DE2709731A1 - SEMI-TRANSPARENT REFLECTOR FOR LIQUID CRYSTAL INDICATORS AND PROCESS FOR THEIR MANUFACTURING - Google Patents

Description

10/77

Me / Ca

BBC Aktiengesellschaft Brown, Boveri & Cie., Baden (Switzerland)

Partly transparent reflector for liquid crystal displays and process for its manufacture .

The invention relates to a partially transparent reflector for liquid crystal displays with a translucent one Foil between the cell with the liquid crystal and a lighting element.

According to the technology used up to now, a translucent Foil used, which has a depolarizing effect; when used in daylight, the display is often too dark. The lighting element is either a thin sheet of plexiglass with a micro lamp or a beta light ampoule.

The invention is based on the object of finding a reflector which has the following properties:

1. a good scattering characteristic for incident light for use of the display during the day,

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2. a permeability of about 10 - 30 % for using the display at night with integrated rear lighting,

3. It must not depolarize incident light.

This object is achieved in that the aforementioned translucent foil is designed as a thin aluminum foil, the surface of which has a scattering effect and which contains a number of holes or pores which are designed so that the permeability is optionally 10-30 % ,

It should also be noted that from the German Offenlegungsschrift 2 264 702 a partially transparent reflector inside a liquid crystal cell is known, the is designed either as a semitransparent mirror or as a vapor-deposited metal layer, which is through a Etching process is provided with holes.

The invention will now be explained in more detail with reference to FIGS. Fig. 1 shows the usual arrangement with the translucent film 3 which generally depolarizes incident light ; the film 3 is located between the cell with the liquid crystal 1 and the lighting element 2.

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BBC Baden

In Fig. 2, the translucent film 3 is according to the invention educated. 3 is a thin sheet of aluminum whose

one
The surface has a scattering effect and contains the number of holes or pores (4) which are designed in such a way that the permeability is optionally 10 - 30 % . This aluminum foil can be glued directly to the lower polarizer.

In order to improve the effectiveness of the lighting, the lighting element can also have one on its underside reflective layer 5, e.g. Aluminum.

3 shows a method for the production of the semitransparent reflector proposed according to the invention. A piece of thin aluminum foil about 15 to 20 µm thick is used, which is etched for 2-3 minutes, for example in a mixture of one part H_0 and one part 38 to 40 % HF. It is then rinsed with distilled water. The etching effect is not uniform because of the presence of foreign elements in the aluminum or because of other inhomogeneities in the surface layer, so that a large number of small holes are formed in a random distribution. After this chemical treatment, the thickness of the aluminum foil is about 10 µm. The size of the etching holes is 5 to 200 μm, their density is between 10 and

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BBC Baden _{10 / n}

The permeability achieved is practically determined by the duration of the treatment certainly.

In the detailed embodiment of FIG. 3 begins one with a roll 6 of thin aluminum foil.

The aluminum passes through the bath 15, in which the chemical treatment takes place. With the help of the guide rollers 7, 8 and 8 ¹ , the film passes a bath 16 which is filled with constantly renewed, distilled water. The aluminum foil must not come into contact with air between bath 15 and bath 16. With the help of the guide roller 9, the aluminum foil leaves the bath, is dried and then runs between the lamp 13 and the photocell 1 * J, where the permeability can be checked and the speed of the foil through the caustic bath can be controlled.

With the help of the guide roller 10, the aluminum foil is brought up to the polarizer coming from the roller 11, glued to it, and then the laminate is wound onto roll 12.

Instead of a single sheet of aluminum that is etched and then laminated onto the polarizer, it is also possible to use one that is already laminated with aluminum foil To etch the polarizer film according to the method described above (the polarizer-reflector combination already provided with an adhesive layer is not from the etching solution

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BBC Baden

attacked). This eliminates the critical lamination of the aluminum foil mechanically weakened by the etching process. Also, no creases or folds can form in the etching process. To increase the wear resistance of the etched film side, it can be coated with a thin, transparent lacquer layer to be protected.

The process is relatively cheap; since it is a continuous process, it can be used on an industrial scale.
The reflector produced in this way has a metallic brilliance
on. The transmittance can be selected in a wide range (2 - 30 %) . Finally it takes place on the reflector
no depolarization.

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Claims (11)

BBC Baden 2703731 10/77 claims 1. Partly transparent reflector for liquid crystal displays with a translucent film between the cell with the liquid crystal and a lighting element, characterized in that the translucent film is designed as a thin aluminum film (3), the surface of which has a scattering effect and a number of holes or Contains pores (H) which are designed so that the permeability is optionally 10-30 % . 2. Reflector according to claim 1, characterized in that the aluminum foil (3) directly to the lower polarizer the liquid crystal cell is glued. 3. Reflector according to claim 1 or 2, characterized in that the lighting element (2) on its underside still has a reflective layer (5). 1). Reflector according to claim 3 »characterized in that the reflective layer (5) consists of vapor-deposited aluminum. 5. The method of manufacturing the reflector according to claim 1, characterized in that a piece of thin aluminum foil for 2-3 Mi ew * nu., "" In "m Attibad is etched. 809833/0635 ORIQiNAL IN6PECTED 3 10/77 6. The method according to claim 5 »characterized in that the thickness of the aluminum foil is about 15-20 μτη. amounts to. 7. The method according to claim 5> characterized in that the etching bath consists of a part HO and a part 38-49 % HP. 8. The method according to claim 5> 6 or 7, characterized in that that the thin aluminum foil unwound from a roll (6, Fig. 3) runs through the etching bath (15) and then a bath with the help of guide rollers (7, 8 and 8) (16) happens that is filled with constantly renewed, distilled water that with ■ the help of another Guide roller (9) the aluminum foil leaves the bath and is then subjected to a drying process. 9. The method according to claim 8, characterized in that the dried aluminum foil between a lamp (13) and a photocell (I ¹ I) runs through, where the permeability is controlled and the speed of the film through the etching bath can be controlled. 10. The method according to claim 9, characterized in that the aluminum foil with the help of a further guide roller (10) on the unwound from a roller (11) Polarizer is brought up and glued to it and 809833/0635 that the laminate is then wound onto a roll (12) intended for this purpose. 11. The method according to claim 5 »characterized in that the thin aluminum foil already before the etching process is laminated onto a polarizer film. BBC Public Company Brown, Boveri & Cie. 809833/0635