DE2657159A1 - Matrix element display unit - has square section hollow cell elements coupled to vertical and horizontal strip electrodes - Google Patents

Abstract

An electro-static field display consisting of a matrix of elements, uses square section hollow tube at each matrix point. Two opposite internal walls of the tube are used as electrodes for the establishment of an electrostatic field. Conductors are formed by strip bands (S, Z) that are looped over pins. Each hollow tube cell has the electrode plates bonded to the strip conductors. All cells and strip band pins are secured to a base plate (G).

Description

"Method of making a device

for controlling a display device "Addendum to D'D-PS (patent application P 26 19 139.9) The invention relates to a method for producing a device for controlling a display device, preferably a flat screen with a matrix consisting of rows and columns with switching cells in the nodes are arranged, each of the switching cells means for generating an electrostatic Contains transverse field, through which charge carrier a substantially parallel to Level of the display device experience directional acceleration and being on both Sides of the switching cells means for generating a longitudinal electrostatic field are provided, through which charge carrier a substantially perpendicular to Experience directional acceleration at the level of the display device, according to patent. ... ... (patent application P 26 19 139.9).

According to the main aninolation there are the;, cll szallen, d. H. the selection area according to Figure 1 between a cathode area and a Suction area. The suction area must be permeable to charge carriers, so that the selected charge carriers can get into the amplification area, where z. B. a charge carrier multiplication takes place. The increased charge carrier flow can then be forwarded to a luminescent layer (anode area) and there for a visual display can be used.

The cathode area consists, for. B. from a plane plate, the top of which (towards the selection area) has a charge carrier generating layer. The suggestion this layer can be done by indirect or direct heating of the plate, whereby the emitting layer made of thermally excitable material (e.g. ultra-red cathode) consists or by exciting a photocathode layer with radiation, preferably 1w radiation, with the layer made of suitable material as a metal layer or alkali photocathode acts. In addition, it is possible to use the necessary load carriers to be generated by gas ionization or to use thermal cathodes in flat construction.

The selection area consists of an arrangement of switching cells, each of which has two plane-parallel electrodes, similar to a plate capacitor that allow charge carriers to be deflected across the switch cell axis. Farther it is advantageous to connect one of the two plane-parallel electrodes to the cathode connect, so that there is no field between these electrodes if there is no transverse field and the cathode can be formed, but essentially only between the suction area and cathode.

In particular, the selection area must meet high requirements struggles can only be provided by dimensioning all of them as uniformly as possible Switching cells a correspondingly uniform distribution of brightness over the entire Screen (luminous layer) is to be achieved.

The invention was therefore based on the object of a method for production a device mentioned at the beginning with largely uniformly designed switching cells to specify.

This object is achieved in that initially a Grid is formed, which consists of two arranged in different levels at right angles to each other aligned arrangements of parallel to each other metallic strips that in the grid spaces perpendicular to the two Planes of hollow cylindrical insulating body are introduced, at the inner jacket surfaces each have two mutually opposite and electrically from each other isolated metallic coverings were applied or in a subsequent process step are applied, that then the insulating body with the metallic strips mechanically are connected and that finally the metallic coverings in the insulating body are electrically contacted with the metallic strips.

The solution according to the invention should be described in greater detail with reference to FIGS. 1 to 6 explained.

In Figures 2 and 3 is a reusable device for Production of a grid from two arrangements aligned at right angles to one another represented by metallic strips running parallel to one another. How out As can be seen directly from the two figures, two bands S, Z are used for this purpose, which are looped around pins which are anchored in a base plate G. will.

The tape S from which the column lines S1. Dn should arise later, is performed in the present example in the lower level, the band Z, from the the row lines Z1 zn are to be created at right angles to it in the upper level.

For the production of switching cells are in the grid spaces now introduced hollow cylinder-shaped insulating body, which with metallic Internal coverings are provided or which in a subsequent process step with such coverings are provided. These metallic coverings later form the baffles to generate an electrostatic transverse field through which the charge carriers an acceleration directed essentially parallel to the plane of the display device Experienced. The metallic coverings can, for example, by selective coating be applied to the inner M component surfaces of the insulating body.

Glass tubes with a rectangular shape are preferably used as the insulating body Cross-section used (Figures 4 and 5). The tubes must be in the spaces between the grids be introduced in such a way that the metallic coverings, i.e. the baffles, are aligned parallel to each other. The entire arrangement is now down to the Heated near the glass softening point, the glass tubes and the metallic Baked tapes to form a unit. Then, regarding their location, the Glass tubes, or in the switching cells corresponding deflector plates with the associated metallic bands, d. H. the column lines S1 ... Sn or the row lines Z1 Zn contacted The contact can be made, for example, by means of conductive paste which is applied using screen printing technology. After making the entire The two bands S, Z have to be cut through in the area of the pins. A fully contacted switching cell arrangement with 3. 3 switch cells is in figure 6 reproduced.

However, the method according to the invention is not exclusively based on limited the use of glass tubes with a rectangular cross-section. Goes for example, gas-filled glass tubes closed on both sides with a circular Cross-section, it must only be ensured that the heating of the arrangement happens to the vicinity of the glass softening point under reduced external pressure. As a result of the increased internal pressure, the tubes then expand so far that they have a rectangular cross-section given by the metallic strips accept. At the same time, the glass tubes and the metallic bands are restored baked into a unit. At the end of course the entry and outlet openings for the charge carriers in the end faces of the glass tubes be introduced.

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Claims (6)

Patent claims g Method for producing a device for Control of a display device, preferably a flat screen with a Matrix consisting of rows and columns, with switching cells arranged in their nodes are, each of the switching cells means for generating an electrostatic transverse field contains, through which charge carriers a substantially parallel to the plane of the Display device experience directional acceleration and being on both sides of the switching cells means are provided for generating an electrostatic longitudinal field are, through which charge carrier a substantially perpendicular to the plane of the display device experience directional acceleration, according to patent. ... ... (patent application P 26 19 139.9), characterized in that first a grid is formed which of two arranged at right angles to each other and arranged in different planes There is an arrangement of metallic strips running parallel to one another, that in the grid spaces perpendicular to the two planes hollow cylindrical trained insulating bodies are introduced, on the inner lateral surfaces of each two opposing and electrically isolated metallic ones Coverings were applied or applied in a subsequent process step are that then the insulating body is mechanically connected to the metallic strips and that finally the metallic coverings in the insulating body with the metallic strips are electrically contacted. 2. The method according to claim 1, characterized in that the insulating body Glass tubes open on both sides are used which have a substantially rectangular shape Have cross-section. 3. The method according to claim 1, characterized in that the insulating body Gas-filled glass tubes closed on both sides are used, which have an im have substantially circular cross-section that the tubes under reduced External pressure are heated so that they are inflated as a result of the higher internal pressure and assume a rectangular cross-section given by the bands and that finally openings are made in the two end faces of the tubes will. 4. The method according to claim 1, characterized in that for production of the two arrangements of metallic strips running parallel to one another a device is used on which pins are placed in opposing rows are arranged so that a single long band is used for each level, which is looped around the pins in such a way that a mechanically stable Arrangement arises and that after making the entire device, the two Ribbons are severed in the area of the pins. 5. The method according to any one of claims 1 to 3, characterized in, that the mutually insulated metallic coverings on the inner jacket surfaces the insulating body can be produced by selective coating. 6. The method according to any one of claims 1 to 5, characterized in that that for contacting the metallic coverings on the inner lateral surfaces of the A conductive paste is used for the insulating body with the metallic strips, which is preferably applied by screen printing.