DE1275347B - Transparent, plate-shaped object with an anti-reflective coating - Google Patents

Description

Transparent, plate-shaped object with an anti-reflective coating The invention relates to a transparent, plate-shaped object made of glass, acrylic glass or the like with an anti-reflective coating, which is smaller in the way, densely juxtaposed and continuously merging peaks and troughs is designed for use in a display panel, in which the glass plate between The object of observation and the viewer is arranged.

Such glass surfaces as they are, for. B. in display boards for display of highways and airways, production lines in industry or as they are for the Cover plates for radar screens or for information boards in air traffic control centers used show a very strong reflection of that of other display boards coming light or the light sources and objects present in the room.

To eliminate these annoying reflections and reflections, it is z. B. from the German Auslegeschrift 1086405 known to design the glass surface in an irregular, on the crystalline structure of the glass dependent distribution on all sides wavy in the form of interconnected micro-arches and recesses. A surface designed in this way is produced by etching with hydrofluoric acid, in such a way that the glass surface to be treated is partially covered by extremely fine particles which lie tightly on the surface and are insoluble in hydrofluoric acid. This chemical deformation of the glass surface also results in a certain matting in the areas etched by the hydrofluoric acid.

Also those known from German patents 736 411 and 944 264 Measures to reduce the reflection of transparent objects, such as B. optical Glasses, with either a layer of water-poor, gel-like oxide hydrate on the surface or a high polymer solution layer is applied lead to matting the glass surface and thus a reduction in transparency.

The same applies to the German Auslegeschrift 1100 282, from which it is known to use synthetic resins for tinting safety glass against light glare to use with inlaid pigment dispersions, which is also a reduction which results in light transmission. The main object of the invention is to provide a solution with which it is possible to reduce the reflections and reflections of the light coming from outside can be eliminated easily and cheaply without affecting the transparency suffer from. According to the invention, which relates to a see-through object of the type mentioned above, this is achieved in that the anti-reflective coating consists of a thin, closed layer of transparent varnish, which by means of a spraying process applied to the transparent object or in the form a thin transparent film is glued on. Such an anti-reflective coating can be applied very easily and, above all, cheap to the glass surface and also causes the anti-reflective coating to be completely transparent and on the glass surface no deformations occur, no reduction in light transmission.

It is useful if the refractive index of the material for the anti-reflective coating is roughly equal to the refractive index of the one used as the display surface Material is.

The invention is explained in more detail in an exemplary embodiment.

The F i g. 1 shows an operating table 1 with one arranged above it and the display panel fixedly connected to the operating table 1. This scoreboard consists of a housing 2, in which the preferably from the rear or from the Side illuminated information, such as maps or graphs, are located, and one Display surface made of glass or acrylic glass 3.

On this display surface 3, which is designed as a plane-parallel plate is on both sides, but at least on the side facing the viewer Anti-reflective coating applied in the form of a thin, transparent layer of lacquer. These Lacquer layer is applied in at least two spray processes in such a way that the first spraying process discretely distributed Surveys arise and that after a certain drying time in a second spraying process a closed Layer is applied.

In FIG. 2 is a schematic and greatly enlarged view of a display area shown in section with anti-reflective coating. On one side of the display area 3 the information is arranged in the form of a card 4, on the other side of the anti-reflective coating applied according to the method described above. Hence arise in a first spraying process discretely distributed bumps 5, which are in the order of magnitude from about 10 to 50 #t and those in FIG. 2 are shown in dashed lines. After a certain drying time, a second spraying process, preferably is injected in a direction that is crossed to the first injection process, a closed one Layer 6 applied. This orange peel-like surface structure results an anti-reflective coating, through which the reflections and reflections of the z. B. from the signal lamps 7 (FIG. 1) arranged on the operating table 1 Light are almost eliminated, but at the same time the transparency the display surface 3 is not impaired even in dark rooms.

Another advantage of this anti-reflective coating is its insensitivity against dirt and an extensive scratch and scratch resistance. aside from that is this covering for the inclusion of additional and changeable information z. B. can be easily written on with grease pencils or glued on with foils. The distance these markings as well as the cleaning of the entire plate is possible without residue. The application of the lacquer layer, in particular a silver nitrocellulose lacquer layer, is particularly useful for acrylic glass, very beneficial because it also eliminates the annoying light reflections gives the acrylic glass a harder and therefore less sensitive surface.

Claims (4)

Claims: 1. Transparent, plate-shaped object from Glass, acrylic glass or the like. With an anti-reflective coating that is smaller, dense in the way adjacent and continuously merging peaks and troughs formed is for use in a display panel in which the glass plate is between the viewing object and viewer is arranged that the The anti-reflective coating consists of a thin, closed layer of transparent varnish, which is applied to the transparent object by means of a spraying process or is glued on in the form of a thin transparent film. 2. Subject after Claim 1, characterized in that the refractive index of the material for the Anti-reflective coating roughly equal to the refractive index of the one used for the item Material is selected. 3. Object according to claim 1 or 2, characterized in that that when using acrylic glass, the anti-reflective coating is a thin layer of silver nitrocellulose lacquer is trained. 4. A method for applying the anti-reflective coating formed as a lacquer layer according to one of the preceding claims, characterized in that the lacquer layer is applied in at least two spraying processes in such a way that discretely distributed elevations arise in the first spraying process, and that after a certain drying time in a second spraying process closed layer is applied. Considered publications: German Patent Specifications No. 736 411, 944 264; German explanatory documents No. 1086 405, 1 100 282.