DE699570C - Pistons for cathode ray tubes with blackened inner wall - Google Patents

Description

Cathode ray tube flask with blackened inner wall at Braunschen Tubes, especially with high vacuum tubes, it is necessary to rush part of the wall to be covered with an electrically conductive covering. For this purpose, vapor-deposited nickel layers are used and chemically applied silver coatings are used. A disadvantage of these wall coverings consists in their relatively good reflectivity, since the reflection ' of the fluorescent light on the tube wall creates a diffuse general lighting on the Screen is caused to dull or especially with television reception tubes veiled images leads. In order to remedy this problem, it is known to use such To coat metal layers additionally with a black layer and for this To use colloidal graphite. It is also known that when using of colloidal graphite with a graphite layer alone, thus omitting the metallic Document, already comes to sufficiently good guide values.

The processing of colloidal graphite now has extraordinary disadvantages. Above all, the graphite layers have a residual reflectivity that is still -Always produces a certain amount of lighting on the screen and is sufficient for the wall coverings with regard to the absorption capacity, there are no requirements.

In addition, in order to keep the colloid stable, the solution must be organic Add protective colloids that make vacuum processing more difficult, because the protective colloids must be carried out in a specially guided preparatory process Destroy heating. This destruction never succeeds completely, so that the layer too remains mixed with organic admixtures in the finished state.

A third disadvantage of coll.oid graphite is that despite The graphite layers only after the high content of organic protective colloids high heating on the glass wall, so that glassblowing work on such Piston cannot run. One helped oneself by adding water glass and the material an already existing one before pickling passable Adhesiveness bestowed, but this leads to considerable difficulties. Colloidal graphites namely tend to flocculate with the addition of water glass, and also the degassing process made more difficult by the addition of water glass.

It is therefore desirable to have a material that is inherently sufficient Has adhesiveness and can be processed without protective colloids.

The previously existing difficulties in the production of black and leading wall coverings arose - mainly because the demand was made the good conductivity of the layer has exaggeratedly focused, so that with respect to difficulties arose with the other properties of the layer.

Extensive experiments in the operation of cathode ray tubes and television tubes have shown that it is by no means necessary for the resistance of the layer to be so small to do as it has hitherto seemed necessary. Rather, layers are sufficient, that have a resistance of a few io ooo ohms, because the conductivity only needs to be so good that the electrons flowing back from the fluorescent screen are in the layer do not cause a noticeable drop in voltage. Assume a beam current of i mA maximally ahead and one assumes that the layer has a resistance of 20,000 ohms has a voltage drop of 2o V, a value that compares to the usual anode voltages in Braun tubes is of no importance.

In the bulb of a cathode ray tube with a blackened inner wall for oscillographs and television purposes, the piston wall is now according to the invention - With a black coating of a layer of the known glass ink provided with dye adhering to glass walls, which is expediently an addition of Contains vegetable, animal or mineral charcoal. It has shown, that normal, commercially available black glass ink produces quite satisfactory results leads and that the difficulties described do not apply. This glass ink is made generally made of carbon or black aniline dyes, which are hydrofluoric in solutions Salts are dissolved. Such layers of glass ink are extraordinarily high Absorbencies and are as black as those used in the photographic art usual black wall coverings without the aggravating vacuum technology Requirements made. have been. The degassing process can be much shorter Drive time and up to much better degassing than that with graphite layers is possible, and the adhesion is guaranteed without further aids the hydrofluoric acid salts, in which the glass ink is dissolved. The presence of protective colloids is unnecessary with glass ink, since with glass ink mostly water-soluble aniline dye is used, so that all colloid-chemical difficulties are eliminated. The aniline paint even disintegrates more easily when it is baked out, as experiments have shown Carbon than the organic colloids do, so that this makes them lighter Degassing explained.

The drawing shows a television receiving tube as an exemplary embodiment. The glass ink layer is applied to the desired locations and receives each one or more feeds as required.

Claims (1)

PATENT CLAIMS i. Bulbs for cathode ray tubes with blackened Inner wall, for oscilloscope and television purposes, characterized in that the black coating on the piston wall from a layer of the known per se There is glass ink with dye adhering to the glass walls, which is useful as an additive of vegetable, animal or mineral charcoal. a. Procedure for Production of a glass ink layer according to claim i, characterized in that heating the layer of glass ink after its application. 3. Procedure according to Claim z, characterized in that the heating is in a carbonic acid atmosphere or is carried out in a vacuum.