DE609980C - Electrical wound capacitor - Google Patents

Description

Electrical wound capacitor For various purposes in electrical engineering Combinations of reactors and capacitors are used, namely Depending on requirements, the capacitors are connected in series or in parallel with inductors or combinations of these two basic circuits are made. There are too already structural associations of capacitors and transformers for power factor regulation became known, in which the secondary windings of the transformer as capacitor assignments are trained. The ends of the secondary windings are connected together, so that a self-contained winding is created in which the dielectric stressing voltage is generated by a transformer.

In contrast to this arrangement, in which the design of a Transformer with an iron core is assumed, the capacitor according to the invention far simpler and cheaper than a wound capacitor. To this end, will in an electrical wound capacitor, in which in a known manner both the inductive effect of the individual layers as well as the capacitive effect of the layers against each other or any combination of these two effects through the arrangement the assignments to each other and / or the electrical connections for the assignments is exploited, according to the invention initially a number of turns with one of the assignments wrapped alone, and only then is the other metallic covering wrapped up with it. In this way you get a particularly cheap and space-saving combination of choke coil and capacitor, which are executed in different ways or can be switched .. You can, for example, the beginning of an assignment and provide the end of the other assignment of a wound capacitor with power connections and receives a series connection, as shown schematically in Fig. i. Here the inductance Ll (of the one occupancy) with the capacitance C (of the two Occupancy systems against each other) and the inductance L2 (the other occupancy) connected in series.

In Fig. 2, an embodiment according to the circuit diagram of Fig. I is shown shown schematically by first making a certain number of turns with only one Occupancy and then the second occupancy with is further wound, so that is the two assignments face in a capacitor-like arrangement. Then the second assignment with a certain number of turns is wound on by itself. You get in in this case a series connection corresponding to Fig. i of inductance-capacitance-inductance, but with the start and end inductances of the winding body are traversed by the full charging current.

The thick lines represent the metal coverings and the thin lines the dielectric. One film A1 is only wound up on its own at first, until the entry of the other cover also begins at A2. The first film ends at F1, while the second one, which is laid out later, continues to be wound up to E2 . Fig. 3 shows such a capacitor in the development and cut in length.

If the beginning and end of each of the two assignments are connected, this results in superimpositions in the circuits, depending on the connection of the winding of the corresponding inductance or capacitance currents. The along the capacitor assignments occurring inductances are to a certain extent coupled by the capacitor capacitance, where this capacitance is of course not concentric, but along the capacitor assignments must present distributed.

The embodiment of the invention in which only one occupancy a number Turns. alone and then wrapped with the other assignment to the end, , is not particularly shown in the drawing. But it arises in an analogous way Design by yourself.

Claims (1)

PATENT CLAIMS: r. Electrical wound capacitor, in which both the inductive effect of the individual layers and the capacitive effect of the layers against each other are used, characterized in that one of the assignments is initially wound with a number of turns and only then the other metallic assignment is also wrapped. z. Modification of an electrical winding capacitor according to claim i, characterized in that at the beginning and at the end of the coil only one of the assignments is present, while in the middle of the coil both assignments are opposite one another.