DE2718526A1 - Liq. crystal display element - has inset reflecting sections in rear surface of fluorescent plate - Google Patents

Abstract

An optical reflecting material is pressed into the fluorescent plate of a liq. crystal display element. The latter has two carrier plates (2, 3) with the liq. crystal elements (12) located in the gap between. The fluorescent plate (6) has boundary surfaces (13) with a generally reflecting characteristics consisting of lacquer (17), reflector (18) and transparent layer (18). A similar structure is formed on the rear surface in triangular section recesses (5). The laminated layers are pressed under heat with the recesses and the back region (16) is filled with a transparent substance.

Description

Optical display device

(Addition to patent .............. (patent application P 27 09 119.6 »Das The main patent describes an optical display device, esp.

a liquid crystal display, with a covering part of the device Reflective coating consisting of an outer protective layer, one on top of the protective layer vapor-deposited, reflective layer (reflective layer) as well as an inner, there is a transparent adhesive layer adjacent to the covered part of the device and on the device part is applied at elevated temperatures and pressures. The reflective layer should be metallic.

Such a mirror covering has long-lasting, good reflective properties, also adheres perfectly to an uneven substrate surface and can also be very special can be produced efficiently.

In the meantime it has been found that you can also work with non-metallic Reflective layers can produce coverings that have similarly good qualities. Accordingly, in generalization of the main patent on which the main patent is based Solution principle - in a display device of the aforementioned Art According to the invention it is provided that the reflective layer generally consists of a reflective Material.

Are materials other than metal also permitted for the reflective layer? so you not only have a larger choice of materials but can also use additional ones Achieve effects. For example, certain frequency-selective reflective layers, for example dielectric multilayers ("dielectric Mirror "), produce colored displays. One could also change the display color vary locally, e.g. one digit for each digit in the case of multi-digit number displays assign a specific color or, in the case of a clock display, the hours, minutes and Different colors visually distinguish seconds displays from each other. Naturally There are also colored reflective metals available, for example gold or Chrome, but you are stuck to a certain color here.

Tests have also shown that the reflection coating is not Can only be applied to exposed, relatively large surfaces but also with good results for mirroring less accessible parts such as Depressions, especially notches, can be used.

Even coverings with a dielectric multilayer, which in itself is relatively sensitive, can be practically non-destructive. and with good adhesive contact imprint. This application option is particularly valuable, as otherwise recesses can only be mirrored with considerable effort.

Reflective depressions are usually used for the targeted coupling of radiation and have special meaning in a so-called "fluorescent body", which consists of a Material with a Refractive index greater than 1, fluorescent Contains particles and is partially mirrored. This body collects a large part of the ambient light hitting it through fluorescence scattering and subsequent (motal) reflections and lets the captured light in certain places with increased Exit intensity again. Such a light trap, for example in a Article with the title "zell and is described sparingly, can be used to increase the flexibility of light valves or even be used as a high-contrast display.

Other advantageous refinements and developments of the invention are the subject of further claims.

The invention is now based on a particularly preferred embodiment explained in more detail with reference to the drawing. In the figures of the drawing Corresponding parts are provided with the same reference numerals. Show it: Fig. 1 shows the embodiment in a somewhat schematic side section and 2 shows a detail of the fluorescent plate of the exemplary embodiment.

Fig. 1 shows a liquid crystal numeric display. In the representation are the display parts that are not absolutely necessary for an understanding of the invention, for example the electrical leads, omitted.

The display specifically includes a front linear polarizer 1, a front support plate 2, a rear support plate 3, a rear, for front parallel linear polarizer 4, a plate-shaped one with notches 5 provided fluorescent body (fluorescent plate 6) and an absorption film 7. All parts are in the order in which they are listed in the viewing direction arranged.

The two carrier plates are supported by a spacing frame 8 in kept a defined distance from each other and wear on their facing Inner surfaces each have electrically conductive coatings (continuous back electrode 9, segmented front electrode 11). The one limited by the frame and the two support plates Chamber is filled with a liquid crystal substance 12.

The actual liquid crystal cell works on the principle of so-called "oreh cell". For further manufacturing and operating details, refer to the DT-OS 21 58 563 referenced The fluorescent plate 6 carries on its four side surfaces in each case a reflective coating 13, consisting of a lacquer layer 17, a reflective layer 18 and an adhesive layer 19.

Also the one on the back of the plate with the segment electrodes 11 aligned notches 5 are each provided with a reflective coating 14, which consists of a lacquer layer 21, a reflective layer 22 and an adhesive layer 23 composed (verb Fig. 2). Both coverings, each made of hot stamping foils according to based on the main patent differ in the nature of the reflective layer: In the case of the side surface covering, this layer consists of a metal, in the case of the notch covering it is a frequency-selective reflecting dielectric multiple layer.

The remaining notch cavities are each shaped with complementary shapes Fillers 16 filled. In the present case, these fillers consist of one transparent carrier material to which fluorescent particles are also added and its refractive index is greater than 1 but smaller than the refractive index the fluorescent plate is. This changes the inside of the plate to the dielectric Most of the light that strikes the mirror and lets it through the The inside of the plate is traced back and thus stand for another Use available. Incidentally, the light output can also be achieved with filling bodies increase whose refractive index is greater than or equal to that of the fluorescent plate.

The reflective coatings 14 and full body 16 were as follows in the fluorescent plate introduced: First, a suitably designed hot stamping foil was applied embossed at elevated temperatures using a special stamp; then were the notch cavities are closed with the preformed coaming. The sequence of Work steps could also be reversed. You could first put the pads on the Pull up the packing and then insert the packing into the notches. It would be conceivable it is also not a preformed body to use but the tanning with a suitable one Pour the filling compound.

The invention is of course not limited to the specific Ausiinrungsbeispiel limited. So it does not matter whether the reflection coating provided according to the invention covers one or more parts of the device or whether it is on flat, roughened surfaces and / or surface depressions is applied. Likewise, it does not matter for a long time whether the covered part for light distribution, color design or light extraction serves. Finally, it does not matter in the context of the present invention whether the body provided with the reflective coating is part of a larger unit is and does not display itself or whether it already has a full display itself represents or whether hybrid forms are present.

2 Figures 13 claims

Claims (13)

P a t e n t a n s p r ü c h e 1. Optical display device, especially liquid crystal display, with a part of the device covering reflective coating, which consists of an external Protective layer, a reflective layer vapor-deposited onto the protective layer (Reflection layer) as well as from an inner one adjoining the covered part of the device transparent adhesive layer and on the device part under elevated temperatures and pressing is applied, according to patent ............. (patent application P 27 09 119.6), that the reflective layer (18,22) consists of a reflective material. 2. Display device according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that the reflective layer (18,22) reflects frequency-selectively. 3. Display device according to claim 2, d a dur c h g e k e n n -z e i c It should be noted that the reflective layer (18, 22) is frequency-selective differently in areas reflected. 4. Display device according to claim 2 or 3, d a dur c h g e -k e n n z e i c h n e t that the reflective layer is made of a dielectric, in particular a dielectric multilayer ("dielectric mirror" 22). 5. Display device according to one of claims 1 to 3, d a d u r c h g It is noted that the reflective layer (18, 22) is made in certain areas different metals. 6. Display device according to claim 5, d a d u r c h g e k e n n -z e i c h n e t that the metals are selected from the group aluminum, silver, gold or chromium are. 7. Display device according to one of claims 1 to 6, d a d u r c h g It is not noted that the reflective coating (14) is in at least one depression (5), especially notch, is introduced. 8. Display device according to claim 7, d a d u r c h g e k e n n -z e i c h n e t that the recess (5) provided with the reflective coating (14) has a Body (packing 16) is filled. 9. Display device according to claim 8, d a d u r c h g e k e n n -z e i c h n e t that the Püllkörper (16) in the event that the reflection coating (14) is frequency-selective is reflected and transmitted, translucent. 10. Display device according to claim 9, d a d u r c h g e k e n n -ze i c h n e t that the refractive index of the filling body (16) is smaller than the refractive index of the body containing the depressions (5). 11. Display device according to one of claims 1 to 10, d a -d u r c h it is not noted that the part of the device covered by the reflective coating (13, 14) belongs to a body (fluorescent body 6) made of a material having a refractive index greater than 1 and contains fluorescent particles. 12. Display device according to claim 11, d a d u r c h g e k e n n -z e i c h n e t that the preferably plate-shaped fluorescent body (6) on its side facing away from the viewing direction (back) notches (5) contains and that the reflective coating (13, 14) has at least the notches (5) covered. 13. Display device according to claim II or 12, d a d u r c h g e -k e n n z e i c h n e t that in the event that the reflective coating (14) in at least one Recess (5) is introduced, reflected and transmitted in a frequency-selective manner and furthermore, the recess (5) is filled with a filler body (16), the filler body (16) also consists of a material with a refractive index greater than 1 and contains fluorescent particles.