JPS6261032A - Liquid crystal display device - Google Patents

Abstract

PURPOSE:To insure a base color against changing when the color of a display pattern part is changed and to secure the recognition of color information by placing a color display translucent type liquid crystal display device utilizing a negative type guest host type liquid crystal substance between a negative type pattern display translucent liquid crystal display device and a light scattering plate. CONSTITUTION:The titled device is composed of a pattern display upper polarization plate 1, a pattern display upper electrode substrate 2, a pattern display liquid crystal substance 3, a pattern display lower electrode substrate 4, a pattern display lower polarization plate 5, a color display upper polarization plate 6, a color display upper electrode substrate 7, a pattern display negative type guest host type liquid crystal substrate 8, a color display lower electrode substrate 9, the light scattering plate 10 and a white color light source 11. In terms of the pattern display upper polarization plate 1 and the pattern display lower polarization plate 5, their polarization directions are parallel with each other so that a pattern display part can display negatively. The color display negative type guest host type liquid crystal substance 8 has polarization characteristics, and the polarization direction of the color display upper polarization plate 6 orthogonally intersects with that of said substance 8 unless a voltage is impressed.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to a display device, and more particularly to a color display type liquid crystal display device that changes the color of a pattern display portion depending on the purpose.

<Prior Art> Conventionally, a transmissive color two-polarizer liquid crystal display device has a cross-sectional structure as shown in FIG. 30.31 in the figure
are an upper electrode substrate and a lower electrode substrate, each of which has a transparent electrode film attached on its opposing surfaces. 32 is a liquid crystal substance, 3
3.34 is an upper polarizing plate, a lower polarizing plate, 35 is a light scattering plate, 36
is a white light source as a backlight. In the above configuration, both or one of the upper polarizing plate 33 and the lower polarizing plate 64 is colored to perform color display. However, according to this method, the combinations of the color of the background part and the color of the display pattern part are limited. Therefore, a transmission type color three-polarizer liquid crystal display device shown in the cross-sectional view of FIG. 4, which improves the above-mentioned drawbacks, has been adopted. As shown in the figure, a second upper polarizing plate 40 is pasted on top of the upper polarizing plate 33, and the polarizing plate has a six-layer structure of the second upper polarizing plate 40, the upper polarizing plate 36, and the lower polarizing plate 34, so that three polarizing plates are used. By combining the colors of , the color of the ground part and the color of the display pattern part were displayed in various colors.

<Problems to be Solved by the Invention> As mentioned above, the conventional transmissive color liquid crystal display device uses two or three polarizing plates colored and combined with various colors to change the color of the background part. The display pattern part was displayed in various colors. However, this method has the disadvantage that when attempting to change the color of the display pattern portion, the background color also changes, making confirmation of color information uncertain.

Means for Solving the Problems> This invention provides a color display transmissive liquid crystal display device using a negative type guest host type liquid crystal material between a negative type pattern display transmissive liquid crystal display device and a light scattering plate. Ok,
This solves the conventional problems by changing only the color of the display portion of the pattern depending on the display purpose.

<Example> The present invention will be described in detail below based on the drawings.

FIG. 1 is a sectional view of a liquid crystal display device of the present invention.

Polarizing plate 1 on pattern display, electrode substrate 2 on pattern display,
pattern display liquid crystal material 6, pattern display lower electrode substrate 4,
Pattern display lower polarizing plate 5, color display upper polarizing plate 6, color display upper electrode substrate 7, color display negative type guest host type liquid crystal material 8, color display lower electrode substrate 9, light scattering plate 10, white light source 11
The pattern display upper electrode substrate 2 and the pattern display lower electrode substrate 4 are made of transparent glass, and in order to display various characters and patterns, various characters and patterns are laid out on surfaces facing each other. There is. The color display upper electrode substrate 7 and the color display lower electrode substrate 9 are also made of transparent glass.
Patterns such that the entire color display liquid crystal group lights up are laid out on opposing surfaces.

The polarization directions of the pattern display upper polarizing plate 1 and the pattern display lower polarizing plate 5 are parallel to each other so that the pattern display portion displays a negative image. Further, the color of the pattern display upper polarizing plate 1 and the pattern display lower polarizing plate 5 is colorless and a black color.

The color display negative type guest-host type liquid crystal material 8 is a liquid crystal material layer containing a pleochroic dye that displays a color indicating safety such as green or blue (represented by the border below), and has polarization property. Therefore, when no voltage is applied, the polarization direction with respect to the polarizing plate 6 is perpendicular to the color display. The polarizing plate 6 for color display is a color polarizing plate, and is made of, for example, a color indicating danger such as red (hereinafter referred to as light). The colors of the color display negative type guest-host type liquid crystal material 8 and the color display polarizing plate 6 may be other colors.

FIG. 2 is a circuit block diagram for displaying the liquid crystal display device of FIG. 1. It consists of a pattern display control circuit 20, a pattern display drive circuit 21, a pattern display liquid crystal section 22, a color display control circuit 23, a color display drive circuit 24, a color display liquid crystal section 25, and a white light source 11. This circuit converts and controls signals into various characters and patterns, and outputs signals to the pattern display drive circuit 21. The pattern display drive circuit 21 is a circuit that receives the signal from the pattern display control circuit 20 and generates a signal for driving the pattern display liquid crystal section 22, and outputs the drive signal to the pattern display liquid crystal section 22. The pattern display liquid crystal section 22 includes a pattern display drive circuit 2
Various patterns are displayed as negative images using the signals from 1.

The color display control circuit 23 is a circuit that controls the content of color display using external signals, and the color display drive circuit 24
Outputs a signal to. The color display drive circuit 24 inputs the signal from the color display control circuit 23 and controls the color display liquid crystal section 2.
A drive signal is output to 5. The color display liquid crystal section 25 performs display using signals from the color display drive circuit 24.

The white light source 11 is a backlight that illuminates the color display liquid crystal section 25 and the pattern display liquid crystal section 22 from behind.

Function> A pattern is displayed in the pattern display liquid crystal section 22 by a pattern display control circuit 20 and a pattern display drive circuit 21. Since the pattern display liquid crystal section 22 is a negative image type, the display section of the pattern is transparent and transmissive, and the area other than where the pattern is displayed is black (no light passes through it. When the power is turned on, the white light source 11 is turned on. The color display liquid crystal section 25 is lit, and the color display liquid crystal section 25 is not lit.This is a state in which no voltage is applied to the color display liquid crystal section 25, and the transmitted light from the white light source 11 is green.Pattern display liquid crystal Part 2
2c. Since the pattern section is in a transparent state, the green light transmitted through the color display liquid crystal section 25 directly passes through the pattern display section of the pattern display liquid crystal section 22 and becomes green. In other words, the pattern display section of the pattern display liquid crystal section 22 is green.

Next, the color display control circuit 26 and the color display drive circuit 2
4, the color display liquid crystal section 25 is turned on.

This is a state in which voltage is applied to the color display liquid crystal section 25,
The transmitted light from the white light source 11 is red.

The red light transmitted through the color display liquid crystal section 25 directly passes through the pattern display section of the pattern display liquid crystal section 22 and becomes red.

That is, the pattern display section of the pattern display liquid crystal section 22 can change the pattern display section of the pattern display liquid crystal section 22 between green and red by inputting a color change signal to the color display control circuit 26.

<Effects of the Invention> As explained above, according to the transmission type color liquid crystal display device according to the present invention, a negative type guest host type liquid crystal cell is constructed between the negative type pattern display transmission type liquid crystal display device and the white light source. A color display transmissive liquid crystal display device is installed.
Depending on the display purpose, the color display transmissive liquid crystal display device is turned on;
By turning off the light, it became possible to change the color of the pattern display section of the negative type pattern display transmission type liquid crystal display device. Although the colors of the color display liquid crystal part and the polarizing plate are green, red, and colorless, it is of course possible to display different colors by combining colors. This display device can be used to monitor devices that perform various confirmation processes using color information (visually), such as clocks and measuring devices, allowing you to change the color of the time display between morning and afternoon, and set the limits of the measuring device. By changing the display color of the pattern within the value or outside the set value, the effect on information cognitive processing ability is great, and it can be constructed at a very low cost.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional view of a liquid crystal display device according to an embodiment of the present invention.
Figure 2 is a circuit block diagram, Figure 3 is a conventional transparent color diagram.
FIG. 4 is a sectional view of a conventional transmissive color three-polarizer liquid crystal display device. DESCRIPTION OF SYMBOLS 1... Polarizing plate on pattern display, 2... Electrode substrate on pattern display, 6... Pattern display liquid crystal material, 4...
Pattern display lower electrode substrate, 5... Pattern display lower polarizing plate, 6 - Color display upper polarizing plate, 7... Color display upper electrode substrate, 8... Color display liquid crystal material, 9... Color display lower electrode substrate,
10.35...Light scattering plate, 11.36...White light source, 20...Pattern display control circuit, 21...
- Pattern display drive circuit, 22... Pattern display liquid crystal section, 26... Color display control circuit, 24... Color display drive circuit, 25... Color display liquid crystal section, 30... Upper electrode substrate, filter 1... Lower electrode substrate, 32... Liquid crystal material,
36... Upper polarizing plate, 34... Lower polarizing plate, 40...
Second upper polarizing plate. Figure 1

Claims (1)

[Claims] It consists of a pattern display upper polarizing plate, a pattern display upper electrode substrate, a pattern display liquid crystal material, a pattern display lower electrode substrate, and a pattern display lower polarizing plate, and the polarization directions of the pattern display upper polarizing plate and the pattern display lower polarizing plate are parallel to each other. It consists of a negative type pattern display transmission type liquid crystal display device, a color display upper polarizing plate, a color display upper electrode substrate, a color display negative type guest host type liquid crystal material, and a color display lower electrode substrate, and the polarization of the color display upper polarizing plate The pattern display transmissive liquid crystal display device is composed of a color display transmissive liquid crystal display device, which are combined so that the direction of polarization and the polarization direction of the negative type guest-host liquid crystal material are orthogonal to each other, a light scattering plate, and a white light source. A liquid crystal display device characterized in that the color of the display pattern part can be changed.