JPS6249326A - Liquid crystal display device - Google Patents

Abstract

PURPOSE:To make it possible to display a white or color image on a black ground even if liquid crystal is homeotropically orientated by forming light shielding masks on the positions of a transparent base board having a common electrode which are not opposed to segment electrodes. CONSTITUTION:A liquid crystal display device is provided with a pair of transparent base boards 10, 11 which are constituted of glass plates and oppositely arranged in parallel with each other. Plural segment electrodes 12 are formed on the opposite surface side of one transparent base board 11 and the common electrode 13 is formed on the opposite surface side of the other transparent base board 11. The segment electrodes 12 and the common electrode 13 are formed by a transparent material, e.g. indium oxide, on the basis of photoetching method or the like. In addition, the grating-like light shielding masks 14 are formed on the positions of the opposite surface side of the base board 11 which are not opposed to respective segment electrodes 12. Then, nematic liquid crystal 15 is sealed between the base boards 10, 11 and homeotropically orientated.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a liquid crystal display device, and particularly to a transmissive liquid crystal display device.

(Prior art and its problems) FIG. 4 shows a conventional transmissive liquid crystal display device, which includes a pair of transparent substrates 1.2 arranged in parallel and facing each other. . A plurality of segment electrodes 3 are provided on the opposing surface of one transparent substrate 1, and a common electrode 4 is provided on the opposing surface of the other transparent substrate 2. A liquid crystal 5 is sealed between these substrates 1 and 2.

A liquid crystal display device having such a structure is used in a state in which the long sleeves of five liquid crystal molecules are aligned parallel to the wall surface (homogeneous alignment) or in a state in which they are aligned perpendicular to the wall surface (homeotropic alignment). Electrode 3
When a voltage is applied between the common electrode 4 and the common electrode 4, the irradiation light 6 is transmitted, and in the case of homeotropic alignment, the irradiation light 6 is blocked by the application of the voltage.

Now, when the above-mentioned conventional liquid crystal display device is used in homeotropic alignment, the irradiation light 6 is transmitted between the segment electrodes 3 both when a voltage is applied and when no voltage is applied. Therefore, the position W of the transparent substrate 2 that does not face the segment electrode 3 is always white (transparent). Therefore, in a liquid crystal display device used in homeotropic alignment, white display is performed on a black background (blocking). I couldn't.

Incidentally, FIG. 5 shows a dot matrix type liquid crystal display device in which each segment electrode 3 is configured as a pixel. In this liquid crystal display device, one image is displayed using two or more segment electrodes 3. When this liquid crystal display device is used in a homeotropic alignment, white is always displayed between the segment electrodes 3, as described above. Therefore, a part of the image that should be black (blocked) may end up being white, resulting in a decrease in contrast and a failure to obtain a good image.

(Means for Solving the Problems) The present invention has been made to solve the above problems, and provides a liquid crystal display in which a light-shielding mask is provided at a position not facing the segment electrodes of a transparent substrate having a common electrode. The purpose is to provide equipment.

(Embodiments of the Invention) Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

The liquid crystal display device according to the present invention includes a pair of transparent substrates 10 and 11, as shown in FIG.

These transparent substrates 10, 11 are made of glass plates and are arranged parallel to each other. A plurality of segment electrodes 12 are provided on the opposing surface of one transparent substrate 10, and a common electrode 13 is provided on the opposing surface of the other transparent substrate 11. The segment '+ pole 12 and the common electrode 13 are formed from a transparent material, for example, indium fermentation, by a photo-etching method or the like. A lattice-shaped light shielding mask 14 is provided on the opposite surface side of the other transparent substrate 11. This light shielding mask 14 is provided at a position not facing each segment electrode 12.

A nematic liquid crystal 15 is sealed between the transparent substrates 10 and 11. This nematic liquid crystal 15 is homeotropically aligned. Therefore, although the irradiation light 6 is transmitted between the segment electrodes 12, the light shielding mask 14 prevents the irradiation light 6 from transmitting through the transparent substrate 11. Therefore, when a voltage is applied between each segment electrode 12 and the common electrode 13, the alignment direction of the nematic liquid crystal 15 located between them changes.

Since the irradiation light 6 is blocked, the transparent substrate 11 becomes completely black (blocked). As a result, by controlling the voltage applied to the segment electrodes 12, a predetermined image is obtained by displaying white on a black background. be able to.

FIG. 2 shows a dot matrix type liquid crystal display device. That is, one transparent substrate 10 is provided with segment electrodes 12' constituting pixels, and the other transparent substrate 1 is provided with segment electrodes 12' constituting pixels.
1 is provided with a common electrode 13. Further, a grid-shaped light shielding mask 14 is provided on the transparent substrate 11 at a position not facing the segment electrodes 12'. A nematic liquid crystal 15 with homeotropic alignment is sealed between the transparent substrates 10 and 11. In this liquid crystal display device as well, since the light transmitted between the segment electrodes 12' is blocked by the light shielding mask 14, the black density of the portion of the image to be displayed in black is increased.

Therefore, the contrast between black and white is improved, so 1
g A clear image can be obtained.

FIG. 3 shows an example in which the present invention is applied to a color liquid crystal display device. That is, segment electrode 1 of transparent substrate ll
Red (R), green (G), and blue (B) color filters 16 are provided at positions facing the color filters 2 and 2, respectively. In addition, a grid-shaped light-shielding mask 14 is provided at a position of the transparent substrate 11 that does not face the segment electrodes 12 so as to surround each color filter 16.
is provided. A nematic liquid crystal 15 is sealed in a homeotropic alignment between the transparent substrates 10 and 11. Therefore, this color liquid crystal display device can perform color display on a black background.

In the embodiment shown in FIG.
Color display can be similarly performed on a black background by using a separate color filter.

Furthermore, instead of the nematic liquid crystal 15, a guest-host liquid crystal may be used to display color on a black background.

(Effects of the Invention) According to the present invention, since the light-shielding mask is provided at a position not facing the segment electrodes of the transparent substrate having the common electrode, white display on a black background or color display can be performed even if the liquid crystal is homeotropically aligned. be able to. Further, since the contrast of white, red, etc. with respect to black is improved, it is also possible to provide a dot matrix type liquid crystal display device with clear images.

[Brief explanation of the drawing]

FIG. 1 is a sectional view of a liquid crystal display device according to the present invention. FIGS. 2A and 2B are a front view and a cross-sectional view of a liquid crystal display device according to another embodiment of the present invention, and FIG. 3 is a cross-sectional view showing an example in which the present invention is applied to a color liquid crystal display device. FIG. 4 is a sectional view of a conventional liquid crystal display device, and FIG. 5 is a front view of a conventional dot matrix type liquid crystal display device. 10.11... Transparent substrate, 12.12'... Segment electrode, 13... Common electrode, 14... Light shielding mask, 15... Nematic liquid crystal. -su

Claims (1)

[Claims] A liquid crystal display device comprising a first transparent substrate having segment electrodes, and a second transparent substrate disposed opposite to the first transparent substrate and having a common electrode, the second transparent substrate having a common electrode. A liquid crystal display device characterized in that a light shielding mask is provided at a position not facing the segment electrodes.