RU2125318C1 - Mosaic displaying screen - Google Patents

Abstract

FIELD: TV display equipment, in particular, using plasma panels. SUBSTANCE: device has displaying plasma panels each of which comprises upper and lower dielectric plates which are tightly sealed in butt joint. Upper panel is transparent. Inner surfaces of plate carry systems of parallel electrodes which form displaying cells on their intersections. Terminals of electrodes are located on side surfaces of plates. Side surfaces of upper plates on side directed to lower plates are equipped with facets. EFFECT: increased image definition, decreased screen cost. 2 dwg

Description

 The invention relates to the field of indicator devices intended for obtaining a color television image, and can be used in the construction of large-sized matrix screens (collective use screens) from a set of plasma panels.

 Currently, the search for technologies for creating flat display panels with a wide field for displaying information is being actively pursued. The most promising direction can be attributed to the creation and use of color plasma panels [1 - 2] as modules from which a large screen is assembled.

Known [1] is the information system for the New York Stock Exchange using 2000 pieces of FUJITSU diagonal 21 inch plasma display panels. Such an indicator with a thickness of 60 mm has a weight of 9.8 kg, a viewing angle of 140 ^o , provides good visual reproduction, quite simple to manufacture. Unlike high-voltage devices based on cathode ray tubes, the supply voltage of the plasma panel does not exceed 200 V. In addition, in contrast to evacuated cathode ray tubes, the gas pressure in the panel is about 0.5 - 1 atm. As a result, the problem of differential pressure and safe operation of screens for collective use was solved. Note that the parameters of plasma panels are constantly being improved [1 - 2], their weight is reduced, the brightness of the color image and energy efficiency are increased while the production cost is reduced.

 When using the block principle of constructing screens for collective use, the problem arises of eliminating the areas that occur at the joints of panels that violate the integrity of the perception of the image, and obtaining a continuous information field. In other words, there should be no loss of image element pitch at the junctions of individual display units when the entire image consists of individual elements separated by gaps.

 The closest technical solution is a matrix type-setting screen [3] based on plasma indicator panels, consisting of at least two image elements in the form of indicator panels, each of which includes upper and lower dielectric plates hermetically connected to each other, at least the upper of which translucent, with a system of electrodes located between them, forming at the intersection of the display cell, with leads of electrodes located on the side surfaces of the lower and perp dicular them lateral surfaces of the upper dielectric plates. In this screen, the upper plates are offset relative to the lower ones so that the indicator cells at the junction of the panels are offset to the outside of the protruding plate, and the gap between the plates is filled with a transparent substance with a refractive index corresponding to the material of the plate. However, this design is not high-tech, when typing the screen from separate panels it does not allow to achieve sufficient image quality at the joints.

 The aim of the invention is to improve image quality, increase the manufacturability of the design of screens for collective use and reduce their cost.

 In the proposed matrix screen, consisting of at least two image elements in the form of indicator plasma panels, each of which includes the upper and lower sealed interconnected dielectric plates, at least the upper of which is translucent, with located on the inner surfaces of each dielectric plate systems of parallel electrodes, forming at the intersection of the display cell, with electrode leads located on the side surfaces of the lower and perp the lateral surfaces of the upper dielectric plates dicular to them, the side surfaces of the upper dielectric plates are butt-joined, a chamfer is made on the side surfaces of the upper dielectric plate from the side of the lower dielectric plate, on the surface of which the leads of the electrodes of the upper plate are located, the angle of inclination to the surface of the plate and the chamfer height are selected, based on the requirements of the minimum value of the output of the electrode and the limit value of the distance between the extreme display cells on two adjacent pa nelyah. In this case, the surface of the chamfers can be polished, and the conclusions of the electrodes on opposite surfaces of the chamfers can be staggered. The sealing seam between the upper and lower dielectric plates from the sides of the electrode leads on the lower plate is made between the chamfer surface and the plane of the dielectric lower plate, and from the sides of the electrode leads on the upper dielectric plate - between the side surface of the dielectric lower plate and the plane of the dielectric upper plate.

 Performing a chamfer on the side surface of the upper dielectric plate eliminates the gap between the panels and arrange the panels end-to-end. The choice of the sizes of the electrode leads and the distance between the indicator cells of two adjacent panels allows you to choose the size of the chamfer at which the viewing angle at the joints of the panels increases compared to the panels located with a gap in relation to each other, and get a solid image from the two panels, assembly technology improves a matrix screen and, as a result, an increase in economic efficiency is achieved.

 Due to the execution of the surfaces of the chamfers polished, the facet of the chamfer begins to work like a prism in a mode close to total internal reflection. Moreover, when observing the screen, instead of a dark gap between the panels, an apparent broadening of the extreme rows of image points will occur, making the gap at the junction of the panels more invisible. The location of the terminals of the electrodes on opposite surfaces of the chamfers in a checkerboard pattern allows for the joining of dielectric plates with a smaller gap. The use of chamfers to perform a sealing seam on two side surfaces can improve the manufacturability of the design.

 The invention is illustrated by the drawing, in which in FIG. 1 and FIG. 2 shows the docking of the matrix screen panels on two perpendicular sides of the panels.

 In FIG. Figure 1 shows the docking of two plasma panels (1) of a matrix screen, consisting of upper (2) and lower (3) dielectric plates arranged with a gap. An electrode system (4) is located on the surfaces of the upper dielectric plate (2), and the electrode system perpendicular to it (5) is located on the surface of the lower dielectric plate (3). A chamfer (6) is made on the upper dielectric plate, on the surface of which there are leads (7) of the electrodes (4). A sealing joint (8) is made between the lateral surface of the lower dielectric plate (3) and the plane of the upper dielectric plate (2).

 In FIG. 2 shows the docking of two plasma panels (1) of the matrix screen on the sides perpendicular to the sides, the docking of which is shown in FIG. 1.

 The terminals (9) of the electrodes (5) are located on the side surface of the lower dielectric plate (3), and the sealing joint (10) is made between the surface of the bevel and the plane of the lower dielectric plate (3).

 The proposed device operates as follows. When voltage is applied to the electrode systems (4) and (5), discharges are ignited, forming indicator cells displaying information. The proposed docking design of plasma panels can be used in matrix screens consisting of plasma panels operating both on direct current and on alternating current.

 The proposed design of docking of plasma panels in matrix type-setting screens allows creating devices for displaying information of collective use of large informative capacity with a solid image field with high resolution with high technological assembly of screens and economic efficiency.

 The present invention will find use in the creation of screens for collective use, which are widely used as billboards, as well as in medical, banking, industrial and other information display systems.

Sources of information:
1. Displays. Ed. J. Pankova. Moscow. "World", 1982, with. 119 - 190.

 2. Shinoda et. al., E. patent N 0554172 A1, H 01 J 17/49, 01.27.93.

 3. Copyright certificate of the USSR, N 886655, MKI H 01 J 17/49, 07/31/80.

Claims (1)

 Matrix type-setting screen, consisting of at least two image elements in the form of indicator plasma panels, each of which includes upper and lower dielectric plates hermetically connected to each other, at least the top of which is translucent, with systems located on the inner surfaces of each of the dielectric plates parallel electrodes forming at the points of intersection of the display cell, with electrode leads located on the side surfaces of the lower and side surfaces upper dielectric plates, characterized in that the side surfaces of the upper dielectric plates are connected end-to-end, chamfers are made on the sides of the upper dielectric plates from the side of the lower dielectric plates; is selected based on the requirements of the minimum value of the output of the electrode and the limit value of the distance between the cells of the indicator and two adjacent panels.

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