DE2815681C3 - Display device, in particular liquid crystal cell - Google Patents

Description

The invention relates to a display device according to the preamble of claim 1. Such a display is known from DE-OS 22 54 940.

A display frame should always be made using a glass soldering technique instead of an adhesive technique if a hermetic seal is required and / or the frame material is not chemical at all Reactions with the enclosed medium. So are liquid crystal displays in particular Mostly provided with a glass solder frame, since one still does not have usable liquid crystal substances that are sufficiently stable to the ambient humidity and the usual plastic adhesives. Glass solders require, however, if they have a useful adhesive strength and to the glass substrates thermally are adapted, process temperatures of at least 450 °. At such temperatures there is a risk that the glass plates warp, that residual stresses remain in the cooled cell and that especially with Liquid crystal displays which are sometimes attacked by orientation layers that are extremely sensitive to temperature. That is why we are working hard to get it Developing particularly low-melting glass slot typesYes.

There is a class of thermally adapted glass solders that melt at much lower temperatures up to values miter 400 ⁰ C. These are so-called "crystallizing" glass solders. Such

ίο have lots that are also occasionally offered but cannot prevail in practice because their sealing properties and their spacing accuracy leave something to be desired and are relatively high Rejection rates have to be accepted. For this reason it is also already cited in the introduction Offenlegungsschrift has been recommended, a crystallizing glass solder a non-crystallizable additive to be added. However, such a mixture cannot improve the situation significantly. Because they don't crystallizing component has when it is at similarly low temperatures as the crystallizing Component should melt, usually a significantly different coefficient of expansion and may therefore only be added in relatively small amounts.

The object of the invention is to create a display device whose glass solder> mimics Process temperatures of less than 450 ° get by and thereby guarantee a high yield and long-term high Seals well This goal is achieved according to the invention by the features specified in claim 1 achieved

The invention is based on the following observation. A framework that consists essentially or exclusively of a crystallizable glass solder, only then gains sufficient adhesive strength and thus a reliable tightness when its height exceeds a certain minimum value. This minimum height, which, within certain limits, depends on the selected solder material and the respective temperature treatment depends, is about 40 μπι. The through a series of Findings that have been confirmed again and again can be interpreted as follows. A glass solder with small ones Grains are known to crystallize more strongly when heated than a coarse-grained solder mass, since it is a has a larger surface and thus more crystallization nuclei. If the particles are too small, then the Crystal formation so intense that the solder only incompletely passes through the melting phase and afterwards cannot adhere sufficiently to the substrate after it has cooled down. So you need for a tight solder connection Particles of a certain minimum size. And cause large particles, as has been shown in experiments, Despite complete melting, the frames are always relatively thick. It turned out to be the cheapest Grain size range between about 20 μm and 40 μm lies and that frame using such particles are at least 40 μm high.

Based on these results, for those displays whose plate spacing in the display area should be below the required minimum frame thickness, the substrates in their frame area are provided with suitable depressions.
The intended framework deepening can be

quite easy to manufacture by etching the carrier plate. If you also need additional spacers in the Display area, the manufacturing effort can be kept particularly low if these spacer elements

can also be produced in an etching technique. The measure, the two substrates of a display through To distance etching out electrode-carrying depressions from one another is known per se; For example, see DE-OS 24 35 422.

Further advantageous refinements and developments of the invention are additional objects Expectations.

The present proposed solution will now be based on two exemplary embodiments in connection with the Figures of the drawing are explained in more detail. In the figures, parts corresponding to one another are identified by the same Provided with reference numerals. It shows

F i g. 1 shows a first exemplary embodiment, in a side section, and

2 shows a second embodiment in which same way of illustration as FIG. 1.

For the sake of clarity, the figures are not shown schematically, but for an understanding of the invention absolutely necessary individual parts of a display, for example the electrical supply lines, are not drawn

The display of FIG. 1 is a seven segment liquid crystal display. It contains in detail a front Linearpolarisa tor t, a front support plate 2, a rear carrier plate 3, a rear, to the front crossed linear polarizer 4 and a Reflector 6. The two carrier plates are electrically conductive on their sides facing one another Deposits (segmented front electrode with electro w denegmenten 7, continuous back electrode 8) and orientation layers 5, 10 and also hermetically connected to one another via a frame 9. In the one from the frame and the two panels formed chamber is a liquid crystal layer It. The display works in the present case according to the principle of the so-called "rotating cell" (DE-AS 21 58 563).

The figure shows that the inside of the front plate 2 has a profile with depressions and Has surveys. This profile comes about that an edge zone 12 of the plate 2 opposite a Central area jumps back and that the central area is in turn provided with projections, namely on the one hand with a wall 13 running on the edge and on the other hand with distributed over the display area, columnar projections (spacer pimples 14). Wall and distance pimple hit the carrier plate 3 and ensure a defined plate spacing. Certain wall sections and / or selected Pirnpel can also be used for through-hole plating, i.e. for transferring the back electrode to the level the front electrode. In this example, the distance between the Level of the edge zone 12 and the top of the wall 13 40 μ and are the wall and the pimple, based on the Level of the central area, 10 μ high.

The embodiment of FIG. 2 differs from the example shown only in that the Front plate 2 only the wall and the spacer pimples t> o contains, while the frame recess is made in the back plate 3. Thereby 'agi uie distance between the bottom of the frame recess and the level of the central area of the plate 3 30 μπι.

The display variants shown can be produced as follows:

First, the desired profiles are etched out of the two carrier plates in a manner known per se. Then the electrically conductive coatings are applied to the later inner sides of the two substrates, segmented if necessary and then coated with an orientation layer. Then prints on one of the two plates a screen-printable glass solder mass, which is then sintered and in a second Heating process is finally vitrified with both substrates. Thereupon the of the two Plates and the frame bounded chamber filled through a filling opening with a liquid crystal substance and locked.

In a liquid crystal display constructed according to the invention, the glass solder consisted of a lead-thallium-borate-silicate compound. The solder grains had an average size of 10 μm. This Glaslotmasse was first sintered for 20 minutes at 420 ⁰ C and then finally merged into a second heat treatment with the same temperature profile.

In connection with this work it was found that the second heating was the frame height enlarged to a considerable extent, in individual cases by a factor of almost 2. This is presumably due to it due to the fact that the crystallites that already exist during the renewed heating grow and thereby press the two substrates apart. It is noteworthy that the frame can also be combined with a a single heating process tightly to the two substrates, so that one has the possibility of reduce the minimum frame thickness even further. However, the binder does not always succeed Drive out residue-free, so that a single heating only comes into consideration in special cases.

The invention is mainly used in liquid crystal displays. But she's not on this or limited to the illustrated embodiments. In addition to liquid crystal displays, there are also others Displays in question, the layer of which can be switched between different optical states is extremely thin target. Such displays do not always need to be controlled by applying an electrical voltage will; Rather, light valves are also conceivable, which differ from other variables such as heat let switch. In addition, the required general in-depth knowledge can also be achieved in other ways than by lowering the entire plate edge. So it often turns out to be more rational to use in dig a trench around one of the plates. Incidentally, it could also under certain circumstances It may be more appropriate to deepen both substrates rather than just one. Finally, it should be noted that the This proposal can also be used if the plate spacing in the display area is greater than the minimum frame height, because the greater the frame thickness, individual Even better control of properties such as distance accuracy.

1 sheet of drawings

Claims (8)

Patent claims: 1. Display device, in particular liquid crystal cell, with two support plates, which are supported by an intermediate frame on the base of a crystallizing glass solder to form a chamber in a given, compared to Plate size are tightly connected to one another with a very small distance, i.e. indicated by, that at least one of the two carrier plates (2, 3) is in contact with the frame (9) everywhere, is recessed in relation to the surface of the display area so that the thickness of the railing (9) is at least 40 μm 2. Display device according to claim 1, characterized in that the recess is formed in that the edge zone of the carrier plate (2, 3) is lowered relative to the display area enclosed by the edge zone (12) 3. Display device according to claim 1 or 2, characterized in that at least one of the at least two carrier plates (2, 3) on their display area enclosed by an edge zone has an elevation which separates the two carrier plates (2, 3) from one another 4. Display device according to claim 3, characterized in that the survey also the Has the shape of a frame (circumferential wall 13) 5. Display device according to claim 4, characterized in that the frame-shaped elevation (13) runs on the edge of the display area. 6. Display device according to one of claims 3 to 5, characterized in that at least one of the two carrier plates (2, 3) over their display area distributed elevations (distance pimple 14) Has. 7. Display device according to one of claims 3 to 6, characterized in that both the The recess and all the elevations (13, 14) are located on one of the two carrier plates (2, 3). 8. A method for producing a display device according to any one of claims 1 to 7, characterized characterized in that the recess and possibly the spacer elements (13, 14) by a profile etching be generated.