DE2103591A1 - Foil-like display screen with liquid crystals as an optically active medium - Google Patents

Description

SIEMENS AKTIENGESELLSCHAFT München, the ".. ..

/ - C JAi * Berlin and Munich Witteisbacherplatz

VPA

71/7008

Foil-like display screen with liquid crystals as an optically active medium

The invention relates to a large-area display arm with a liquid-crystalline layer as the optically active medium.

It is known ("Reflective Liquid Crystal Television Display" by John v.Raalte in Proceedings of the IEEE, Vol.56, Dec.68, pages 2146 to 2149) "a screen consisting of a thin layer of a nematic liquid crystal for displaying information use zn . .

A liquid crystal is an organic substance of im general aromatic nature. The molecules have a certain elongated shape on the order of 20 A *. Nematic liquid crystals are very similar to isotropic liquids. They differ in their molecular Structure of the latter only through the parallel orientation of the longitudinal axis of the molecule. The preferred direction of the longitudinal axes is location-dependent over larger areas without special precautions; By magnetic fields of a few 1000 Gauss and electric Fields of a few 1000 volts / cm can, however, also be oriented parallel to larger areas »in such a way that the optical axis is parallel to the field axis. For the use of the nematic liquid crystals as optically active Medium in screens it is important that these crystalline liquids have a large molecular dipc? Anoraent.

Another well-known property of liquid crystals is the so-called »dynamic scattering, which with the help of the so-called Swarm theory should be interpreted in more detail: in nematic

the molecules accumulate in swarms of

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about 10 molecules together. They lie within the swarms Molecules in parallel. This gives a swarm a permanent dipole moment. By applying an electric field the nematic liquid crystals orientate the swarms with their permanent dipole moin in the direction of the field. As a result of the angle formed by the longitudinal axis of the molecule and the molecular dipole moment "has the axis of the molecule in relation to the direction of the field always a certain incline. Now walking under the

it
Effect of an electrical field of ions through such a molecular arrangement, then a shear force is exerted on the individual volume elements, which tries to rotate the longitudinal axes of the molecules in the direction of the ion flow. In these wines there is a constant interplay between the alignment of the molecules under the action of the electric field and the alignment of the longitudinal axes of the molecules according to the direction of migration of the ions, which in turn coincides with the direction of the field. This interplay causes a dynamic anisotropy of the refractive index and thereby causes a desired effect, the dynamic light scattering,

The light scattering is called dynamic because of the prevailing turbulence when an electric field is applied Light scattering. Designates the state in which the nematic liquid crystal is in dynamic light scattering called the dynamic scattering mode.

In this state, the liquid crystal appears white when viewed from the side. The intensity decreases with increasing field strength of the scattered light. In this way you can create a gray scale.

Also known is the memory effect and the color effect, a) memory effect

A stream of ions generated by a constant electric field emulsifies the originally transparent mixture of a

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tables and a cholesteric substance (e.g. 90 wt .- ^ APAPA and 10 wt .- ^ cholesteryl monoate) and makes them milky White. This "state" persists even if the field is already is switched off. The "emulsion" is dissolved again by a low-frequency alternating field (f = approx. 1 kHz) and the mixture becomes transparent again.

b) color effect

It is observed when dichroic dyes are dissolved in a nematic liquid and attached to the liquid crystal cell a tension is applied. By aligning the molecules of the nematic liquid in an electric field, the dichroic dye aligned with. Since absorption in a dichroic dye is a function of orientation the molecular axis is to the direction of polarization of the incident light, an electric field can change the color of the nelnatic Layer can be changed, e.g. red -? · Colorless, blue - ^ colorless, green - "?" colorless.

Contrary to the opinion widespread in the literature that aas electrical field must be applied to the liquid crystal via conductive electrodes, e.g. SnOp or Al, was shown by one's own Try that when an alternating field is applied, a liquid crystal, which is inserted into an insulating film, also comes into the state of dynamic scattering. Therefore it is possible to find methods of embedding the nematic To use substances that are similar to those that are already technically involved in embedding cholesteric substances be exploited.

The previously known display screens with liquid crystals are made up of two glass plates, between which the liquid crystal is in an approximately 20 / uia thick layer. However, there are still great difficulties in manufacture large-area umbrellas, since no possibility is known yet of generating liquid crystal, which in the case of large fish.

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elongation have a completely uniform thickness. If you put on If the layer has a certain field strength, the scattering state depends on the thickness of the layer. An inconsistent one Layer thickness therefore leads to incorrect image reproduction.

The invention is based on the object of large-area display screens with liquid crystals of uniform thickness.

This object is achieved according to the invention in that the liquid crystal is embedded in a uniform thickness in or between two transparent carrier film (s). Preferably the constant layer thickness is achieved in that the carrier film consists of a material that has the ability to to soak up the liquid crystal.

According to a further advantageous embodiment of the invention, the films are produced from a mixture of liquids Carrier material and liquid crystal. Can be used as carrier material for this purpose, e.g. gelatin, cellulose derivatives, polyvinyl alcohol, a mixture of collodion and butyl acetate or of nitrocellulose and anylacetate. The emulsion can become a Film to be pulled out that hardens. In this process, a solid film is obtained in which the liquid crystal is in the form of droplets is embedded.

Advantageously, the material of the carrier film (in the case of direct voltage operation) should have such a low specific resistance have that the predominant part of an electrical voltage applied to the screen is on the liquid crystal.

A good result is also obtained when the liquid crystal is embedded between two carrier foils, whereby at least one of the carrier foils has an embossed pattern with waffle-like depressions of the same depth.

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An equally good result is obtained when the liquid crystal is in the recesses of a perforated mask ", which is covered on both sides by a carrier film. A disk is closed under a perforated mask understand, which is of uniform thickness and which has many holes.

The uniform thickness can finally also be achieved in particular in that the liquid crystal is between two ! Embossing foils are located which are welded to one another in equidistant points or longitudinally equidistant lines.

When the liquid crystal is coherent between carrier foils is located, then all these carrier films mentioned should in particular consist of plastic.

Exemplary embodiments of the invention are described in more detail in FIGS.

1 and 2 show sectional views of a first embodiment the invention,

3 and 4 show sectional views of a second embodiment the invention,

FIGS. 5 and 6 show sectional views of a third exemplary embodiment the invention,

Pig. 7 and 8 show sectional views of a fourth embodiment the invention.

1 and 2 show exemplary embodiments in which the liquid is used Crystal is connected to the carrier film in a non-contiguous form.

1 is the carrier film, which is impregnated with the liquid crystal. In order for a rapid effect to be generated, a 1 must be applied to this film electric field can be applied. For this purpose, a system of parallel leather strips x ^, χ «··· ß as well as y-jS ^ f ···, with these two

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Ladder systems are perpendicular to each other. The one with the liquid crystal Impregnated film 1 can be connected to two further cover films 2 made of plastic.

If you want to create an image on this screen and, for example, point Xp ^v 2 ^to * e ^u em>, you apply a voltage to the two conductor strips Xg and y _2. The display screen then either becomes "white" or changes its color at location XpYp. If the screen is evenly illuminated with white light, a pixel can be seen at this point.

A similar embodiment of the invention as that based on the 1 and 2 described is obtained when a film made of a mixture of liquid crystal and liquid carrier material, e.g. produces collodion dissolved in butyl acetate! and instead of Slide 1 in Fig.1 and "2 used.

3 to 8 show embodiments in which the liquid crystal in the waffle-like depressions of one carrier film, in the holes of a shadow mask or between two equidistantly welded carrier foils is located.

3 and 4 show a carrier film 3 which has an embossed pattern with waffle-like depressions. These depressions are filled to the brim with your liquid crystal 10. The carrier film 3 itself is covered by a second plane-parallel film 5. A system of parallel conductor strips x ^ t * 2 ··· ^ ^zw » ^ν ι * ^ν 2 ··· can again be arranged on the outer surface of the carrier film 3 and on the outer surface of the film 5, with these two systems again Place vertically on top of each other.

Figures 5 and 6 contain a shadow mask 6, i.e. a plane-parallel one Foil with many vertical holes 7 in it, which in turn are filled with the liquid crystal 10. The shadow mask 6 is on both sides covered by a plane-parallel plastic film 5 or 8. Located on the inside of foils 5 and 8

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again, for example a conductor _{strip system each with the conductor strips X 1} , X ₂ ··· yj »y2 '"' ^{where1:> ei the} "two systems are again perpendicular to one another. Here, too, all materials are transparent.

Pig. 7 and 8 finally show a system of two plane-parallel plastic films 5 and 8 which are welded to one another at points 9 or at lines equidistantly. Between these "two films 5 and 8" of the liquid crystal is again 10. In the "two with each other internal or external surfaces of the welded films 5 and 8 is again a wire system depending m with the conductor strips xj" x ₂ ··· *> ^tw · 7ι "^ ρ '**, wherein the two systems are perpendicular again.

8 figures
14 claims

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Claims (14)

Claims Qy Large-area display screen with a liquid-crystalline layer as the optically active medium, thereby g e k e η η show that the liquid crystal is more uniform Thickness is embedded in or between two transparent carrier film (s). 2. Arrangement according to claim 1, characterized in that net that the carrier film consists of a material " which has the ability to soak up the liquid crystal. 3 «arrangement according to claim 1, characterized net that the carrier film consists of a mixture of a liquid Carrier material and the liquid crystal produced is, 4. Arrangement according to claim 3, characterized by gelatin as the carrier material. 5. Arrangement according to claim 3 »marked using cellulose derivatives as a carrier material. 6. Arrangement according to claim 3, characterized through polyvinyl alcohol as a carrier material. 7. Arrangement according to claim 3 »marked using a mixture of collodion and butyl acetate as a carrier material, 8. Arrangement according to claim 3 »characterized by a mixture of nitrocellulose and amyl acetate as Carrier material. VPA 9/712/0079 -9- 209833/0900 9. Arrangement according to claim 2 or 3, characterized in that g e k e η η that the material of the carrier film has such a low specific resistance that when equal ■ Voltage operation the predominant part of an electrical voltage applied to the screen is on the liquid crystal. 10. The arrangement according to claim 1, characterized in -. net that the liquid crystal between two carrier foils . is embedded, wherein at least one of the carrier films has an embossed pattern with waffle-like depressions of the same depth owns. 11. The arrangement according to claim 1, characterized net that the liquid crystal is in the recesses a shadow mask is located, which is covered on both sides by a carrier film. * Arrangement according to claim 1, characterized in that that the liquid crystal is located between two carrier films, which are mutually at equidistant points or are welded along equidistant lines. 13. Arrangement according to one of the preceding claims, characterized in that the carrier films Made of plastic. 14. Arrangement according to one or more of the preceding claims, characterized in that either to generate the dynamic scattering mode on your liquid crystal a constant electric field via electrodes that are in conductive contact with the active medium, or a electrical animal field is applied via electrodes, which can be isolated from the active medium. VPA 9/712/0079 209833/0900