DE2160469A1 - Alphanumeric display element - using electrically excited liquid crystal between plane parallel electrodes - Google Patents

Abstract

The electrodes, esp. of SnO2, are on glass plates and one of them, which overs the whole of one plate, is covered in turn by a layer of insulation, esp. varnish, except for those areas forming the elements of the characters to be displayed. The upper electrode is sub-divided intto selectively excited elements which correspond to the character elements and the cavities in the insulation film which film extends to the upper electr odes, are filled with liquid crystal esp. chlolesterin. The working voltage is 30 V. The insulation refractive index is the same as that of the liquid crystal.

Description

Electrical display element The invention relates to an electrical display element Display element, at.

which the display means for the characters to be reproduced one when creating of an electric field, a layer of liquid that changes its optical properties Crystals are located between two two-dimensional, via switching means on one Voltage source lying electrodes. Such elements can be special Characters made visible through the shape of the electrodes or partial electrodes by applying the electric field to the electrodes or certain parts of them is switched on or off.

In known elements of the type mentioned above, the electrodes are placed certain shape by making sheets of electrically insulating transparent Material, such as glass, first in its entirety with a transparent, electrical one conductive layer. Then this layer is in the places where it should be ineffective, etched off again.

This method is particularly popular because of its favorable properties widespread use of tin oxide as a conductive agent difficult. The etching is known to occur with the reduction mixture consisting of zinc and hydrochloric acid. A mixture that, in addition to hydrogen chloride, produces hydrogen during the etching process so that it must be handled carefully.

According to the invention, even when using tin oxide, one comes without one Etching from one electrode by placing all parts outside the area to be reproduced Signs are to be coated with electrically insulating paint. This will the current flowing through the layer of liquid crystals at the points where the paint is, interrupted, so that the changes in the optical Properties only become visible where no insulating varnish is applied.

An additional simplification of the whole construction principle is thereby obtained when the thickness of the layer simultaneously corresponds to the distance between the electrodes. Then only as many liquid crystals need to be used as there are currently are required for the characters to be reproduced. Another advantage is achieved if a lacquer is used whose refraction exponent corresponds at least approximately with the little layer of liquid crystals. Then in one phase obtain a completely transparent cell that no longer has any structure, so there are no indications of the signs that give rise to errors.

For display elements that reproduce characters of different shapes can, for example so-called alpha numerical displays, the invention is also advantageous, because even then it is possible to get by with little material from liquid crystals. The pattern only needs to be printed on one side in such a way that all Parts not required by the system are covered with insulating paint. Will all individual areas by an electrical interruption, such as a scratch, .separated from one another, which is covered on the finished piece in front of lacquer, can be used as a counter electrode instead of the otherwise necessary plate with conductive areas a uniformly conductive electrode be used. The interruptions can run arbitrarily, because the display fields are limited by the insulating layer.

In particular, the last-mentioned advantage and other details of the invention are based on the embodiments shown in the drawing further explained.

In Fig. 1, the arrangement of a multi-field electrode plate is in plan view drawn, - which together with a uniform counter-electrode for the display of Letters and numbers etc.

is suitable, in Fig. 2 is a partial cross-section from the plate according to Fig. 1.

In Fig. 1, 1 denotes the plate in which the Display element is located. This consists of a number of electrode segments 2 to 16, which are connected to strips 17 to 30 for contacting. The cover a layer of lacquer is better seen in FIG. 2. There they are two 1 mm thick glass plates 31 and 32 on which the conductive layers 33 and 34 are located, which are 0.5 / u thick and made of tin oxide exist. In between there are the sections -35 lying on the plate 32 to 57 of the lacquer layer, which is 10 / u thick and consists of acrylic resin layer parts 38 and 39 are located in the spaces that have remained free made of liquid crystals made up of cholesterol. To items 38 and 39 To be able to switch separately, the electrically conductive layer 33 is at the points 40 and 41 electrically separated by scribing. This is the way the fields are divided 1 created so that approximately by connecting the strips ~ 28, 27, 24, 22 and 20 the electrode segments 2, 3, 10, 16 and 15 come into action, so that on the Plate 1 the hatched Z appears. To simplify activation a known switch 42 is provided, which is approximately as Decoder is designed in MOS technology. In the figure, by setting the pointer 43 to the corresponding number or letter indicates the DC power source 44 of 30 V connected to the associated contacts. To get the clarity true, only the connecting lines that lead to the connection strips are pulled out lead to. Playback of the Z must be connected. The remaining connecting lines are at the switch-42-power source-44-Eombination only. indicated.

Claims (5)

Claims 1. Electrical display element, in which the display means for the characters to be reproduced have their optical properties when an electric field is applied Properties changing layer is made up of liquid crystals that is between two extensive electrodes connected to a voltage source via switching means, d a d u r c h e k e n n n z e i c h -n e t that on an electrode all parts, that are located outside the characters, with an electrically insulating layer are covered. 2. Display element according to claim 1, characterized in that the Layer is as thick as the distance between the electrodes. 3. Display element according to claim 1, characterized in that the Refraction exponent of the layer at least approximately coincides with that the layer of liquid crystals. 4. Display element according to one of the preceding claims, characterized characterized in that the insulating layer is applied in the form of a varnish is. 5. display element according to one of the preceding Ånsprüche, thereby characterized- that the applied voltage is 30 V and that the liquid crystals consist of cholesterol. 6 «display element according to one of the preceding claims, in which an electrode for displaying differently shaped characters (alpha numerical display) has separate fields, d u r c h g e n n z e i c h n e t that the electrode to subdivide the fields has parting lines that are from the the electrically insulating layer delimiting the display fields are covered. Blank page