DE876274C - Electric capacitor with at least one burnout capability - Google Patents

Description

Electrical capacitor with at least one burn-out Belequnq The invention relates to an electrical capacitor having at least one burn-out coating applied to a dielectric tape.

It has already been suggested that the assignments for such capacitors to apply a dielectric tape on both sides, which is only serves as a carrier for the coverings, but is not dielectrically stressed. It should then be two-type double-sided metallized films with the interposition of non-metallized dielectric tapes made of paper or plastics, e.g. B. polystyrene or polyethylene, which form the effective dielectric, to one Capacitor to be processed. Those made using the metallized foils Capacitors are characterized by a particularly low loss factor. Nevertheless can dissipate heat, at least if the capacitors are at higher frequencies operated, cause difficulties.

This? `` Disadvantage is in an electrical capacitor with at least a burn-out coating applied to a dielectric tape thereby avoided that, according to the invention, the burnout occupancy on one only as a carrier for this occupancy. Serving, dielectrically not stressed insulating tape is applied, but the other occupancy consists of a metal foil, and that a non-metallized layer between the burn-out coating and the metal foil dielectric-s tape is arranged. By using a metal foil -Existing occupancy will remove the heat from the Inside Such a capacitor is much easier. Also offers the metal foil the other advantages that its surface is much smoother than that . of the metallized paper tapes generally used and that they also is cheaper than a double-sided metalized paper hand. The structure of the capacitor is made so that on one end face, the double-sided metallized insulating film and on the other end face the metal foil protrudes and that the two coverings here are each provided with a connecting bridge. To reduce the burn-out energy in the event of a breakdown In the vicinity of the connecting bridge, it is advisable to use the burn-out Metal covering in individual interconnected, for example strip-shaped To subdivide surface parts and thereby a mutual decoupling between: these To effect surface sharing. The supply lines to the individual surface parts can also be used be guided over very narrow, burn-out webs that act as safeguards, so that with larger energy conversions associated burnouts within a Subfield of this by responding upstream fuse, which also outside of the electric field - of the customer sator, for example at the edge of the occupancy, is disconnected from the supply line.

The figures show the structure of a condenser according to the invention. FIG. 1 shows a cross section through a capacitor winding in a strongly distorted manner Proportions and FIG. 2 shows a view of a burn-out metallic coating with mutually decoupled surface parts with fuse.

In Fig., I illustrate .io double-sided with a zinc coating 2o with a thickness of o, ii @t steamed metal paper foils, which cover the one and i i aluminum foils, which represent the other assignment of a capacitor. Between each of a vapor-deposited covering 2, o a metal paper foil and one each Aluminum foil ii is a dielectric tape 12, wrapped from polyethylene, which forms the effective dielectric of the capacitor, while the carrier film the vapor-deposited coating also consists of dielectric material, but itself is not dielectrically stressed and therefore made of inferior material may exist as the dielectric tapes i2. On or on one end of the capacitor are the protruding metal paper foils io and .on the other end face the Aluminum foils vi each with a contact bridge 13 and 1d. provided by which the individual turns of each assignment are connected in parallel.

As can be seen from FIG. 2, the metal paper foil is metallized up to the edge 15 on one side, while the other edge is left free of metal. The part of the vapor-deposited metal coating lying in the electrical field of the capacitor is subdivided into inclined, mutually decoupled partial areas, i6, which are separated from one another by metal-free strips 18. With the metallized edge 1 5 the patches 16 are connected only by short and narrow Stegea7 which act as fuses. In the case of larger energy conversions, they burn out within a partial area 16, so that this is switched off and no longer contributes to the capacitance of the capacitor.

Claims (6)

PATENT CLAIMS: i. Electrical capacitor with at least one burn-out coating applied to a dielectric tape, characterized in that that the (burn-out occupancy on a merely as a carrier for this occupancy Serving, dielectrically not stressed insulating tape is applied, the other assignment but consists of a metal foil and that between the burn-out Allocation and the metal foil arranged a non-metallized dielectric tape is. 2. Capacitor according to claim i,. Characterized in that the carrier For the burn-out covering - metalized insulating tape on both sides is. 3. Capacitor according to claim i and 2, characterized in -that on or one end face the insulating film with the burn-out covering on which other end face but the metal foil protrudes and that the two assignments here are each provided with a connecting bridge. 4 .. capacitor according to claim i to 3, characterized in that the occupancy applied to the insulating tape is divided into individual, mutually decoupled partial areas. 5. Capacitor according to claim q.,. characterized in that the partial areas .by switched on Fuses are connected. 6. Capacitor according to claim 5, characterized in that i That the fuses are outside the electrical field of the capacitor.