Liquid-crystal indicator and method of its manufacture

专利摘要:
A liquid crystal display, and process of manufacture therefor, emloying an integrated reflector internal to the liquid crystal cell, and consisting of a guest-host liquid crystal layer sandwiched between two cell plates and located between front and rear electrodes. At least the front electrode is composed of segments and parts of the reflector and/or rear electrode that lie opposite the conduction paths leading to these segments are at an electrical potential whose difference from the potential of the conduction paths is smaller than the threshold voltage of the liquid crystal layer used.
公开号:SU808011A3
申请号:SU772488996
申请日:1977-06-01
公开日:1981-02-23
发明作者:Доригуцци Рино；Эглофф Маркус；Кауфманн Майнольф；Шеффер Терри
申请人:Ббцаг Браун, Бовери Унд Ко (Фирма)；
IPC主号:

专利说明:

one
The invention relates to liquid crystal indicators and to a method for manufacturing one of the types of such indicators and can be used in devices in a realistic presentation of information.
Known liquid crystal indicators, including a layer of nematic liquid crystal with a positive dielectric anisotropy, having the original twisted and 90 structure. A layer of liquid crystal (LC) is enclosed between two transparent plates with electrodes on the inner sides, one of which is solid and the other is in the form of segments. Polaroids are mounted on the outer sides of the plates, and when applying control voltages to certain segments, the required symbols ll will be displayed.
A disadvantage of the known device is a low contrast, small viewing angles and a significant absorption of light energy, due to which only the observed information can be observed.
The closest in technical essence and the achieved result
To the proposed is a liquid crystal indicator containing a layer of an LC located between two plates with electrodes on the inner sides, and at least one of the plates and the electrodes on it are transparent
The electrodes on the front plate are made in the form of segments with supply conductors, and on the back plate either solid over the whole area of the plate or located only on a part of the area occupied by the displayed symbol. The thickness of the LC layer is determined by spacers of a calibrated thickness, for example, of fluoroplastic. The safety of the LCD is provided by a sealing gasket.
In the absence of a control voltage, and, when observing a reflection, the LCD layer AGREES dark, painted in the color of the dye. When applied to selected segments of the control voltage, the cholesteric twisted LC structure is rearranged, a transition to a nematic one, in which all LC molecules are perpendicular to the plates.
GOST molecules - the dichroic dye - are oriented together with the molecules of the host LC, and become stable to the position where the i.itenne of light is minimal.
In this way, switching between the original dark, oKpaiuGHHtJM state and transparent, unpainted state is performed, and the indication of necessary symbols becomes possible, and observation is possible without polaros with a sufficiently high contrast. To increase the contrast, a diffuse reflector is used, which can be placed both on the outer side of one of the plates and placed between the plates in contact with the LCD layer 2J.
The disadvantage of the known indicator is the insufficiently large viewing angle due to the fact that when placing the reflector outside the plates, reading the information in a wide viewing angle is hampered by the presence of a paralax, and when placing the reflector between the plates the supply conductors become visible.
Methods of manufacturing indicators are known, consisting in that transparent electrodes are first applied to the plates, solid on one, and in the form of segments on the other. Orientation layers are then applied to obtain a twisted and planar or homeotropic orientation {and 12.
A disadvantage of the known manufacturing methods is the complexity of the technology and the need for a large number of different types of equipment.
The purpose of the invention is to exclude the possibility of observing the downstream part of the electrodes.
This goal is achieved by the fact that the reflector is made of mutually isolated metacholic particles deposited on the back electrode and the inner surface of the back plate, and the reflector has a conductivity of no more than 10 micro-siemens per square in the direction perpendicular to the surface of the electrodes.
In this case, mutually insulated metal particles can be made of aluminum pigment and applied with a layer thickness of from 0.2 to 50 microns.
To provide a semi-reflective reflector, the latter is made of aluminum pigment with a length of 2 to 12 microns with a layer thickness of 0.2 to 5 microns.
In addition, in the method of manufacturing a liquid crystal indicator, the reflector is made by coating the back electrode and the inner surface of the back plate with electrically mutually isolated metal particles.
At the same time, aiuiiKiio hy1L (,; tin and electrode. On it are coated with a mixture of binder and metal particles from 2 to 20 microns thick, then subjected to heat treatment at temperatures from 200 5 to.
Moreover, the back plate coating
and an electrode on it with a wire silk screening method.
After coating the back plate and the electrode, non-conducting particles are introduced into the uncured layer of the coating mixture. specifying the nominal distance between the plates.
In addition, the rear platinum surface and 5 electrode on it can be covered with a layer of a mixture consisting of a binder and an aluminum pigment with a length of 2 to 12 microns with a weight ratio of aluminum pigment to binder. 50: 1 to 20: 1 .
The mixture can be applied by means of finely meshed mesh with more than 100 threads per centimeter using the silk screen method.
Alternatively, an aluminum pigment evenly mixed with a volatile binder, such as dichloromethane, is sprayed under a pressure of from 4 to 6 atmospheres.
FER0. The back plate, after being sprayed for at least one minute, is heat treated at a temperature of 400 to.
5 In Fig. 1, the basic principle of constructing a liquid crystal indicator using a guest-host interaction effect; Fig.2 enlarged section of the indicator.
0 The liquid crystal indicator consists of a front plate 1 with an electrode 2 in the form of segments and a back plate 3 with an electrode 4. Between the plates 1 and 3 there is a layer of LC 5,
5 along the perimeter of the indicator there is a sealing gasket b. The liquid crystal layer 5 has an initially twisted colored, dark-looking structure 7, which can be converted into a transparent unpainted structure 8 by supplying a control voltage to the indicator. The indicator in the reflection mode is illuminated by the illumination source 9, . The observer 11 in both cases is located on the front plate side. A reflector 12 is placed on the entire area of the back plate, covering the entire surface of the back plate, both occupied by electrode 4 and free from the electrode. Supply leads 14 and 15 are provided for connecting control voltages from generator 13 to electrodes 2 and 4. Reflector 12,
5 consists of isolated friend from
JU-j Mg.particles clock 16 (aluminum-).
As a liquid crystal 5, a mixture consisting of nematic liquid crystals derived from benzonitriles can be used, for example, three components in a weight ratio of 1: 1: 1 - i-butoxy, I-hexyloxy, and octonyloxy-benzylidene-p-aminobenzonitrol , with the addition of 5-15% fatty acids of a cholesteric type, for example, cholesteryl benzoate, and from 0.2 to 1% of a dichroic dye, for example indidefenol blue.
The front plate 1 is made of a transparent material, for example a stele, and the electrodes on it in the form of segments are also transparent and made, for example, of tin dioxide. The back plate 3 may be of transparent or tempered glass, the electrode 4 on it is made transparent, for example of tin dioxide, or it may be of metal, for example aluminum.
Reflector 12 covers the entire surface of the second plate, both occupied by electrode 4 and outside electrode 4, so that the indicator has the same appearance over the entire area, despite the presence or absence of electrodes and supply conductors. Different reflector designs improve the aesthetic appearance of the indicator and provide the ability to read information on it both in the mode of transmission and reflection.
So when working on the reflection of the reflector is made of aluminum pigment with a layer thickness of 0.7 to 50 microns. When working on the lumen, the thickness of the pigment layer is from 0.2 to 5 microns, and the length of the pigment particles is from 2 to 12 microns.
The method of manufacture of the proposed indicator is that the reflector is made by applying a layer of a mixture from 2 to 20 microns thick, the binder is metal particles. In the process of drying and heating up to a temperature of 200-500 ° C, the binder burns out, forming a diffuser of uniform thickness and a reflector, have a conductivity in the direction perpendicular to the plane of the electrodes and no more than 10 micro-electroscopes. further set the thickness of the layer LCD. The remaining operations necessary for the manufacture of the indicator as a whole (electrode deposition, sealing, filling of the LC cell) are carried out similarly.
In the manufacture of the translucent variant of the indicator, the thickness of the mixture of binder and pigment is from 2 to 12 microns:, 1 weight
cooTHOUJeniMi pigment to a sp.ch-ratio of 50: 1 to 20: 1.
In this case, the pigment cMOiuni.iKvr with volatile s euktsim, nlprimor difluorodnchloromethane, and drink under pressure from 4 to 6 atmospheres.
The thickness of the applied layer is selected as desired, depending on the desired ratio between the reflected part of the light and the indicator passing through. Burning of the binder is performed at a temperature of 400-500 ° C.
The proposed design, the indicator and the method of its manufacture allow the mass production of aesthetically well-designed informators at a low cost of production.

权利要求:
Claims (11)
[1]
1. A liquid crystal indicator comprising a liquid crystal layer between two plates of a cell with front and rear electrodes, inserted inside the cell, a reflector, a source of electric potential, and at least the front electromotive force, consists of segments, characterized in that the possibility of observing the underside of the electrodes, the reflector BF.inojiHen and the mutually isolated metal particles deposited on the back of the electrode and the inner surface of the back plate, the reflector having imost no more
10 microscopes per square perpendicular to the surface of the electrodes.
[2]
2. The indicator of claim 1, about tl and h a0 of 1D and II c, in that mutually insulated metal particles are made of aluminum pigment and deposited with a layer thickness of 0.2 to 50 microns.
[3]
3. The indicator according to claim 2, that is, in order to ensure the translucency of the reflector, the latter is made of aluminum pigment with a length of 2 to 12 microns with a layer thickness of 0.2 to 5 micron.
0
[4]
4. A method of manufacturing an indicator according to claim 1, characterized in that the reflector is made by coating the back electrode
and the inner surface of the back
5 plates of electrically mutually insulated metal particles.
[5]
5. The method according to claim 4 is also distinguished by the fact that the backplate and the electrode on it are covered with a layer of a mixture consisting of a binder and metal particles with a thickness from
2 to 20 microns, then heat treated at a temperature of 200 to 500 s.
five
[6]
6. Method by p.p.4, about tl and h ayush. and with the fact that the coating of the back plate and the electrode on it is carried out by the method of screen printing.
[7]
7. Method according to claim 4, characterized in that after coating the back plate and electrode in non-solid. non-conductive particles contribute to the layer of the coating mixture, which sets the memorial distance between the plates.
[8]
8. POP method 4, in different ways and with the fact that the back plate and the electrode on it are covered with a layer of a mixture consisting of a binder and an aluminum pigment with a length from 2 to 12 microns with a weight ratio of aluminum pigment
to binder from 50: 1 to 20: 1.
[9]
9. The method according to claim 8, wherein the mixture is applied by means of a finely meshed mesh with more than 100 threads per centimeter by the method of screen printing.
[10]
10. The method according to claim 8, about 1 liter, and that the aluminum pigment, evenly mixed with a volatile binder, for example, difluorodichloromethane, is sprayed under a pressure of from 4 to 6 atmospheres.
[11]
11. The method according to claim 10, from L and the tea and with the fact that the back plate after spraying for at least one minute is subjected to heat treatment at a temperature of 400 to.
Priority points:.
06/16/766 nn.l, 2,4-7v
03.16.77 pp.3,8-11
 Sources of information taken into account in the examination 1. French patent 2245973, cl. G 02 F 1/13, Oablik 1975.
2. J. Arr. Phys, 45, - 4718-4723, 1974 (prototype).

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法律状态:

优先权:

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