DE976481C - Electrolytic wound capacitor - Google Patents

Description

Electrolytic wound capacitor The invention relates to an electrolytic capacitor Winding capacitor with strip-shaped assignments and strip-shaped, exposed, Separating layers which have impregnable edges and are continuously impregnated with the electrolyte between these assignments.

It is already known, by winding up serving as occupancies, z. B. made of aluminum metal foils and of z. B. made of paper Intermediate layers and, by impregnating the intermediate layers with an electrolyte, an electrolyte wound capacitor to manufacture. The number of separating layers corresponds to the known capacitors each of the number of assignments, so that, for. B. when using two assignments two separating layers can also be used, with two assignments between each a separating layer is arranged. The size of the separating layers and the occupancies can be dimensioned in such a way that the separating layers protrude beyond the coverings and from there it can be soaked with the electrolyte.

To facilitate the impregnation of the separating layers with the electrolyte and to improve the properties of such an electrolytic capacitor are according to the invention between two consecutive assignments at least two separating layers soaked with the electrolyte are present. When not wound Electrolytic capacitors are known between two assignments apply two separating layers each absorbing the electrolyte. As separating layers glass fabrics are used here.

In another non-wound version, between the two electrodes apart from two layers of steel wool soaked in electrolyte two separating layers made of absorbent material such as paper or fabric intended.

The inventive use of several separating layers between each two consecutive assignments instead of a single one has the following advantages: You can make the layers from particularly thin paper, so that the thickness the intermediate layer is not larger than with Application of a single. However, the harmful effects of Defects or inhomogeneities, e.g. B. a hole, avoided in one of the separating layers, because when two or more separating layers are placed on top of each other, the highest There is a likelihood that two such holes in the release liners are straight do not lie on top of each other. This increases the homogeneity of the multiple separating layers existing intermediate layer is significantly enlarged and achieves that distribution of the electrolyte on the surface parts of the capacitor assignments in the finished with the electrolyte-soaked capacitor is very uniform. By such a uniform electrolyte distribution are the properties of an electrolytic capacitor, especially the dielectric strength and the dissipation factor are significantly improved.

In addition, the electrolyte can do much better in a double layer enter as a simple one. The electrolyte can namely between the two pass through thin layers and thus penetrate into them from the inside and outside. In addition, a thin paper is much more easily soaked through completely than a thicker one. Finally, you have the option of using wound capacitors without electrolytes, in a manner known per se, even different types of paper from one another in an intermediate layer arranged between two successive assignments to unite. For example, a very porous and absorbent paper with a very dense, firm and therefore less absorbent paper.

The use of several separating layers between each two successive ones Allocation is of particular importance for electrolytic capacitors, their electrolyte from a mixture of glycerine treated at a temperature of about 10 to 10 ° C and borax and is therefore relatively viscous.

Claims (3)

PATENT CLAIMS: i: Electrolytic wound capacitor with strip-shaped Assignments and strip-shaped, exposed, impregnable edges having, Separating layers between these coatings soaked through with the electrolyte, characterized in that between two consecutive assignments at least two separating layers soaked with the electrolyte are present. 2. Electrolytic Capacitor according to Claim i, characterized in that the between two successive Allocations provided separating layers have different absorbency. 3. Electrolytic capacitor according to claim i or 2, characterized by using a mixture of glycerol and borax treated at a temperature of about 10 to 10 ° C as the electrolyte. Considered publications: German Patent Nos. 262 775, 479 740, 49s 794; Swiss Patent No. 59: 261; French patents i \? r. 401 355, 511 240, 638 685, 662 459, 668 319, 675 28 0 , 681 153; British Patent Nos. 116 780, 314 16o, 330 1.49 U.S. Patent Nos. 1,074: 231, 1,393,077, 1,543,225, 1,658,976, 1,709,427, 1,710,073, 1714191.