DE866357C - Process for the production of insulating paper, especially for self-healing electrical capacitors - Google Patents

Description

Process for the production of insulating paper, especially for self-healing electrical capacitors in the manufacture of so-called self-healing Capacitors, d. H. of capacitors, their extremely thin metal coatings are applied to the dielectric as non-independent metal layers, is it is known to first apply the pores and depressions of the surface to the dielectric sealing lacquer layer and only on top of this the extremely thin metal layer to raise. Instead of lacquer, it has also already been proposed to use methyl cellulose to use that in the same way as varnish on the surface of the capacitor paper should be painted on and then the. Apply capacitor coating was.

According to the invention, a general, i. H. even without subsequent Metallization produces usable electrical insulating paper in that at least a surface of the paper with an aqueous solution of an amorphous coating forming insulating material. coated and then the water is evaporated. It has been shown that by applying such substances to paper not just the number of copies, i.e. the number of copies per running Meters, but also the dielectric strength of the paper, i.e. the Load capacity in volts / cm, is greatly improved.

The reduction of the penetration rate when used at least on one side Coated papers are initially based on covering what is present in the paper senior positions. If you put any paper under tension by, for example between pulls two rollers through, between which there is a certain tension, so results There is a number of copies per running that is characteristic of the type of paper Meter. This is due to the conductive or semiconducting elements enclosed in the paper Foreign bodies, then also from microscopic openings in the paper that lead to a breakdown even at extremely low field strengths. By coating with a coating layer will first of all become a very large number these places which lead to breakdowns are rendered harmless, so that such a thing Paper has a significantly lower number of copies per running meter.

The reduction in the penetration rate when using in water However, dissolved substances are not only based on that which can also be achieved with any other paint Covering the surface, but also on a very peculiar effect of the, water used as a solvent.

Apparently, this water causes paper components to be removed from the were rapidly hardened during manufacture and encapsulated water particles between them had, loosened again from the outside, so that also during the subsequent drying removes these previously trapped water particles and those previously formed by them management positions are eliminated. Because of this, the improvement is in that The penetration rate achieved by such substances is also greater than that achieved by other paints obtained in which water is not used as a solvent. The improvement achieved by this effect is on paper that has already been calendered bigger because the water inclusions are encapsulated, especially during satin finishing. But even with machine-smooth paper, it is already quite considerable Values on.

However, the reduction does not play a role in the present invention the dielectric number, but essentially the increase in dielectric strength the main role. What this effect is based on has not yet been fully clarified. she is apparently due to the compaction of the surface of the paper through the pores and recesses in the surface of the penetrating coating material.

Proven to be particularly suitable for the production of insulating paper Also here methyl cellulose, as it has an excellent loss factor (only 2 X 1o - 3) having. Therefore, the dielectric losses when using with methyl cellulose treated paper is no larger than when using untreated paper, because the loss factor of the methyl cellulose corresponds approximately to the loss factor in this one The most favorable paper components.

As a result of the higher resilience of such a paper, it is whole generally usable as an excellent insulating material in insulation technology. His Production is extremely cheap because hardly anything is required. -more Operation: In the usual paper production, the machine-smooth paper anyway moistened with water before calendering. This water is merely to replace with a solution of the coating material in water, through which that too calendering paper is pulled through. If the cover fabric is only one-sided applied, it is advisable to pull the paper through water beforehand to prevent internal mechanical tension in the paper. So in this case is also Before the calendering, a device for one-sided is necessary anyway Application of the coating material is required.

The covering material can just as well be applied to the Paper can be applied. In this way you can make a paper that is based on rough on one side but smooth on the other. This is achieved in that one by z. B. a methyl cellulose solution paper with only one side runs over the heated drying rollers. This will reduce the pressure on the drying rollers adjacent side smooth, while the other side remains rough. The smoothness of the paper can be further increased by laying on the smooth side after drying the first layer of methyl cellulose is a second, very thin layer of methyl cellulose applies; which is then dried immediately.

Such a paper is particularly suitable for the production of self-healing Capacitors, as on the one hand the base formed by the methyl cellulose for the vapor-deposited metal coating is extremely smooth, and on the other hand the dielectric strength of the paper is improved and finite as a result of the treatment with methyl cellulose the gas and moisture residues still contained in the paper after the methyl cellulose has dried on the rough side of the paper through the usual drying in the capacitor clinic @ and let the soaking process take off.

Claims (7)

PATENT CLAIMS: e.g. Process for the production of electrical insulating paper, characterized in that at least one of the paper surfaces with an aqueous Solution of an insulating material forming an amorphous coating and coated then the water is evaporated. 2. The method according to claim s, characterized in that because B the paper is coated with methyl cellulose. 3. The method according to claim 2, characterized in that the: paper by a bath of methyl cellulose dissolved in water is pulled. ¢. Method according to claim 2, characterized in that the methyl cellulose applied to one side of the paper prior to calendering the paper, preferably poured on and the paper is calendered on it. 5. The method according to claim q., characterized in that the paper before the one-sided Overlay moistened with methyl cellulose. 6. The method according to claim a or 3, characterized characterized in that machine-smooth for the production of a paper that is smooth on only one side Paper drawn through methyl cellulose and then drawn on one side over heated drying rollers will. 7. The method according to claim 6, in particular for the production of by vapor deposition paper to be metallized in a vacuum, characterized in that on the Drying rollers pulled side another very thin layer of methyl cellulose applied and then dried immediately. B. insulating paper produced according to the method according to any one of claims z to 7. g. Electric capacitor with dielectric layers of insulating paper according to claim B.