JP3192994B2 - 3D image display device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a stereoscopic image display device without glasses for preventing a colored pattern generated on a contact surface between an image display panel and an optical separating means such as an optical filter.

[0002]

2. Description of the Related Art As a device for displaying a stereoscopic image without special glasses, a lenticular lens system and a parallax barrier system are conventionally known.

As a stereoscopic image display apparatus of the parallax barrier type, for example, as shown in FIG. 4, a backlight 1, a liquid crystal panel 2 as a display panel, and an observer side of the liquid crystal panel 2 are arranged. And a parallax barrier 3. The parallax barrier 3 is formed by forming a large number of stripe-shaped light-shielding thin films 32 on a substrate 31 such as glass or transparent resin. In the liquid crystal panel 2, a liquid crystal layer 23 is provided between a glass substrate 22 and a glass substrate 24. Further, an emission side polarizing plate 21 is provided on the light emission side glass substrate 22, and an incidence side is provided on the light incidence side glass substrate 24. Polarizing plate 25
Are provided respectively. Then, the image for the right eye and the image for the left eye are displayed on the liquid crystal layer 23 of the liquid crystal panel 2 every other column. The right-eye image that has passed through the light from the backlight 1 is separated by the parallax barrier 3 and the observer's left eye 1
Only the left-eye image is observed at 0L, and only the right-eye image is observed at the right eye 10R, and a stereoscopic image is recognized.

In such a system, in order to observe a clear stereoscopic image over the entire screen, the liquid crystal panel 2
The distance between the liquid crystal panel 2 and the parallax barrier 3 needs to be uniform, and a method of arranging the liquid crystal panel 2 and the parallax barrier 3 in contact with each other is effective. In the configuration shown in FIG. 4, the surface on which the stripe-shaped light-shielding thin film 32 having a thickness of about 2 μm is formed as the parallax barrier 3 faces the liquid crystal panel 2. In the configuration shown in FIG. 5, the surface of the parallax barrier 3 on which the stripe-shaped light-shielding thin film 32 is not formed is disposed facing the liquid crystal panel 2.

As described above, the striped light-shielding thin film 31
The viewing distance can be changed by changing the distance between the surface of the liquid crystal panel 2 and the pixel of the liquid crystal panel 2. Then, in order to adjust the observation distance, as shown in FIG.
In some cases, a spacer glass plate 4 is inserted between the liquid crystal panel 2 and the liquid crystal panel 2.

As another method of the three-dimensional image display apparatus without glasses, there is a method using a lenticular lens 5 having a structure in which a large number of lens-like lenses are arranged as means for separating left and right images as shown in FIG. . In this lenticular lens system, a lenticular lens 5 is provided on the viewer side of the liquid crystal panel 2 to separate left and right images. Also in this method, in order to observe a clear stereoscopic image over the entire screen, the distance between the liquid crystal panel 2 and the lenticular lens 5 needs to be uniform, and the liquid crystal panel 2 and the lenticular lens 5 are arranged in contact with each other. The method is effective.

As another method of a three-dimensional image display apparatus without glasses, a stripe pattern is formed on a glass substrate between a liquid crystal panel and a backlight, as disclosed in Japanese Patent Application Laid-Open No. Hei 7-181429. It is known to observe a stereoscopic image by arranging an optical filter and converting the light from the light source into stripe-shaped light and separating and entering this light into pixels for the left eye and pixels for the right eye. I have.

Further, as another method, Japanese Patent Laid-Open No.
As disclosed in JP-A-110495, an optical filter having a stripe pattern formed on a glass substrate is arranged on both sides of a liquid crystal panel, and a crosstalk area is reduced so that a stereoscopic image can be observed with maximum illuminance. There is.

Further, as disclosed in Japanese Patent Application Laid-Open No. 8-194190, an optical filter in which red, blue and green color filters are formed on a glass substrate is disposed on one or both sides of a color liquid crystal panel. There is an apparatus for observing a stereoscopic image by limiting the traveling direction of light for each color by an optical filter.

In any of these three-dimensional image display devices, in order to observe a clear three-dimensional image over the entire screen, it is necessary to make the distance between the liquid crystal panel as the image display panel and the optical filter uniform. A method of arranging the panel and the optical filter in contact with each other is effective.

[0011]

The conventional stereoscopic image display apparatus without glasses employs a method in which a liquid crystal panel as an image display panel and an optical separating means such as an optical filter are arranged in contact with each other. A minute gap is formed between the image display panel and the optical separation means, and the gap varies depending on the location. As a result, an optical path difference occurs between the light reflected on the liquid crystal panel on the contact surface and the light reflected on the optical separation means side of the contact surface. Is visually recognized.
This colored pattern gives the viewer discomfort.

The present invention has been made in view of the above circumstances, and provides a stereoscopic image display apparatus without glasses for preventing a colored pattern generated on a contact surface between an image display panel and an optical separating means such as an optical filter. It is intended to do so.

[0013]

According to the present invention, there is provided a display panel comprising a first pixel group and a second pixel group to form a display screen, and the display panel is arranged so as to be in contact with the backlight side of the display panel. 1. A stereoscopic video display device comprising: an optical separation unit that separates light of a first pixel group and light of a second pixel group into left and right, at least one of a contact surface between the optical separation unit and a display panel. Is provided with an anti-reflection coating over the entire contact surface.

[0014]

According to the configuration of the present invention described above, at least one of the light reflected on the display panel side of the contact surface and the light reflected on the optical separation means side of the contact surface is reduced.
The colored pattern resulting from the optical path difference generated between the two reflected lights is not visually recognized, and a clear stereoscopic image can be seen.

According to the present invention, there is provided a backlight, an optical filter for dispersing light from the backlight into right and left lights, and an optical filter disposed to be in contact with the optical filter and transmitting or diffusing light from the optical filter. A dispersion type liquid crystal panel; and a liquid crystal panel arranged to be in contact with the dispersion type liquid crystal panel and forming a display screen by a first pixel group and a second pixel group. At least one of the contact surfaces of the liquid crystal panel is provided with an anti-reflection coating over the entire contact surface, and at least one of the contact surfaces of the dispersion type liquid crystal panel and the liquid crystal panel over the entire contact surface. It is characterized by having an anti-reflection coating.

According to this configuration, at least one of the light reflected on the optical filter side of the contact surface and the light reflected on the dispersion type liquid crystal panel side of the contact surface is reduced.
The colored pattern resulting from the optical path difference generated between the two reflected lights becomes invisible to the observer, and the light reflected on the liquid crystal panel side of the contact surface and the light reflected on the liquid crystal panel side of the contact surface Since at least one of them is reduced, a colored pattern resulting from an optical path difference generated between two reflected lights is not visually recognized by an observer, and a clear image can be seen.

[0018]

Embodiments of the present invention will be described below with reference to the drawings. The same parts as those of the conventional example are denoted by the same reference numerals.

FIG. 1 is a schematic diagram showing a configuration of a stereoscopic video display apparatus according to a first embodiment of the present invention. A liquid crystal panel 2 serving as a video display panel and a surface of the liquid crystal panel 2 are brought into contact with each other. A parallax barrier is provided as optical separation means for separating left and right images.

As in the above-described conventional example, the parallax barrier 3 is formed by forming a large number of stripe-shaped light-shielding thin films 32 on a substrate 31 such as glass or transparent resin. 2
It is arranged so that it may contact the surface of. In FIG.
Of the liquid crystal panel 2 is in contact with the surface of the liquid crystal panel 2.

The above-described liquid crystal panel 2 has a glass substrate 22
A liquid crystal layer 23 is provided between the glass substrate 24 and the light-exiting-side glass substrate 22, and an incident-side polarizer 25 is provided on the light-incident-side glass substrate 24. I have. Then, the liquid crystal layer 2 of the liquid crystal panel 2
The image for the right eye and the image for the left eye are displayed every other row in 3.
The right-eye image transmitted through the light from the backlight 1 is separated by the parallax barrier 3, and only the left-eye image is observed by the observer's left eye 10L, and only the right-eye image is observed by the right eye 10R. A stereoscopic image is recognized.

When the surfaces of glass and glass, glass and resin, or resin and resin are arranged so as to be in contact with each other, light such as a Newton ring caused by the optical path difference of the light reflected by the two surfaces at the interface is obtained. Interference fringes occur.

Therefore, in the present invention, the surface of the polarizing plate 21 of the liquid crystal panel 2 is provided with an antireflection coating 26. For this reason, light reflected on the liquid crystal panel 2 side of the contact surface is reduced, and the intensity of the reflected light that interferes is reduced, so that a colored pattern is not visually recognized by an observer, and a clear stereoscopic image can be viewed.

The anti-reflection coating 26 includes:
For example, there is a method of forming a transparent thin film having a refractive index smaller than that of the substrate on the substrate. Further, when this thin film is formed into a multilayer film, reflection can be effectively reduced. As an example,
There is a method of applying a multilayer film of MgF ₂ , cryolite, or the like to a glass substrate by a vacuum evaporation method.

In this embodiment, the anti-reflection coating 26 is applied to the polarizing plate 21 of the liquid crystal panel 2. However, the anti-reflection coating 26 may be applied to the substrate 31 side of the parallax barrier 3; 2 polarizing plate 2
The antireflection coating 26 may be applied to both surfaces of the substrate 1 and the parallax barrier 3. In particular, when the decrease in the amount of reflected light due to the coating is small, it is effective to apply an antireflection coating to both surfaces.

When a spacer such as glass is inserted between the liquid crystal panel and an optical separation means such as a parallax barrier to adjust the observation distance, at least one of the contact surfaces between the liquid crystal panel and the spacer is used. The same effect can be obtained by applying an anti-reflection coating to at least one of the contact surfaces of the spacer and the optical separation means.

In this embodiment, the anti-reflection coating is applied directly to the contact surface. However, as shown in FIG.
A resin sheet 27 having an anti-reflection coating 26 may be attached to the contact surface via an adhesive 28.

FIG. 3 shows a second embodiment of the present invention, which comprises a liquid crystal panel for displaying an image and a lenticular lens 5 as an optical separating means for separating the left and right images. The lenticular lens 5 may have a structure in which a large number of lens-shaped lenses are arranged, or a lens in which a glass plate is provided with a refractive index distribution by ion exchange to obtain the same effect. In this embodiment, the polarizing plate 2 of the liquid crystal panel 2
An anti-reflection coating 26 is applied to the surface of the first and / or flat surface of the lenticular lens 5. Due to this antireflection coating 26, light reflected on the liquid crystal panel 2 side and / or the lenticular 5 side of the contact surface is reduced,
Since the intensity of the interfering reflected light is low, the colored pattern is not visually recognized by the observer, and a clear stereoscopic image can be viewed.

The image display panel is not limited to the liquid crystal panel 2. Furthermore, the optical separation means is not limited to the parallax barrier 3 and the lenticular lens 5 as long as it separates an image.
Like the stereoscopic image display device disclosed in
An optical filter provided between the backlight and the liquid crystal panel may be used.

Further, as disclosed in Japanese Patent Application No. 6-195299, an optical filter is provided on both sides of a liquid crystal panel by providing an antireflection coating on a contact surface between the optical filter and the liquid crystal panel. The effect of is obtained.

Also, as disclosed in Japanese Patent Application Laid-Open No. 8-194190, even if a color liquid crystal panel is provided with an optical filter having a color filter provided on a glass substrate on one or both sides, the liquid crystal panel is The same effect can be obtained by applying an antireflection coating to the contact surface with the optical filter.

By the way, it is possible to switch and display a three-dimensional image and a two-dimensional image which are visible without using glasses.
When displaying a two-dimensional image, the observer is not limited to a specific position, and a two-dimensional image / three-dimensional image compatible display device capable of observing a good two-dimensional image without a moiré in a wide range, For example, it is proposed in Japanese Patent Application No. 8-105845.

This two-dimensional video / three-dimensional video compatible display device has a liquid crystal panel in which a first pixel group and a second pixel group are formed, and a diffusion type liquid crystal layer including a dispersion type liquid crystal layer, in order from the viewer. The liquid crystal panel includes a dispersion type liquid crystal panel which is an effect ON / OFF panel, an optical filter having a transmission part and a light shielding part, and a backlight. As described above, when the surfaces of glass and glass, glass and resin, or resin and resin are arranged so as to be in contact with each other, light such as Newton rings caused by the optical path difference of the light reflected on the two surfaces at the interface. Is generated.

Therefore, an antireflection coating is applied to at least one of the contact surfaces between the optical filter and the dispersion type liquid crystal panel, and an antireflection coating is applied to at least one of the contact surfaces between the dispersion type liquid crystal panel and the liquid crystal panel. For example, the intensity of the interfering reflected light is reduced, so that a colored pattern is not visually recognized by an observer, and a clear stereoscopic image can be viewed.

[0035]

As described above, the stereoscopic display device without glasses according to the present invention provides an anti-reflection coating on at least one surface between the backlight side of the image display panel and the optical separation means, thereby providing a contact-free coating. Obtaining a clear stereoscopic image by preventing a colored pattern caused by an optical path difference generated between light reflected on the display panel side of the surface and light reflected on the optical separation unit side of the contact surface from being seen by a viewer. Can be.

[Brief description of the drawings]

FIG. 1 is a schematic diagram illustrating a configuration of a stereoscopic video display device according to a first embodiment of the present invention.

FIG. 2 is a schematic diagram showing another configuration of the stereoscopic video display device according to the first embodiment of the present invention.

FIG. 3 is a schematic diagram illustrating a configuration of a stereoscopic image display device according to a second embodiment of the present invention.

FIG. 4 is a schematic diagram showing a configuration of a conventional stereoscopic video display device.

FIG. 5 is a schematic diagram illustrating another configuration of a conventional stereoscopic video display device.

FIG. 6 is a schematic diagram showing still another configuration of the conventional stereoscopic video display device.

FIG. 7 is a schematic diagram showing a configuration of another conventional stereoscopic video display device.

[Explanation of symbols]

 Reference Signs List 1 backlight 2 liquid crystal panel 3 parallax barrier 21, 25 polarizing plate 22, 24 glass substrate 26 anti-reflection coating

Continued on the front page (58) Fields surveyed (Int. Cl. ⁷ , DB name) G02B 27/22 G02F 1/13 G03B 35/18 H04N 13/04 G02B 1/11

Claims (2)

(57) [Claims] 1. A display panel comprising a first pixel group and a second pixel group to form a display screen, and a light from the first pixel group which is arranged to be in contact with a backlight side of the display panel. A three-dimensional image display device comprising: an optical separation unit that separates light of the second pixel group into right and left, wherein at least one of the contact surfaces between the optical separation unit and the display panel has the entire contact surface. A three-dimensional image display device, wherein an anti-reflection coating is applied over the entire surface. 2. A backlight, an optical filter for dispersing light from the backlight into left and right lights, and a dispersive liquid crystal panel disposed so as to be in contact with the optical filter and transmitting or diffusing light from the optical filter. And a liquid crystal panel arranged so as to be in contact with the dispersion type liquid crystal panel and constituting a display screen by the first pixel group and the second pixel group. on at least one side surface, with an anti-reflective coating throughout said contact surface it is applied to at least one of the contact surfaces of the dispersion type liquid crystal panel and the liquid crystal panel,該接
A three-dimensional image display device, wherein an anti-reflection coating is applied to the entire touch surface.