DE1106600B - Process for the production of luminous screens - Google Patents

Description

Process for the manufacture of luminous screens The invention relates to a process for the production of carriers and possibly (fluorescent-free) Interlayers for luminescent screens and for their connection with the luminescent layer to the finished screen. This procedure represents a further development of the procedure according to patent 1032 088, which the production of the phosphor layer itself for Subject has. beyond single application allows these work processes to be combined such a simplification that a production on casting machines in continuous Process is possible. Fluorescent screens of this type, which are based on the imaging Properties that matter first and foremost, find application in X-ray diagnostics in addition to the well-known application increasing interest in various newer development areas, e.g. B. in connection with electroluminescence in image converters, image intensifiers and the like.

According to the current state of the art, such screens are in the generally manufactured by means of casting processes, as far as it is based on the finished product whose imaging properties are important and not just the light output. at the X-ray screens is used to achieve the mechanical required for use Strength, the phosphor layer provided with a carrier, optionally between both have a reflective layer or, for special purposes, an absorption layer appropriate. Additional work steps are necessary for this, which are continuous Production on automatic machines has not yet been permitted. The demand of an intimate, flawless connection between the phosphor layer and the carrier (cardboard or plastic) made the individual production of relatively small formats the rule and caused high manufacturing costs due to the inconvenience and a great deal of waste.

Ways have already become known which allow a more intimate connection of the layers to be achieved (e.g. according to the method of German patent specification 1039 837), but it was not possible to produce screens as "yard goods" with them.

According to the invention, a method is now proposed which allows the substrate and optionally also the aforementioned intermediate layers to be poured on without impairing the effectiveness of the underlying layers. It follows the process described in German Patent 1032 088 for the production of phosphor layers and is based on the rapid solidification of aqueous, non-gellable plastic solutions or plastic dispersions under the influence of small additions of gelling substances, such as. B. alginates, proteins or pectins, without a chemical change in the former. It can be carried out, for example, as follows: the phosphor layer is produced on the usual casting base according to the method of German patent specification 1032 088 or in a conventional manner. After it has solidified, it is backed with a suspension of a highly reflective pigment (e.g. titanium white) in a solution of polyvinyl alcohol or in a plastic dispersion with the addition of, for example, 2% gelatin. After gelling and drying, the resulting plastic layer is optionally reinforced to the desired mechanical strength by one or more back casts with the liquids mentioned without the addition of pigments. By adding suitable plasticizers, screens of increased flexibility are obtained.

The single casting described above is advantageous in and of itself by improving the mechanical properties of the screens obtained and through cost savings compared to the use of ready-made plastic carriers, The particular advantages of the process are the possibility of this process to run automatically. One can do this by film production or film coating using well-known casting machines and by performing the casts in several Stations receive the screen ready as a coherent band in one pass, from which the desired formats are to be cut.

In addition, by selecting suitable pigments, the same Brightness achieve a considerable saving in fluorescent material, since by increasing it the reflection on the back of the phosphor layer at the same time If there is no intermediate layer between the fluorescent material and the reflector, better utilization is possible the luminescence radiation is possible without deterioration of the image sharpness. Particularly Pigments made from elements with a low atomic number are favorable here (low X-ray absorption!), such as oxides or carbonates of groups II to IV of the Periodic Table, preferably made of magnesium oxide

Because the uniformity of machine production is not just lower Due to manufacturing costs, but also the production of particularly thin phosphor layers permitted, the use of the screens as a sharply defined combination of foils is permitted for single use in daylight packs of X-ray films possible.

This is also the case for the manufacture of electroluminescent screens described method of importance, especially for the application of the required conductive coverings, preferably the translucent, electrically conductive layer at the front of the screen. Especially when flexibility is required of the screen no conductive glass plate can be used here. This layer can thereby be made conductive that substances are added in a known manner, which the Increase conductivity, e.g. B. high polymer salts of polycarboxylic acids (after the German Patent specification 644110), or by adding suitable hygroscopic substances like glycerine or sorbitol, a certain amount of moisture is retained in the layer is, which optionally in connection with simultaneously present electrolytes produces sufficient conductivity.

Claims (4)

PATENT CLAIMS: 1. A method for producing fluorescent screens according to patent 1032 088, characterized in that a carrier is applied to the fluorescent layer in such a way that a non-gelling aqueous plastic solution or a plastic dispersion, which additions of gelling substances such as alginates, protein bodies or pectins contains individually or in combination, is poured on, fixed by gelation and solidified by evaporation of the water. 2. Procedure according to claim 1, characterized in that in the same way a reflective layer by means of suitable pigments, preferably low atomic number either in the carrier itself or in the form of an intermediate layer. 3. The method according to claim 1, characterized in that capable of producing electroluminescence conductive layers are produced in this way. 4. The method according to claim 1 and 2, characterized in that the finished fluorescent film web in individual packs is divided by x-ray films. Older Patents Considered: German U.S. Patent No. 1032,088.