KR101768479B1 - Stereoscopic image display device - Google Patents

Abstract

The present invention relates to a stereoscopic image display apparatus capable of eliminating a cross talk by matching a liquid crystal lens or a barrier formed on a switchable panel with the shape of a unit pixel of a liquid crystal panel, A stereoscopic image display device includes: a display panel which emits a two-dimensional image and in which unit pixels having at least one bent portion are arranged in a matrix form; And a switchable panel formed on the display panel and outputting the two dimensional image as a three dimensional image according to a voltage applied thereto, the switchable panel having a switchable boundary, n = natural number) of the unit pixels.

Description

[0001] STEREOSCOPIC IMAGE DISPLAY DEVICE [0002]

The present invention relates to a stereoscopic image display device, and more particularly, to a stereoscopic image display device capable of eliminating a cross talk.

The services that will be realized for speeding up the information to be constructed based on the high-speed information communication network today are multi-view and listen multi-functions such as the current telephone, centered on digital terminals that process characters, It is expected to evolve into a media-type service, and ultimately to a super-space stereoscopic information communication service that "sees, feels, and enjoys in realistic, stereoscopic, transcendent space."

Generally, a stereoscopic image expressing a three-dimensional (3D) image is made by the principle of stereoscopic vision through two eyes. Since the time difference between the two eyes, ie, the two eyes, is about 65 mm apart, the left and right eyes see slightly different images due to the difference in position of the two eyes. Thus, the difference in the image due to the positional difference between the two eyes is referred to as binocular disparity.

The 3D stereoscopic image display device allows the left eye to see only the image of the left eye and the right eye to see only the right eye image using the binocular parallax so that the user can feel the binocular disparity and feel the stereoscopic effect. In other words, the left and right eyes see different two-dimensional images, and when these two images are transmitted to the brain through the retina, the brain fuses them precisely to reproduce the depth and real feeling of the original three-dimensional image. This capability is commonly referred to as stereography, and an apparatus using the same as a display device is referred to as a stereoscopic image display device.

On the other hand, the stereoscopic image display apparatus can be divided into a spectacle type and a non-eye type according to the presence or absence of glasses in a method of implementing a three-dimensional image. The non-eyeglass system has a switchable panel type and a lenticular type according to the shape of a structure that implements a three-dimensional image.

The switchable panel method emits a two-dimensional image or a three-dimensional image according to a voltage application, and the lenticular method implements a stereoscopic image by attaching a semi-cylindrical lenticular sheet on a display panel.

A switchable panel is defined by a plurality of switchable areas corresponding to each other, wherein one switchable area, which is one of the plurality of switchable areas, is defined to have a width corresponding to one pitch (P). The one switchable area is defined as being vertically long, and is repeated periodically in the horizontal direction.

1 is a plan view showing a mismatching between the shape of a unit pixel and the shape of a liquid crystal lens in a conventional stereoscopic image display apparatus.

An error region is generated at the edge of the liquid crystal lens 20a unless the liquid crystal lens 20a formed on the switchable panel (not shown) matches the unit pixel 10a of the display panel 10 as shown in Fig. In this case, there arises a problem such as a cross talk in which images to be viewed respectively by the viewer's left eye and right eye overlap each other. For example, if the unit pixel 100a of the display panel 100 is curved, the unit pixel 100a and the liquid crystal lens 20a formed on the switchable panel are mismched.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a liquid crystal display device capable of eliminating cross talk by matching a liquid crystal lens or a barrier formed on a switchable panel with a shape of a unit pixel of a liquid crystal panel A stereoscopic image display device is provided.

According to an aspect of the present invention, there is provided a stereoscopic image display device including: a display panel having unit pixels having at least one bent portion emitting a two-dimensional image and arranged in a matrix; And a switchable panel formed on the display panel and adapted to emit the two dimensional image as a three dimensional image according to a voltage applied thereto, the switchable panel having a plurality of switchable areas, wherein the boundary of the switchable area is m m = natural number) of the unit pixels.

The stereoscopic image display device of the present invention can eliminate the cross talk by forming a liquid crystal lens or a barrier on the switchable panel so as to match with the shape of the unit pixel of the display panel.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view showing a mismatching between the shape of a unit pixel and the shape of a liquid crystal lens in a conventional stereoscopic image display apparatus. FIG.
2 is a plan view of a stereoscopic image display apparatus according to a first embodiment of the present invention;
3 is a sectional view of a switchable panel of a stereoscopic image display apparatus according to the first embodiment of the present invention.
4 is a plan view of a switchable panel of a stereoscopic image display apparatus according to the first embodiment of the present invention.
5 is a plan view of a stereoscopic image display apparatus according to a second embodiment of the present invention.
6 is a sectional view of a switchable panel of a stereoscopic image display apparatus according to a second embodiment of the present invention.

Hereinafter, a stereoscopic image display device according to the present invention will be described in detail with reference to the accompanying drawings.

The stereoscopic image display apparatus of the present invention is a stereoscopic image display apparatus of a switchable panel type formed on a display panel for emitting a two dimensional image and outputting a two dimensional image as a three dimensional image.

In the switchable panel method, a switchable panel for outputting a two-dimensional image and converting a two-dimensional image into a three-dimensional image is provided on a display panel composed of a plurality of unit pixels to realize a stereoscopic image. There are a switchable liquid crystal lens type and a switchable barrier type.

In the liquid crystal lens system, a parabolic surface is formed in the liquid crystal layer to optically obtain a lens effect. Thereby, the stereoscopic image can be viewed by recognizing the two-dimensional image emitted from the liquid crystal panel as a three-dimensional image.

In a barrier type stereoscopic image display device, a liquid crystal layer is divided into a black region and a white region according to the arrangement of liquid crystal molecules. Thus, the viewer can view the three-dimensional image by printing the two-dimensional image outputted from the liquid crystal panel through the white area as the three-dimensional image.

* First Embodiment *

The stereoscopic image display apparatus of the first embodiment of the present invention is a stereoscopic image display apparatus of a liquid crystal lens type.

FIG. 2 is a plan view of a stereoscopic image display apparatus according to a first embodiment of the present invention, and FIG. 3 is a sectional view of a switchable panel of a stereoscopic image display apparatus according to the first embodiment of the present invention. 4 is a plan view of a switchable panel of a stereoscopic image display apparatus according to the first embodiment of the present invention, in which only a first substrate and a plurality of first electrodes are shown.

2 and 3, the stereoscopic image display apparatus according to the first embodiment of the present invention includes a display panel 100 in which unit pixels 100a emitting a two-dimensional image and having at least one bent portion are arranged in a matrix form, And a switchable panel 200 formed on the display unit 100 and emitting a two-dimensional image as a three-dimensional image and having a plurality of switchable areas.

The switchable panel 200 has a width corresponding to the width of n (n = natural number) unit pixels 100a of the display panel 100 and has a width of m (m = natural number) A liquid crystal lens 200a is formed so as to correspond thereto. That is, the boundary of the liquid crystal lens 200a may be the same as or similar to the boundary of m (m = natural number) unit pixels 100a. Thereby, the liquid crystal lens 200a and the unit pixel 100a are matched with each other, so that the cross talk can be removed.

The display panel 100 may include a liquid crystal display device, an organic light emitting display device, a plasma display panel, a field emission display device, Or the like may be used. The two-dimensional image outputted from the display panel 100 passes through the switchable panel 200 and is converted into a three-dimensional image.

The switchable panel 200 includes a first substrate 210 and a second substrate 260 opposed to each other and a plurality of first electrodes 210 formed on the first substrate 210, A second electrode 250 formed on the entire surface of the second substrate 260, a liquid crystal layer 240 between the first substrate 210 and the second substrate 260, and a plurality of first electrodes 220 (Not shown) and a second alignment layer (not shown) formed on the first electrode 250 and the second electrode 250, respectively.

When the voltage applied to the plurality of first electrodes 210 from the center to the edge of one switchable area is gradually increased, the switchable panel 200 has a parabolic curve with the curvature increasing from the center to the edge And the liquid crystal lens 200a having the lowest potential level at the edge) is formed. The two-dimensional image incident on the switchable panel 200 through the liquid crystal lens 200a is emitted as a three-dimensional image.

However, as described above, when the unit pixel 100a of the display panel 100 has at least one bent portion, a typical stereoscopic image display device can display the shape of the unit pixel 100a and the liquid crystal display The shape of the lens is mismatching and a cross talk in which the images to be respectively viewed by the left and right eyes of the viewer overlap each other occurs.

A plurality of first electrodes 220 of the switchable panel 200 are formed in a long bar shape regardless of the shape of the unit pixel 100a and the liquid crystal of the liquid crystal layer 240 is formed only in one direction Orientation.

4, a plurality of first electrodes 220 of the switchable panel 200 are formed in a shape in which the bent portions are repeated along the boundary of the unit pixels 100a in the vertical direction, The first and second alignment layers (not shown) are aligned in a direction parallel to the plurality of first electrodes 220.

In general, a rubbing method for orienting an alignment film allows orientation of the liquid crystal by physical friction, and the alignment film can be oriented in only one direction. However, the present invention uses the UV alignment method to orient the alignment film in various directions. The UV alignment method aligns the alignment layer by irradiating UV light in a noncontact manner, so that the first and second alignment layers (not shown) can be aligned according to the shapes of the plurality of first electrodes 220.

In the figure, the liquid crystal is a positive liquid crystal. When the liquid crystal is a negative liquid crystal, first and second alignment films (not shown) are formed in a direction perpendicular to the plurality of first electrodes 220 ). The positive liquid crystal is a liquid crystal in which the liquid crystal has a larger longitudinal axis permittivity than the uniaxial permittivity, and liquid crystals are arranged in a direction in which the long axis direction of the liquid crystal is parallel to the plurality of first electrodes 220. The negative liquid crystal is a liquid crystal in which the short axis direction permittivity of the liquid crystal is larger than the long axis permittivity, and the liquid crystal is arranged in a direction in which the long axis direction of the liquid crystal is perpendicular to the plurality of first electrodes 220.

Accordingly, when a voltage is applied to the plurality of first electrodes 220 and the second electrodes 250 of the switchable panel 200 to emit a three-dimensional image, n (n) of the switch panel 200 is applied to the switchable panel 200, the liquid crystal lens 200a has a width corresponding to the width of the unit pixel 100a corresponding to the number of unit pixels 100a (n = natural number) and corresponds to the unit pixel 100a boundary of m (m = natural number)

That is, in the stereoscopic image display device of the present invention, the shape of the unit pixel 100a of the display panel 100 and the shape of the liquid crystal lens 200a are matched to eliminate the cross talk.

* Second Embodiment *

FIG. 5 is a plan view of a stereoscopic image display apparatus according to a second embodiment of the present invention, and FIG. 6 is a sectional view of a switchable panel of a stereoscopic image display apparatus according to a second embodiment of the present invention.

The stereoscopic image display device of the second embodiment of the present invention is a barrier stereoscopic image display device, which is different from the switchable panel only, and the other components are the same as those of the first embodiment.

5 and 6, the stereoscopic image display apparatus according to the second embodiment of the present invention includes a display panel 100 in which unit pixels 100a emitting a two-dimensional image and having at least one bent portion are arranged in a matrix form, And a switchable panel 300 formed on the display unit 100 and emitting a two-dimensional image as a three-dimensional image and having a plurality of switchable areas.

The switchable panel 300 has a width corresponding to the width of n unit pixels 100a of n number of unit pixels 100a of the display panel 100 and a boundary of m unit pixels 100a of m A black region 300a and a white region 300b are formed so as to correspond to the black region 300a. That is, the black region 300a and the white region 300b are matched with the unit pixel 100a of the display panel 100, and crosstalk can be removed.

Specifically, the switchable panel 300 includes a first substrate 310, a second substrate 360, and a plurality of first and second substrates 310 and 310 formed on the first substrate 310, A second electrode 350 formed on the entire surface of the second substrate 360, a liquid crystal layer 340 between the first substrate 310 and the second substrate 360, a plurality of first electrodes 350, (Not shown) and a second alignment layer (not shown) formed on the first substrate 310 and the second substrate 360, respectively, formed on the first substrate 310 and the second substrate 350, And second polarizing plates 370a and 370b.

When a voltage is applied to the plurality of first electrodes 320 and the second electrodes 350 of the switchable panel 300 to emit a three-dimensional image, the liquid crystal layer 340 corresponding to one switchable region according to the arrangement of the liquid crystal, Are divided into a black region 300a and a white region 300b. However, if the unit pixel 100a has at least one bent portion, the unit pixel 100a of the black region 300a and the white region 300b of the display panel 100 do not match and crosstalk occurs.

In order to prevent this, the stereoscopic image display device according to the second embodiment of the present invention includes a plurality of first electrodes 320 of the switchable panel 300 as a unit pixel 100a in the vertical direction, And the first and second alignment layers (not shown) are aligned in a direction parallel to the plurality of first electrodes 320.

That is, the switchable panel 300 has a width corresponding to the width of n (n = natural number) unit pixels 100a of the display panel 100, and m (m = natural number) The black region 300a and the white region 300b are formed so as to correspond to the boundary so that the shape of the unit pixel 100a and the barrier shape composed of the black region 300a and the white region 300b are matched.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Will be apparent to those of ordinary skill in the art.

100: display panel 100a: unit pixel
200, 300: switchable panel 200a: liquid crystal lens
210, 310: a first substrate 220, 230: a plurality of first electrodes
240, 340: liquid crystal layer 250, 350: second electrode
260, 360: second substrate 300a: black region
300b: white region 370a: first polarizer plate
370b: second polarizer plate

Claims (5)

A display panel which emits a two-dimensional image and in which unit pixels having at least one bent portion are arranged in a matrix form; And
And a switchable panel formed on the display panel and outputting the two-dimensional image as a three-dimensional image according to a voltage application, the switchable panel having a plurality of switchable areas,
The boundary of the switchable area corresponds to the boundary of m (m = natural number) of the unit pixels,
Wherein the switchable panel comprises: a first substrate and a second substrate facing each other;
A plurality of first electrodes formed for the switchable regions on the first substrate;
A second electrode formed on the second substrate;
A liquid crystal layer between the first substrate and the second substrate; And
A first alignment layer and a second alignment layer formed on the plurality of first electrodes and the second electrode, respectively,
Wherein the plurality of first electrodes have a shape in which the bent portion is repeated along the boundary of the unit pixels in the vertical direction,
Wherein the first alignment layer and the second alignment layer are oriented along the bent portion of the plurality of first electrodes in a direction parallel to the bent portion. delete The stereoscopic image display apparatus of claim 1, wherein the switchable panel further comprises first and second polarizing plates respectively formed on the first substrate and the second substrate. delete delete

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