DE901444C - Electrical wound capacitor - Google Patents

Description

Electrical wound capacitor For small capacities, such as B. are used for interference suppression purposes, the windings are often #so; small urud üünn that the contact causes difficulties. In order to enable reliable control of such capacitors as well, it is therefore proposed to insert electrically conductive caps into the especially cylindrical cavity created by removing the winding mandrel inside the winding and / or to put conductive rings on the winding # d, d #, ", e # se to be connected to the assignments, in particular by spray contact.

FIGS. 1 to 3 show particularly advantageous ..- exemplary embodiments of such capacitors and are used for explanation purposes.

Fig. I shows the capacitor winding i, the z. B. from a dielectric made of paper or plastic with interposed covering foils or made of metallized paper or plastic dlitn can consist of, nn. The Beloguntgen are preferably in such a way, -eoildn # et that the counter-assignments on different front sides of the capacitor winding are accessible to a front contact. A metallic cap 3 is pushed into the, in particular cylindrical, drical cavity 2 iot created by the removal of the winding mandrel. The outer diameter of this cap corresponds approximately to the inner diameter of the cavity 2. The cap and coverings are jointed by means of the Meta11-layer.4, which is preferably produced by metal-1 injection molding. A power supply conductor 5 can be connected to the metal layer 4 in a suitable manner. The current-to-lead conductor 5 can, however, also be connected to the metal cap, Pe 3 before the contact is made. The cap 3 does not need to be made of pure metal, but can also be, for. B. be an insulating felt flap metallized on its surface. By introducing the cap 3 , metal spraying on the inner surface of the coil is satisfactory during the spraying process. Furthermore, larger contacting surfaces arise for the spray contact. If a capacitor is contacted by means of the caps 3 on both front sides, perfect contacting of the belecrons is obtained even with the smallest winding dimensions. Furthermore, the mechanical strength of the roll is increased by inserting the caps. In contrast to the Ver-turn caps 3 on both end faces of the winding is shown in FIG. 6 contacted the i Geggenbetlegung mittelis a aufgefiracliten on the winding metallic ring. The ring 6 can, for. B. as a Spren-rin-- be formed and made of metal or a metallized insulating material. The configuration of the capacitor with which contact is to be made on this end face is contacted with the contact ring -6 by means of the metal layer 7 , which is preferably applied by metal spraying. A power supply conductor 8 can be attached to the contact ring 6 in a suitable '2' manner.

When using - # fuses, as they are z. B. for system protection capacitors are necessary: the mandrels can be selected so that the fuse in - the winding can be inserted.

! Fig. 2 shows such a capacitor with an inserted fuse. A metal cap 3 is in turn inserted into the condenser door coil i and is connected to a covering of the condenser coil by means of the metal layer 4. The other coating is contacted with the contact ring 6 by means of the metal layer 7 . The fuse 9 oo is inserted into the capacitor prepared in this way so that one contact cap of the fuse has good electrical contact with the metal cap 3. It is advantageous to select the outer diameter of the cap, ro, to be approximately equal to the inner diameter of the cap 3 . #I) The other contact cap ii of the fuse protrudes from the capacitor winding. Legs such capacitors fuse can then z. B. be avoided, Klaß Konidenstator and #sicherung are connected in series.

Fill-. 3 again shows a capacitor winding i, one of which has an assignment. Front side connected to the Xontaktrinig 6 by the metal layer 7 . is. The safety device is inserted into the conidensator winding in such a way that. #Your contact cap io ends with the other end of the capacitor shaft or protrudes from it. By means of the metal layer 4, the counterbearing of the capacitor winding is connected to the contact cap of the fuse. The inner diameter of the k.on # clensato-nvickelis: i should preferably be selected in an embodiment according to FIG. 3 so that it corresponds approximately to the outer diameter of the contact caps in the fuse.

The embodiments shown in FIGS. 1 'to 3 merely represent exemplary embodiments which can be combined or modified with one another in the most varied of ways.

Claims (3)

PATENT CLAIMS: i. Electrical Wickelko # ends sator, inshesondere small capacity, characterized in .that in the # kel by removing the As dc> rnes, particularly zylin, dritschen HohIr.aum electrically conductive Ka arising in the winding inside -.! Inserted ppen and / or aud the winding Conductive rings, pushed on and these are connected to the movements, in particular by spray contact (Fig. i). 2. Electrical capacitor according to, An, claim i,, thereby. gdkennzeiclinet that an electrical fuse is inserted into the winding cavity, which has electrical contact with at least one assignment of the capacitor. 3. Electrical Kündensator according to claim 2, characterized in that the inner diameter s # s-er, of the coil corresponds approximately to the outer diameter of the connection caps ider fuses shaved into the coil and at least one occupancy of the capacitor with .einer connection cap, the fuse in particular .by The spray contact is electrically connected (Fig. 3).