JPH03269567A - Large-sized display device - Google Patents

Abstract

PURPOSE:To reduce color appearance difference caused by difference in horizontal view angle and to improve color appearance symmetrical with respect to a center line by mutually complementing the asymmetry with respect to the center line of a first light emitting element and the reverse asymmetry with respect to the center line of a second light emitting element. CONSTITUTION:Color appearance asymmetrical with respect to the center line is obtained by the first light emitting element 11, and color appearance asymmetrical with respect to the center line, which is opposite to that obtained by the first light emitting element 11, is obtained by the second light emitting element 12. One unit 13 is made by placing the first and second light emitting elements 11 and 12 side by side, and the plural units 13 are arranged crisscrossedly for example, on a display board. In the unit 13, the central axis O passing through the center between the first and second light emitting elements 11 and 12 is the symmetry axis. The colors of the first and second light emitting elements 11 and 12 are viewed symmetrically. Therefore, the colors of the display device, in which plural symmetrical-color units 13 are crisscrossedly arranged, are symmetrically viewed. Thus, color appearance difference which is caused by difference in horizontal view angle is reduced, and the color appearance symmetry can be improved.

Description

[Detailed Description of the Invention] [Object of the Invention] (Industrial Application Field) The present invention relates to a large-sized display device suitable for large-scale color electric display boards installed outdoors such as athletic stadiums and baseball stadiums, and particularly The present invention relates to a large display device with an improved arrangement of light emitting elements, which are pixels.

(Prior Art) In general, large color display devices installed outdoors such as in athletic stadiums use a large number of light emitting elements, such as lamps that emit light in red, R, green, G, and blue B, respectively, as color pixels arranged in a matrix on a large display board. Although it is arranged in
These three colors R and G.

For the conventional arrangement of B, jl(igh Brigtr
fnessColo+ VariableLighti
ng Element +01 LargeOut d
oo+ Displays J (J, olJ E
S (1989 issue, p. 23).

In other words, the arrangement of these three colors RSGSB is the orthogonal arrangement shown in Fig. 4 (A), the triangular arrangement shown in Fig. 4 (B), and the
There is a lattice arrangement shown in the figure.

If the ratio of the luminescence amount (brightness) of these three colors R, G, and B is constant in the viewing direction for that pixel, the display board in which a large number of these light emitting elements are arranged can be viewed from any direction. However, the color temperature of the white balance appears to be the same.

(Problems to be Solved by the Invention) However, the lamp 1 shown in FIG. 6 has a problem in that the color temperature of the white balance looks different depending on the viewing angle mainly from the left and right directions.

This lamp 1 has a light output end within a rectangular cylindrical outer frame 2 separated by a cross-shaped partition plate 3 into four light-emitting chambers 3a, 3b, 3c.
, 3d, and these light emitting chambers 3a to 3d are divided into three colors R, G.
, B are configured to emit light respectively, and these three colors are
For example, they are arranged in a square grid as shown in FIG.

As shown in FIG. 7, the outer frame 2 has its front end 2a on the light output side a distance α from the front end surface of each light emitting chamber 2a to 2d.
For example, when the upper two chambers 2a and 2b of the lamp 1 are viewed from the right side in the figure at the required angle, the visible width WR on the right side is larger than the visible width W on the left side, as indicated by the broken line. W. becomes shorter.

This is because the front end surface 2a of the outer frame 2 on the right side in the figure protrudes forward by a distance α, so that a part of the line of sight at the right end is blocked by this front end surface 2a.

In this way, since the visible width WR on the right side is shorter than the visible width WL on the left side, the area of the light emitting chamber 2b of the green color G on the right side in the figure appears to be smaller than the area of the light emitting chamber 2b on the right side in the figure, or the area of the red color R on the left side in the figure. The combined color of red R and green G appears to have a strong reddish tinge.

Next, when looking at this lamp 1 from a symmetrical position opposite to this one, for the same reason, the visible width WL on the left side will be shorter than the visible width WR on the right side. Therefore, the composite color of red R and green G looks like green G has a strong greenish tinge.

That is, in this lamp 1, the color temperature of the white balance looks different depending on the viewing angle in the left and right directions.

However, in a large display device installed outdoors, there is almost no difference in the elevation angle in the vertical direction, so the difference in appearance due to this difference in elevation angle is hardly a problem.

Therefore, the present invention has been made in consideration of the above-mentioned circumstances, and its purpose is to reduce the difference in color appearance due to the difference in viewing angle in the left and right direction (horizontal direction), and to improve the left-right symmetry of color appearance. An object of the present invention is to provide an improved large-sized display device.

[Structure of the invention]

(Means for Solving the Problems) The present invention aims to improve the left-right symmetry of color appearance, and is configured as follows.

In other words, in the present invention, a first light emitting element with a left-right asymmetrical color appearance and a second light emitting element with an asymmetrical color appearance that is opposite to the first light emitting element are arranged side by side. It is characterized in that it is one unit and a plurality of these units are arranged vertically and horizontally.

(Function) A first light-emitting element with a left-right asymmetrical color appearance and a second light-emitting element with a left-right reversed asymmetrical color appearance than the first light-emitting element are arranged side by side to form one unit. is configured.

A plurality of these units are arranged vertically and horizontally on, for example, a display board.

When the axis of symmetry of the unit is a central axis passing through the center between the first light emitting element and the second light emitting element, the colors of the first and second light emitting elements appear symmetrical.

Therefore, the color appearance of a large-sized display device formed by arranging a plurality of units in which color appearance is bilaterally symmetrical is symmetrical, and the lateral symmetry is improved.

(Example) Hereinafter, an example of the present invention will be described based on FIGS. 1 to 3.

FIG. 2(A) is a front view of the first lamp 11, which is the first light emitting element incorporated in the large-sized display device according to the present invention. FIG. 2(B) is a front view of the second lamp 12, which is also a second light emitting element according to the present invention.

The first lamp 11 constitutes one pixel of a large display device, and the light output side end of the rectangular cylindrical outer frame 2 shown in FIG. Room 11a
, llb, llc, and lid.
These are arranged in a square grid, and these light emitting chambers 11
Each of the light emitting front surfaces a to 11d is set back, for example, by a distance α, as in FIG. 6, with respect to the front end surface 2a of the outer frame 2.

These light emitting chambers 11a to 11d are blue B in this order.
It is configured to emit light in 1 green color, 1 green color, 1 green color, and 1 red color.

However, similar to the conventional lamp 1 in FIG.
Since the light emitting front surfaces of the lamps 1a to 1d are set back by a distance α with respect to the front end surface 2a of the outer frame 2, the color appearance is asymmetrical in the left-right direction, as in the conventional lamp 1.

In other words, when the upper light emitting chambers 11a and llb are viewed from the right side in the figure at a required angle, the visible side of the right light emitting chamber 11b is narrower than the visible width of the left light emitting chamber 11a, so the blue B The composite color of green G and green G appears to be bluish with increased bluish B.

Conversely, when the upper light emitting chambers 11a and 11b are viewed from the left side at the required angle, the composite color of blue B and green G appears to have a greenish G tinge for the same reason. .

The same applies to the lower light emitting chamber 11a and the lid.

In other words, in this first lamp 11, colors appear asymmetrical.

On the other hand, the second lamp 12 is characterized in that the light emitting chambers 12a, 12b, 12c, and 12d are arranged so that the color appearance is asymmetrical to the left or right or opposite to that of the first lamp 11. Other than this, it is the same as the first lamp 11, so
Common parts are denoted by the same reference numerals, and redundant explanation thereof will be omitted.

In other words, the second lamp 12 is connected to each light emitting chamber 12a to 1, 2.
d is configured to emit green, blue, B, red, R, and green G lights, respectively, as shown in FIG. , the left and right are reversed.

Therefore, as shown in FIG. 3, if the first and second lamps 11 and 12 configured in this way are arranged side by side with their right side and left side in the figure butted against each other to form a unit 13, then this The color appearance of unit 13 is both lamps 11.12
When the axis of symmetry is the central axis O that passes through the mating surfaces of

That is, each light emitting chamber 11a to 11d of this unit 13,
12a to 12d are arranged symmetrically with respect to the axis of symmetry O.

Therefore, when this unit 13 is viewed from the right side in FIG.
2a and 12b, the visible width of the light emitting chamber 11b of the first lamp 11 that emits 6 green lights is shorter than the visible width of the light emitting chamber 11a that emits 8 blue lights on the same left side. Since the visible width of the blue B light emitting chamber 12b is narrower than the visible width of the green G light emitting chamber 12a, both lamps 11 and 12 complement each other and are symmetrical about the axis of symmetry O. become. This left-right symmetry shows that both lamps 11
．． 12 lower light emitting chambers 11c, 11d, 12c, 12d
Similarly, since they complement each other, the symmetry is improved.

Therefore, as shown in FIG. 1, the units 13 configured in this manner are arranged in a matrix pattern on a large display device, such as a display board.

Therefore, since the color appearance of this display board is symmetrical, the color appearance is symmetrical even when viewed from either the left or right direction, and the color temperature of the white balance is almost the same.

〔Effect of the invention〕

As explained above, the present invention includes a first light-emitting element that has a left-right asymmetrical appearance of color, and a second light-emitting element that has a left-right opposite and asymmetrical color appearance of the first light-emitting element. were arranged horizontally to form l units, and a plurality of these units were arranged vertically and horizontally.

Therefore, according to the present invention, the left-right asymmetry of the first light-emitting element and the asymmetry of the second light-emitting element complement each other, so that the left-right symmetry of color appearance is improved as a whole, and the left-right asymmetry of the second light-emitting element is improved. The color temperature of the white balance can be made almost the same regardless of the difference in direction or viewing angle.

[Brief explanation of drawings]

FIG. 1 is a perspective view of essential parts of an embodiment of a large display device according to the present invention, FIG. 2(A) is a front view of the first lamp shown in FIG. 3 is a front view of the unit shown in FIG. 1, and FIG. 4 (A
), (B) and FIG. 5 are schematic front views showing the conventional method of arranging color pixels, FIG. 6 is a perspective view of a lamp that is a conventional color pixel, and FIG. 7 is a schematic plan view of FIG. 6. It is. 2... Outer frame, 2a... Front end surface, 3... Partition plate, 1
1... First lamp, lla to 11d... Light emitting chamber,
12... Second lamp, 12a-12d... Light emitting chamber, R... Red, G... Green, B... Blue.

Claims (1)

[Claims] A first light-emitting element with a left-right asymmetrical appearance of color and a second light-emitting element with a left-right reversed asymmetrical appearance of color than the first light-emitting element are arranged side by side to form one unit. A large display device characterized by a plurality of units arranged vertically and horizontally.