JPH0721589B2 - Large display - Google Patents

Description

TECHNICAL FIELD The present invention relates to a large-sized display device, and more particularly to a large-sized display device including a large number of display units.

The large-sized display device of the present invention means a large-sized display device as compared to a calculator-sized display device having one display body. The large-sized display device of the present invention can be used in baseball fields, theaters, department stores, station premises,
It is designed to allow multiple or multiple people to be seen in an underground mall or at home.

Examples of the display body used in the large-sized display device of the present invention include a liquid crystal display body and an ECD. The display device of the present invention uses a plurality of these display bodies.

[Technical background]

Conventionally, there is a display device that displays with one display body,
There is no display device in which one image is formed using a large number of display bodies. There is a manufacturing constraint on the size of a display image with only one display body, and there is a market demand for forming one image using a large number of display bodies due to restrictions such as the drive duty number and the extraction of electrodes. is there.

〔Purpose〕

The large-sized display device of the present invention has been made against such a technical background, and its purpose is to use a plurality of display bodies.
It consists in forming two screens and eliminating the technical difficulties associated with them.

〔Constitution〕

The large-sized display device of the present invention is a large-sized display device in which a plurality of display units each including a liquid crystal panel and a drive circuit for the liquid crystal panel are combined, and the large-sized display device is
A display screen formed by arranging a plurality of display units in a row or column direction in a direction orthogonal to the arrangement direction, a video signal processing circuit, and a video signal processing circuit for processing. A video memory for storing the video data, and a block control circuit for sending the video data transferred from the video memory to each display block, each of the plurality of display units constituting each display block, A plurality of drivers for driving the liquid crystal panel through control bus lines and data bus lines
The control bus line is electrically connected in parallel to the IC, and the control bus line in each of the display blocks is further connected so that the data bus line is continuously connected in each of the display blocks.
The data bus lines are electrically connected in series, and the select signal is sent to each driver in the display unit.
The last driver IC in the display unit and the first driver IC in the display unit adjacent to the display unit are connected in series, and each of the driver ICs is selected in time series. And

The display body or display unit may be a segment type, but is preferably a dot matrix type. This is because the degree of freedom of display is great. It should be noted that some display bodies or display units may be segment type and other display bodies or display units may be dot matrix type.

For example, in the large-sized display device of the present invention, a display panel adopting a dot matrix system and a drive circuit for controlling the panel are combined into one housing to form a display unit, and a plurality of units arranged in the row direction is provided. The structure is used as a display block. The display blocks are stacked in a required number of stages and are fixed to the structure to form a display unit.

Further, in the drive circuits of a plurality of display units that are grouped as a display block, the control signal lines and data signal lines required by the circuits are used as common signal lines in the display block, and the display unit is electrically the display block. Are connected in parallel. As a control circuit, an overall control circuit and a control circuit for each display block are provided, and as other circuits, a video memory, a video signal processing circuit, a digital signal processing circuit, an audio signal processing circuit, etc. are provided to form a large display device. .

〔Example〕

An outline of the device of the present invention is that a plurality of display units 1 are arranged in a structure 2, as shown in FIG.

The details of the present invention will be described below based on illustrated embodiments.

FIG. 2 illustrates the structure of the display unit. In FIG. 2 (a), reference numeral 3 is a light guide element used for the purpose of interpolating the gap of the display unit, and as shown in FIG. 2 (C), reference numeral 5 is a transmissive liquid crystal panel adopting the dot matrix system, and FIG. 2 (D) is a row drive circuit board of reference numeral 6 (hereinafter referred to as X driver board) 7 of the liquid crystal panel. A state in which a circuit board (hereinafter referred to as a Y driver board) is connected is shown, and reference numeral 8 in FIG. 2 (e) shows a display unit housing. FIG. 2 (f) shows a state in which the display unit is assembled as a display unit, and the display unit including the light guide elements of reference numeral 3 is fixed to the display unit housing of reference numeral 8, and the liquid crystal panel is aligned with the light guide elements. It is fixed to the screw hole 9 by the rear screw and the pressing plate. The X driver board and the Y driver board are flexible boards, and are bent to the rear of the display unit by approximately 90 degrees. Reference numeral 10 is a guide unit when the display blocks are put together. FIG. 3A is a side view of the display unit, and the reference numerals are the same as those described in FIG. FIG. 4 shows a circuit configuration of the display unit. Reference numeral 11 is a data bus line, reference numeral 12 is a control bus line for writing the information of the data bus line 11 into a storage element in the driver IC, and reference numeral 13 is a select signal. Lines and reference numerals 14 are column driver ICs (hereinafter referred to as X driver ICs), and in this embodiment, three are mounted on the X driver board. Reference numeral 15 is a row driver IC (hereinafter referred to as Y driver). Reference numeral 5 is a liquid crystal panel, and column electrodes (hereinafter referred to as X electrodes) of the liquid crystal panel are divided into upper and lower two electrodes as shown by reference numerals 5-1 and 5-2, which are respectively driven by upper and lower X driver boards. It In the circuit operation of the above configuration, the data bus and the control bus denoted by reference numerals 11 and 12 are 3
One X driver IC is selected by a select signal 13 which is connected in parallel to the X driver ICs. When the select signal of reference numeral 13 becomes active, the X driver IC of reference numeral 14-1 is selected, and the contents of the data bus are successively written by the control bus into a plurality of storage elements in the X driver IC of reference numeral 14-1. , 14-2 when data is written in all the memory elements in the X driver IC of 14-1
The select signal of the X driver IC becomes active and the same operation is performed. When the writing of data up to the X driver IC indicated by reference numeral 14-3 is completed, a select signal is output to the next X driver board, and the data is stored in all X driver ICs. The stored data is transferred to the drive circuit in the X driver IC by the control signal and a voltage is applied to the column electrode of the liquid crystal panel of reference numeral 5 to display at the intersection with the row selected by the Y driver IC of reference numeral 15. . During the display period, the storage element of the X driver IC sequentially stores the data to be displayed in the next row, and the rows selected by the Y driver IC are sequentially displayed by time division driving.

FIG. 5 shows a state in which four display units are grouped in the row direction to form a display block. The display unit of reference numeral 16 is fixed to a metal plate of reference numeral 17 through a guide hole of reference numeral 18. To fix the display units, first, the four display units are arranged and temporarily fixed to a metal plate of reference numeral 17 with screws, and then the display units are aligned with each other and fixed with screws. Reference numeral 19 is a jumper wire, which connects the X driver board or the Y driver board described with reference to FIG. 4 and electrically integrates the circuits in the block. Reference numeral 20 is an electric wire for supplying a potential and a signal to the electric circuit of the display block, and is tangentially connected to the display block control circuit via the connector of reference numeral 21. Reference numeral 22 is a guide hole for fixing the display block to the structure of the display device. In FIG. 5, the metal plate designated by reference numeral 17 may be a single metal plate or an L-shaped bent metal plate. It is also possible to use plastic or the like, and it is also possible to combine them in a box shape instead of a plate shape. Code 19
A ribbon cable or the like is most suitable as the jumper wire, but it is also possible to use a single wire or to add an alternative to the flexible board.

FIG. 6 shows a display device in which display blocks are stacked in six stages, and each display block is fixed to an L-shaped metal fitting or the like of reference numeral 23 attached to the structure of the display device after the vertical alignment and the display portion. Is configured.

FIG. 7 is a block diagram of the display device. Reference numeral 24 is a video signal processing circuit, reference numeral 25 is a video memory, reference numeral 26 is a block control circuit, reference numeral 27 is a display block, and reference numeral 28 is an overall control circuit. In the operation of the display device having the above configuration, the video data processed by the video signal processing circuit of reference numeral 24 is temporarily stored in the video memory of reference numeral 25, transferred to the block control circuit of reference numeral 26, and transferred to the block control circuit of reference numeral 27, together with other control signals. It is sent to the display block and displayed. To obtain a larger display screen, for example, in order to enlarge the screen in the horizontal direction, it is only necessary to increase the number of display units in one display block, and to enlarge the screen in the vertical direction, the number of display blocks and block control circuits is increased. Only need be. However, the video memory needs to be commensurate with the number of pixels.

A plurality of display units arranged in the column direction may be integrated and arranged in the row direction, or a plurality of display units arranged in the row direction may be integrated and arranged in the column direction. Further, instead of one column or one row, a plurality of columns or rows such as 2, 3 may be integrated and arranged in the row or column direction.

FIG. 8 (a) is a side view of the light guide element described in this embodiment, but the light guide element may have any shape, for example, the shape as shown in FIG. 8 (b). By doing so, the image quality is improved. Further, it may be a glass fiber or a plastic fiber.

〔effect〕

In the large-sized display device of the present invention, a plurality of display units constituting a display block are electrically connected in parallel, and a data bus line for sending video data from the block control circuit to the display unit and writing of image data are controlled. The control bus line of is common in each display block. Therefore, when a display block is formed by arranging a plurality of display units in the row direction, in order to enlarge the screen in the horizontal direction, it suffices to increase the number of display units in the display block. Since the control signals of the data bus line and the control bus line can be used, it is only necessary to connect the common data bus line and the control bus line to each display unit. Then, by stacking the display blocks in the vertical direction, the screen can be enlarged in the vertical direction. Therefore, it is not necessary to provide a block control circuit for each display unit, and the number of wirings of the circuit can be significantly reduced when configuring the circuit. Therefore, it is possible to enlarge the display screen with a very simple circuit configuration at low cost. Have. It goes without saying that the same effect can be obtained when a display block is formed by arranging a plurality of display units in the column direction.

Further, in constructing the display screen, it is sufficient to handle each display block as a unit, which has the advantages that the number of constituent parts is not required and the handling at the time of assembly is easy.

In addition, a large screen can be realized without being limited by the number of driving dies and the size of the display body per sheet.

Even on a large screen, the number of displayed dots is large,
You can display detailed parts such as figures and movies.

[Brief description of drawings]

FIG. 1 is a diagram showing an outline of a large-sized display device of the present invention. FIG. 2 is an exploded perspective view showing the configuration of the display unit of this device. FIG. 3 is a top view and a side view of a display unit of this device. FIG. 4 is a diagram showing a circuit configuration in a display unit of this device. FIG. 5 is a perspective view showing a state of one embodiment of a display block of this device. FIG. 6 is a perspective view showing a state in which a screen is constructed using display blocks in this device. FIG. 7 is a block diagram of an embodiment of this device. FIG. 8 is a view showing an embodiment of a light guide element used in the device of the present invention. 1 ... Display unit 2 ... Structure 3 ... Light guide element

Claims (1)

[Claims] 1. A large display device comprising a plurality of display units each comprising a liquid crystal panel and a drive circuit for the liquid crystal panel, wherein the large display device has a plurality of the display units arranged in a row or column direction. A display screen having display blocks arranged in a direction orthogonal to the arrangement direction, a video signal processing circuit, a video memory for storing video data processed by the video signal processing circuit, and the video memory A block control circuit for sending the video data transferred from each display block to each display block, and each of the plurality of display units forming each display block drives a control bus line and a data bus line to drive the liquid crystal panel. Are electrically connected in parallel to a plurality of driver ICs, and the control is performed in each display block. The control bus line and the data bus line are electrically connected in series in the adjacent display units so that the drain line and the data bus line are continuously connected, and the select signal is the display unit. Connected to each driver IC in series, and the last driver IC in the display unit and the first driver IC in the display unit adjacent to the display unit are connected in series to select each driver IC in time series. Large display device characterized by