DE746366C - Condenser or condenser bushing - Google Patents

Description

Capacitor or condenser bushing It is known as a material to use non-metallic materials for the allocation of capacitors. So is It has already been proposed to make the coverings from conductive rubber and to use non-conductive rubber as insulating material. Furthermore, it is no more new, to use lacquer, varnish or synthetic resin, which by graphite in colloidal State, metal powder or another conductive substance in a finely divided state to be made conductive. Nice has also been suggested; conductive paper stock layers to use. .

Weak spots form the margins of the coverings, where there are frequent carbon copies occur, which lead to the destruction of the capacitors. These weak spots are caused by an unfavorable shape of the electric field and air pockets. The unfavorable shape of the electric field can already be seen by the arrangement of half-. conductive layers, which adjoin the pavement edges, counteracted. In addition to wound capacitors, this measure is also used with ceramic capacitor bushings been applied. The risk of air inclusions is explained with reference to Fig. Z, which shows on an enlarged scale part of a capacitor. In this figure r denotes the metal coating, a and 3 denote the insulating material layers of the dielectric and 2o the impregnating agent, which can consist of paraffin or synthetic resin. Since the impregnation agent does not penetrate to the edge of the covering, there is air in room .4 closed. Also the use of hard paper layers, which have a higher impregnating agent content at the edges of the metal insert, can not completely remove the air pockets impede. Through layers of insulation, which are bent next to the coverings, the air pockets can also not fixed «-ground.

However, air inclusions at the edges of the coverings are extraordinary shameful because the field strength at these points is very high as a result of the edge effect is high, and cause by ionization of the air the dielectric gradually gets destroyed. If metallic coverings are used, the space .I is proportionate large, since metallic documents are not used below a certain strength can. `` 'ground coverings made of conductive synthetic resin are applied, the space d can be smaller be; it all does not disappear completely because the synthetic resin coverings always are arranged on top of one another.

The present invention is now a capacitor with conductive coverings made entirely or partially of synthetic resin, in which the above disadvantage is avoided.

In such an electrical capacitor or a capacitor bushing with conductive coverings, of which at least the edge parts are electrically conductive synthetic resin, are according to the invention between the insulating layers, along and in contact with the edges of the conductive synthetic resin covering, Layers of non-conductive synthetic resin of the same thickness as the covering conductive synthetic resin arranged. As a result, the air inclusion, as is the case with d. shown in Fig. i, completely avoided. The conductive and non-conductive adjacent Resin coverings connect very firmly to one another immediately, and it takes no impregnating agent, as shown in FIG. 2, can be used.

The marked capacitor is preferably manufactured as follows: An insulating strip, which is preferably made of fiber, e.g. B. paper, consists is licked with a conductive hardenable synthetic resin, -and the remaining part is with covered with a non-conductive hardenable synthetic resin. The capacitor is then built up by rolling up, folding up, piling up or the like, and the synthetic resin is then cured by means of heating, possibly under pressure. The capacitors can be provided with a shell made of synthetic resin, whereby the hardening the synthetic resin of the shell or the layers during a single operation can be done. This work can be carried out in such a way that the capacitor is used in a mold, whereupon after adding powder to the Closed condenser around the press and brought to temperature 1 @ -ird. To For some time the synthetic resin of the cover and the coverings is then hardened.

The synthetic resin can be on one or both sides of an insulating layer or sprayed onto several layers of insulating material. This procedure enables a more or less uninterrupted manufacture of capacitors. A sheet of insulating material, «-Which is pulled from a roll, especially paper, is attached to nozzles, which the required Kunali resin layers (conductive and non-conductive synthetic resin) apply, guided along: - The web is dried on it, and the condenser can be made by rolling up.

Regarding the condition of the hardenable resin to be applied is specified. that it is in a solvent, e.g. B. toluene (C, H; CH3) must be dissolved and can be applied to the insulating material and dried - above the synthetic resin is in a sticky state. \ ah adult: irlnting the resin is perfect hard.

The electrical connections of the capacitor can be made in such a way that that some of the coverings consist of one or more metal leaves and the rest Part is made of synthetic resin, "above that: metal as a connector serves. With a condenser bushing, there is only one connection on the ': Middle of the outermost layer, whereby this outermost layer is partly made of metal foil, is partially made of conductive synthetic resin.

For the insulating material layers arranged between the assignments synthetic resin can also be used.

Exemplary embodiments are shown in FIGS.

In Fig. 2 are; and 8 layers the insulating material while the layer 6 is made of conductive synthetic resin. Layer 5 has the same thickness as that Layer 6 and consists of non-conductive. Synthetic resin. You can see here. that the harmful Room .4 of Fig. I has completely disappeared.

Fig. 3 shows a further embodiment in which a metal Occupancy 1q. is applied. There is a layer 6 along the edge of this covering made of conductive synthetic resin and further a layer of non-conductive synthetic resin.

Claims (1)

Claim: capacitor or capacitor bushing with conductive coverings, fully soft at least the edge parts consist of an electrically conductive synthetic resin, characterized in that between the insulating layers, along and in contact with the edges of the covering of conductive synthetic resin, layers of non-conductive synthetic resin of the same Thickness than the coating of conductive synthetic resin are arranged. In order to distinguish the subject of the application from the state of the art, the following publications were considered in the Erteiluzigsverfahren: German patents ... No. 581 768, 591 737; Swiss -. . . - 124 855, 188 977, 104 828; French patent specification. . - 641 219; British Patents 5583/14 31o 625; U.S. Patent ....... - 1279941.