DE2816490A1 - Cathode ray tube with high-ohm outer coating - giving stable resistance during changes in temp. or humidity - Google Patents

Abstract

Cathode ray tubes have a conical glass portion and screen partially covered on the outside with a low-ohm coating (II), the free areas being covered with a high-ohm coating (II) with transverse resistance at least 100 (pref. 1000) times that of (I) (II) consists of a mixt. of organic binder and finely-divided carbon black. Wide variations in resistance of (II) due to changes in atmospheric conditions, e.g. temp and humidity, are prevented. The coating prevents crackling due to changes in the high voltage applied.

Description

description

Cathode ray tube addition to DBP .. .. ... (file number: P 28 06 033.5 dated 02/14/78) The present invention relates to a cathode ray tube with a glass cone part, the outer surface of which is partially covered with an electrically conductive, low-resistance coating is provided, which together with one on the inner surface of the cone arranged at high voltage electrically conductive coating a capacitor forms, and its outer surfaces not covered with the low-resistance coating are covered with a high-resistance coating, with the low-resistance coating in electrical Connection is and its transverse resistance at least 100 times, in particular at least 1000 times larger than that of the low-resistance coating according to the patent .. ..

(File number: P 28 06 033.5 of 02/14/78).

By applying a high-resistance coating, as described in the patent application P 28 o6 033.5 is proposed, annoying crackling phenomena are reduced, which changes the high voltage applied to the picture tube result.

There are already a large number of resistance coverings in picture tubes known, which consist of a mixture of binding agent and conductive materials. In particular, graphite or iron oxide are known as conductive materials.

As far as these resistance coatings are low-resistance and are on the outer surface of the picture tube, these coverings are mainly due to the chassis potential. she are, as I said, predominantly low resistance, so that resistance changes like them can be caused by atmospheric conditions, not disturbing in appearance step.

However, if you use well-known high-ohmic resistance coatings on the Outer surface of picture tubes, it is found that by different temperatures as well as the resistance value fluctuate very strongly due to changing humidity can.

Such fluctuations in the resistance value are, however, for coverings, As indicated at the outset, unsuitable The present invention is the Object is based on a resistance material for a cathode ray tube of the type mentioned indicate that its properties even with widely differing atmospheric conditions Conditions changes only so little that no disturbances occur.

According to the invention it is proposed that the high-resistance coating be made consists of a mixture of organic binder and finely divided carbon black0 It has it has been shown that the high-ohmic resistance coatings described in terms of their electrical behavior have a very great constancy, especially over a service life of several years for the tube, Based on the in the figure illustrated embodiment, the invention is explained in more detail below.

The figure shows a schematic top view of a color television tube 1 with an implosion protection armor 2 and a neck part 8. The conical part the tube is covered with low-resistance coatings 5. With 3 is the high voltage supply designated. It is surrounded by a free area 4 that provides sufficient insulation guaranteed against the externally applied coverings. This area 4 is preferred still covered with a waterproofing varnish.

To avoid crackling, the free areas are now of the conical part of the tube covered with a high-resistance coating 7, which is in the Figure is shown with small hatching, and the neck side approximately to the limit 6 is enough.

This high-resistance coating preferably has a transverse resistance that about 1000 times to 10 million times greater than the transverse resistance of the electric gut conductive covering 5. The electrically conductive covering 5 expediently consists of a so-called Aquadag surface.

According to the invention, the high-resistance coating 7 now consists of a mixture made of organic binder and finely divided carbon black. A preferred method of manufacture this coating is applied in the form of an aqueous dispersion.

A preferred embodiment provides that the particle size of the organic binder is several times larger than the particle size of the carbon black. as A so-called conductive carbon black is preferably used. The mean particle size of such a soot is, for example, about 23 nm organic binders have a particle size of a few tenths to a few hundredths pm.

Preferred binders are polyvinyl acetates and copolymers and / or acrylic acid esters into consideration.

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Claims (7)

Claims 1,) cathode ray tube with a glass cone part, its outer surface partially with an electrically conductive, low resistance Covering is provided, which is arranged together with one on the inner surface of the cone on electrically conductive coating lying on high voltage forms a capacitor, and its outer surfaces not covered with the low-resistance coating with a high-resistance one Covering are covered, which is in electrical connection with the low-resistance covering and its transverse resistance at least 100 times, in particular at least 1000 1000 times larger than that of the low-resistance coating according to the patent .. .. ... (file number: P 28 o6 033.5 of 02/14/78), characterized in that the high-resistance coating (3) consists of a mixture of organic binder and finely divided carbon black. 2. Cathode ray tube according to claim 1, characterized in that the organic binder has particles whose surface is covered with soot is. 3. Cathode ray tube according to claim t or claim 2, characterized in that that the particle size of the soot is at least 10 times smaller, in particular at least 100 times smaller than that of the binder. 4. Cathode ray tube according to one of claims 1 to 3, characterized in that that the binder is a polyvinyl acetate. 5. Cathode ray tube according to one of claims 1 to 3, characterized in that that the binder is a copolymer. 6. Cathode ray tube according to one of claims 1 to 3, characterized in that that the binder is an acrylic acid ester. 7. Cathode ray tube according to one of claims 1 to 6, characterized in that that the high-resistance coating is applied as a dispersion, in particular an aqueous dispersion is.