DE660945C - Process for the production of electrolytic wound capacitors - Google Patents

Description

Process for the production of electrolytic wound capacitors It is known in electrolytic wound capacitors, especially in dry ones or semi-dry capacitors, between the band-shaped electrodes an absorbent Provide tape as a spacer and as a carrier for the electrolyte, in layers is inserted between the two metal foils. But you have to make it such a wound capacitor has at least three parts, namely the two electrodes and the absorbent spacer. It can be seen that the manufacture of a The more individual parts there are, the more difficult it is to wrap.

These difficulties are caused by the method according to the invention substantially reduced by the fact that according to the invention before the soaking with the electrode at least one of the band-shaped electrodes with the spacer Schraübenförinig is wrapped in a bandaging according to Alt.

The fabrication of such bandaged electrodes is very simple, because these electrodes are manufactured in any length and kept in stock can. It is also achieved that the edges of the wrapped electrode in each Direction isolated Nverden. If the wrapping is not carried out in the manner of a spiral Bandaging, it is easily possible that the fibers of the spacer run parallel to the electrode edges and good insulation of the edges does not guarantee. This possibility is completely avoided by bandaging.

By changing the slope of the spiral wrapping or the Overlapping when winding up the spacer and electrical carrier Isolierstoffbändes can be the insulating layer in its thickness depending on the requirement change.

Singable material is used as a spacer and electrical carrier, z. B. tissue, paper o. Ä. Used.

l # If you use e.g. B. Tissue that is very absorbent by its nature is, so in an advantageous embodiment of the method according to the invention an electrolytic capacitor is made in such a way that one electrode is bandaged and finite the other bare electrode wound together to form a capacitor body will. The winding produced in this way is then impregnated with the required electrolyte.

@ \% is used as a spacer paper, which is the main advantage has a significant space saving and cheaper manufacturing costs, so is Due to the lower absorbency of the paper, it is more practical to proceed as follows: The electrode bandaged with the paper tape becomes in front of the A, ifwicl: a finite the second, non-bandaged electrode finite your electrical part, z. B: in .a hiking bath, soaked.

It has already become known to pass the -. \ Lctall and paper tapes unbandaged through corresponding vessels finite electrolvt, to soak them and then to wind up creineinsäm. However, difficulties arise here; In particular because paper is soaked with electrolyte: it has a low mechanical strength and tearing of the paper tapes occurs. It also shows up high in this well-known: 1 experienced; that a running of the bands against one another takes place 1eiig passing through the impregnation vessel or during winding.

These difficulties are also experienced by the '' according to the invention completely avoided, with the additional advantage that the roller guide is simplified in the bathroom.

Furthermore, only one electrode is bandaged and the other as bare stripes inserted at N \ Tiekel; so only needs the bandaged electrode to be moved through the Elektrölvtbad, which is a particularly simple roller guide enables and offers the advantage. that the bandaged and soaked electrode on a supply roll - can be wound up.

It is now possible to use the electrode that comes with the O-xvdscliieh will, namely the anode, - to bandage or, however, the bare cathode. In the case, in which the finished capacitor body is soaked and the anode, the length of which is for the capacitance of the `round capacitor is decisive, in these certain lengths Stock can be placed. it is advantageous to ban the anode: there at the cathode, which inter alia. a greater length, unnecessary bandaging equipment get lost. The anode is then expediently bathed before the bandage preformed and after impregnating the entire capacitor body. The situation is different, however, in the case in which the bandaged electrode is present the coiling in a hiking bath: is soaked with the electrolyte. here it is often uncomfortable. the bandaged and soaked anode after you leave of the hiking pool immediately to the required length. But Ida the length of the cathode does not matter for the desired capacity, in this hall the cathode bandaged and soaked and with the on the required Length cut anode to your condensatorl: örliei- be united.

Claims (2)

PATENT CLAIMS: i. Process for the production of electrolytic tables Wound capacitors, in which there is a gap between the band-shaped electrodes and electrolyte carrier is an absorbent material, thereby gekenuzeichiet, that before the impregnation finit. your electrolyte at least one of the ribbon-shaped electrodes finitely wrapped around the spacer in a helical manner, acting like a band will. 2. The method according to claim i, characterized in that the bandaged Electrode, preferably the anode, wound up together with the second electrode and then the finished winding body is impregnated with your Elektrolvten. 3. Learn '" according to claim i and 2, characterized in that the bandaged anode in front of the Bandaging is preformed; : I. Method according to claim i, characterized in that that both bandaged electrodes: lead through an electric belt together and wound up, 5. The method according to claim i, characterized in that only the one vandalized electrode; preferably the cathode, through the electrolyte bath passed through and then wound up with the second non-bandaged electrode will. Method according to claims i to 3, characterized. marked that by change the slope or the overlap when bandaging the electrodes is the absorbent Layer is changed in its thickness: 7. '' experience according to claims i to G, thereby marked. that the formation of the electrodes only after the completion of the Il Condenser body takes place.