention relates to an electrical Capacitor with slotted active metal coatings, especially for high frequency. As is known, very short waves cause eddy currents in metallic parts a considerable amount of heat generated by capacitors, which easily breaks down of the dielectric or for melting on metal foils or other metal parts leads. It is already known to reduce these eddy currents or what is going on the same amounts to equalize the power distribution in the covering foils of the capacitor to provide the latter with elongated slots, e.g. B. with perform a comb-like cut in such a way that the capacitively acting surfaces the foils are separated into individual strips by incisions.

According to the invention, one can further equalize the current distribution in foils and thereby achieve a further reduction in eddy currents, thereby that the slots of the chimney-like section having in a known manner Assignments of one polarity the metal strips of the likewise comb-like assignments opposite polarity (e.g. the center of the strip. In this way The electrostatic field is distributed in a number of parallel to each other diverging subfields, the number of which is about twice as large as the number of the teeth of each layer.

An embodiment of the electrical capacitor according to the invention is shown in the drawing.

Fig.i is a top view of a pair of assignments of different Polarity separated by a dielectric layer.

Fig. 2 is a connection diagram of a section, its assignments are connected to each other in parallel within a polarity group.

Fig. 3 is a section along the line III-III of Fig. I, wherein the parts are drawn exaggerated for better clarity.

i and 2 denote the metal plates and metal foils, respectively, in opposite directions Polarity indicated by an insulating layer 3, e.g. B. a mica lamella, separately are. Each metal layer consists of an unslit connector and several of these outgoing, separated by slits, the @eapaziti % -e Stripes forming the surface. These are 6 on plate i and 6 on plate 2 denoted by 5.

When assembling the capacitor, plates i and 2 are now like this placed as (read fig. i and 3 show. The slits between the active strips of the plate i: and with reference numbers 7 and the slots of the plate 6 with reference numbers 8 designated. They are offset from one another in such a way that each slot is opposite the The middle of the strip runs in the opposite polarity.

From Fig.3 it can be seen that the electrostatic fields between the opposite assignments of different polarity, as well as the Streams of these assignments split into a number of parallel parts. The spaces in between 7 and 8 and their exit surfaces are essentially completely free of electrostatic Effect and serve as a barrier against the eddy currents developing on the 9. As the panel of Fig. 2 shows, the unslotted parts of each layer serve as Power supply for the active parts and 6.

The individual sections formed in this way can also be connected to one another Assembled in any way, preferably using suitable clamps. You can have such a stack or a number of them Stack within a cast or pressed housing, e.g. made of insulating material, attach.

If abnormally high voltages are involved, the whole Metal body consisting of the layers in an open insulating housing or frame fixedly arranged and in a suitable liquid dielectric, e.g. B: in castor oil or other transformer oils, so that every metal layer is surrounded by the liquid dielectric. In this case, of course, every metal layer must have sufficient strength that the whole active body is sufficiently rigid. There must also be insulating spacers, especially at the free ends of strips and 6 and clamping means are provided to keep them in a perfectly parallel position at all times to hold to each other.

When there is a number of stacks to be assembled and a sizeable one Heat development is to be expected, so it is advisable within the whole so formed body to provide resilient intermediate layers, for. B. metallic spring plates or differently designed parts or elastic insulating layers, such as. B. layers of cork.

Claims (1)

PATENT CLAIM: Electric capacitor with slotted active Metal coatings, in particular for high frequency, characterized in that the Slots of the coverings having a comb-like cut in a manner known per se the one polarity the metal strips of the also comb-like assignments of the opposite polarity (e.g. the middle of the strip).