KR101345730B1 - Image Display Device Displaying Enlarged Image - Google Patents

Abstract

The present invention relates to an image display device, and more particularly, to an image display device for displaying an image of a larger area than the display panel.

According to an exemplary embodiment of the present invention, a display panel displaying a plurality of images, a viewing region generating unit disposed on the front of the display panel, and generating a plurality of viewing regions corresponding to the plurality of images, and among the top, bottom, left, and right sides of the display panel. An image displaying an enlarged image including first and second reflectors disposed at two selected ends and reflecting second to fourth images of the plurality of images at the same viewing area as a first image of the plurality of images; We propose a display device.

Field of view, parallax barrier, lenticular lens

Description

Image Display Device Displaying Enlarged Image

 1 is a view for explaining the operation of a general parallax barrier type video display device.

2A and 2B are diagrams schematically illustrating a structure of an image display apparatus displaying an enlarged image and a view generation unit thereof according to the first embodiment of the present invention.

3A and 3B are diagrams schematically illustrating a structure of an image display apparatus displaying an enlarged image and a view generation unit thereof according to a second embodiment of the present invention.

4 is a view for explaining the shape of the image displayed in the second embodiment of the present invention.

5A to 5C are diagrams for describing an arrangement of an image pixel of an actual display panel, an arrangement of an image pixel perceived by an observer, and a form of an image displayed in the second embodiment of the present invention.

6 is a diagram schematically illustrating a structure of an image display apparatus displaying an enlarged image according to a third exemplary embodiment of the present invention.

FIG. 7 is a diagram for describing a form of an image displayed in the third embodiment of the present invention. FIG.

8A to 8C are diagrams for describing an arrangement of image pixels of an actual display panel, an arrangement of image pixels perceived by an observer, and a form of an image displayed in the third embodiment of the present invention.

9 is a diagram schematically illustrating a structure of an image display apparatus displaying an enlarged image according to a fourth exemplary embodiment of the present invention.

FIG. 10 is a diagram for describing a form of an image displayed in the fourth embodiment of the present invention. FIG.

11A to 11C are diagrams for describing an arrangement of an image pixel of an actual display panel, an arrangement of an image pixel recognized by an observer, and a form of an image displayed in the fourth embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

I1, I2: first and second images VZ1, VZ2: first and second images

PI1 to PI2: first and second image pixels 20: display panel

30: city generation unit 40: observer

50: reflector

The present invention relates to an image display device, and more particularly, to an image display device for displaying an image of a larger area than the display panel.

In general, an image display apparatus for displaying an image includes a display panel on which an image is actually displayed and a driving unit for driving the image, and a plurality of pixels in the form of a two-dimensional matrix are formed on the display panel. Such an image display device subdivides one image to be displayed in each pixel unit and displays one screen through the display panel.

Each of the image display apparatuses has different viewing angle characteristics according to the type of implementation elements of the display panel. In particular, in the case of a liquid crystal display, an image is displayed by using light passing through a liquid crystal layer provided in the display panel. Since a path of light passing through the liquid crystal layer varies depending on the viewing angle, an image different from a desired image may be different from a desired viewing angle. It may be displayed.

Recently, barriers are formed for each position specified between the display panel and the observer, so that the pixels viewed between the barriers are different depending on the viewing angle. Barrier-type image display apparatuses for forming a viewing zone have been proposed. Such a barrier type image display device may display pixels different from each other that contribute to different viewing areas, and display different image signals with these pixels, so that different images may be displayed at different viewing areas.

A three-dimensional image display apparatus has been proposed in which the characteristics of the image display apparatus are applied to a three-dimensional image implementation, which is based on the stereo visual principle of two eyes.

The parallax between two eyes, that is, the binocular parallax due to the distance between two eyes that are about 65mm apart, is an important factor that makes the object look three-dimensional. Fusion of these two different images can reproduce the original depth and reality of the three-dimensional image.

Among these three-dimensional display methods, a parallax barrier (Parallax) that allows a viewer to feel three-dimensional by arranging a stripe-shaped opening and a barrier between the display panel and the viewer that simultaneously display left and right stereo images. barrier) and lenticular lens system.

1 is a view for explaining the operation of a general parallax barrier type video display device.

Referring to the drawings, the parallax barrier type image display apparatus 1 includes a display panel 2 and a parallax barrier 3 that simultaneously display left and right images.

The display panel 2 alternately defines a left eye pixel L for displaying a left eye image and a right eye pixel R for displaying a right eye image. The parallax barrier 3 includes a display panel 2 and an observer ( 4) is placed between. In the parallax barrier 3, an opening 6 and a barrier 8 for selectively passing the light from the left and right pixels L and R, respectively, are repeatedly arranged in the form of a stripe in a vertical direction with respect to the viewer.

Accordingly, the left eye image I _L displayed on the left eye pixel L of the display panel 2 reaches the left eye of the observer 4 through the opening 8 of the parallax barrier 3 and the display panel ( The right eye image I _R displayed in the right eye pixel R of 2) reaches the right eye of the observer 4 through the opening 8 of the parallax barrier 3, wherein the left / right eye images I _L , I _R ) contains separate images considering the parallax that can be detected by humans, and the observer 4 combines the two images to recognize a three-dimensional stereoscopic image.

SUMMARY OF THE INVENTION An object of the present invention is to provide an image display apparatus for applying an image display apparatus for displaying an enlarged image as described above, and having a plurality of reflecting portions at an end of a display panel to enlarge and display an original image. .

In order to achieve the above object, an image display apparatus for displaying an enlarged image of the present invention comprises: a display panel for displaying a plurality of images; A viewing area generation unit disposed at a front surface of the display panel and generating a plurality of viewing areas corresponding to the plurality of images; First and second sides disposed at first and second side ends selected among upper, lower, left, and right sides of the display panel, and reflecting the second to fourth images of the plurality of images at the same viewing area as the first image of the plurality of images; It characterized in that it comprises a reflector.

The viewing generation unit selectively passes through the image from the display panel, and includes openings and barriers repeatedly arranged in a grid.

The viewing unit generates a parallax barrier or a lenticular lens.

과 같거나 보다 작은 것을 특징으로 한다.The first and second reflectors may be configured to determine a distance between an observer and the display panel.

It is characterized in that less than or equal to.

The second to fourth images may be inverted in left, right, up, down, left, and right directions, respectively, based on the first image.

The display apparatus may further include a third reflector disposed at a third side end of the display panel and reflecting a fifth to sixth image of the plurality of images to the same viewing area as the first image.

The fifth to sixth images may be inverted in up, down, left, and right directions, respectively, based on the first image.

And a fourth reflector disposed at a fourth side end of the display panel to reflect the seventh to ninth images of the plurality of images to the same viewing area as the first image.

The seventh to ninth images may be inverted in the up, down, left, right, up, down, left, and right directions based on the first image.

The display panel includes a liquid crystal display (LCD), a field emission display (FED), a plasma display panel, an organic electroluminescence display device (OLED), and an organic light emitting display device (OLED). It is characterized in that one of).

Hereinafter, an image display apparatus for displaying an enlarged image according to a first embodiment of the present invention will be described with reference to the accompanying drawings.

2A and 2B schematically illustrate the structure of an image display apparatus displaying an enlarged image according to a first embodiment of the present invention, and a view generation unit thereof, and the enlarged image shown in FIG. The image display device to be displayed is a reflection panel disposed at one end of the display panel when the display panel 20, the viewing area generating unit 30 in front of the display panel 20, and the display panel 20 have a predetermined angle θ. A portion 50 is included.

In more detail, the display panel 20 sequentially arranges the first and second image pixels PI1 and PI2 for displaying the first and second images I1 and I2, respectively. ) And the first and second viewing areas VZ1 and VZ2 are formed.

As shown in FIG. 2B, the viewing region generation unit 30 is arranged in a lattice pattern with a barrier 32 and an opening 34 for selectively passing images from the display panel 20. The viewing unit 30 may be implemented as a parallax barrier or a lenticular lens.

The first and second images I1 and I2 may be composed of partial images obtained by dividing a single image. For example, after dividing an image into two parts to obtain upper and lower partial images, the upper partial image is The second image I2 may be allocated, and the lower partial image may be allocated to the first image I1.

Accordingly, the first image I1 displayed on the first image pixel PI1 of the display panel 20 forms the first viewing region VZ1 via the viewing region generating unit 30, and the first image I1 of the display panel 20 is formed. The second image I2 displayed on the second image pixel PI2 forms the second viewing region VZ2 via the viewing region generating unit 30.

The reflection unit 50 forms a constant angle θ with the display panel 20 at the second viewing area VZ2, and the angle θ may have a value ranging from 80 degrees to 100 degrees. Preferably it has a value of 90 degrees. In addition, the reflector 50 is formed of a material having high reflectance, and generally a mirror is used.

Accordingly, among the images displayed by the display panel 20, the first image I1 goes straight without reflection to reach the first viewing area VZ1, while the second image I2 reaches the second viewing area VZ2. The light is reflected by the reflector 50 and transferred to the first viewing area VZ1.

Accordingly, the observer 40 located in the first viewing area VZ1 can view both the first and second images I1 and I2, and the second reflected by the reflector 50 from the viewpoint of the observer 40. The image I2 recognizes that the second image I2 is displayed on the virtual display panel 20a positioned on the upper extension line of the display panel 20 behind the reflector 50.

In this case, the virtual display panel 20a has a width substantially the same as that of the display panel 20.

Accordingly, the observer 40 recognizes the first and second images I1 and I2 displayed on the display panel 20 and the virtual display panel 20a, respectively.

The second image I2 displayed in the first viewing area displays an image reflected by the reflector 50, and accordingly, the second image I2 actually displayed on the display panel 20 is upward and downward. ) Is displayed in an inverted form, and the driving circuit (not shown) of the display panel 20 inverts the data signal corresponding to the second image I2 in advance and supplies it to the display panel 20.

As mentioned above, when the first and second images I1 and I2 are composed of partial images obtained by dividing one image, for example, after dividing an image into two parts, the upper and lower partial images are obtained. When assigning the lower partial image to the first image I1 and the upper partial image to the second image I2, the observer 40 combines the first and second images I1 and I2 to form a single image. The image is recognized as being displayed on one enlarged panel in which the display panel 20 and the virtual display panel 20a are combined.

Accordingly, since the virtual display panel 20a has substantially the same width as the display panel 20, the enlarged panel has a width substantially larger than the display panel 20 and the observer 40 has a first width. When looking at the viewing area (VZ1), you see an image enlarged twice in the horizontal direction.

Hereinafter, an image display apparatus for displaying an enlarged image according to a second embodiment of the present invention will be described with reference to the accompanying drawings.

In the following description, components of the same structure as those of the enlarged image display apparatus according to the first embodiment of the present invention are omitted in the method of enlarging an image for convenience, and only important parts will be described.

3A and 3B are diagrams schematically illustrating structures of an enlarged image display apparatus and a view generation unit according to a second embodiment of the present invention.

As shown in FIGS. 3A and 3B, the enlarged image display apparatus according to the second embodiment of the present invention includes a display panel 120, a viewing area generating unit 130 disposed above the display panel, and a display panel ( The first and second reflectors 150a and 150b may be disposed at one end of the display panel at a predetermined angle θ.

In more detail, the display panel 120 may implement the first to fourth images I1 to I4 obtained by dividing one image through the first to fourth image pixels PI1 to PI4. The image is divided into four and the upper, lower, left and right partial images are obtained, and the images allocated to each direction are different.

As illustrated in FIG. 3B, the viewing region generating unit 130 is repeatedly arranged in a lattice form with a barrier 132 and an opening 134 for selectively passing an image from the display panel 120. The viewing unit 130 may be implemented as a parallax barrier or a lenticular lens.

과 같거나 보다 작은 것이 바람직하다.In addition, the first and second reflectors 150 are disposed to form a constant angle θ with the display panel 120, and the angle θ has a value of 90 degrees. Here, a general mirror may be applied to the first and second reflectors 150a and 150b, and the lengths of the first and second reflectors 150a and 150b may reflect the entire screen of the display panel 120. Of the distance between the observer and the display panel

It is preferred to be less than or equal to.

Accordingly, since the image of the display panel 120 is reflected through the first and second reflecting parts 150a and 150b, the image when the reflecting part is provided in the general display panel is as shown in FIG. 4. The left and right are reversed.

In more detail, the first and second reflecting units 150a and 150b of FIG. 2A form first to third virtual panels 120a to 120c, and thus the first virtual panel 120a is a display panel. The left and right sides of the original image of 120 are displayed in an inverted form, and the third virtual panel 120c displays the image in a form in which the top and bottom of the original image are inverted, respectively.

In addition, the second virtual panel 120b is a ash virtual panel formed by reflecting the first virtual panel 120a and the third virtual panel 120c, respectively, and the second virtual panel 120b is a first virtual panel 120b. The image displayed on the virtual panel 120a (the image in which the left and right sides of the original image are inverted) is displayed in a vertically inverted form, and the image displayed on the third virtual panel 120c (the upper and lower sides of the original image is inverted) so as to overlap the image. The displayed image) is displayed in the inverted form.

In consideration of this, the display panel according to the second exemplary embodiment of the present invention receives a data signal inverted up, down, left, and right, up, down, left and right according to the viewing area through a data driving circuit (not shown) to display an image.

5A and 5C are views for explaining an arrangement of image pixels, an arrangement of image pixels perceived by an observer, and a form of an image displayed thereon, according to a third exemplary embodiment of the present invention; The display panel 120 includes first to fourth image pixels PI1 to PI4.

5B to 5B, the first to fourth image pixels PI1 to PI4 display the images corresponding to the display panel 120 and the first to third virtual display panels 120a to 120c, respectively. .

Here, the first image pixel PI1 receives a circular data signal without inversion of the original image and displays the image, and is recognized by the viewer at the position of the display panel 120.

The second image pixel PI2 receives a data signal of a form in which the left and right sides of the original image are inverted and displays an image, which is recognized by the observer at the position of the first virtual display panel 120a.

The third image pixel PI3 receives a data signal having an inverted top, bottom, left, and right sides of the original image and displays the image, which is recognized by the viewer at the position of the second virtual display panel 120b.

The fourth image pixel PI4 receives a data signal having an inverted top and bottom of the original image and displays the image, which is recognized by the viewer at the position of the third virtual display panel 120c.

Here, since the first to third virtual display panels 120a to 120c have substantially the same width as the display panel 120, the enlarged panel has a width that is substantially twice larger than that of the display panel 120. As shown in FIG. 5C, an observer views an image enlarged to 2 times and 4 times in the horizontal and vertical directions, respectively.

6 is a diagram schematically illustrating an enlarged image display apparatus according to a third embodiment of the present invention.

As shown in FIG. 6, an enlarged image display apparatus according to a third exemplary embodiment of the present invention includes a display panel 220, a viewing area generating unit 230 disposed above the display panel, a display panel 220, When the predetermined angle θ is formed, the first, second, and third reflectors 250a, 250b, and 250c are disposed at the ends of the display panel.

More specifically, the display panel 220 may implement first to sixth images I1 to I6 obtained by dividing one image, which is obtained by dividing a single image into six equal parts to obtain upper, lower, left, and right partial images. Different images are assigned in each direction.

The viewing region generating section 230 has the same structure as the viewing section generating section 130 of FIG. 3B according to the second embodiment shown in FIG. 3B, except that the size of the opening section 134 of FIG. 3B or the opening section 134 of FIG. The distance between the third and third) is further configured to be applied to the image pixel further provided with a third reflecting unit 250c.

과 같거나 보다 작은 것이 바람직하다.In addition, the first to third reflection parts 250a to 250c are disposed to form a constant angle θ with the display panel 220, and the angle θ has a value of 90 degrees. Here, a general mirror may be applied to the first to third reflectors 250a to 250c, and the lengths of the first and second reflectors 250a and 250c may reflect the entire screen of the display panel 220. Of the distance between the observer and the display panel

It is preferred to be less than or equal to.

Accordingly, since the image of the display panel 220 is reflected through the first to third reflecting units 250a to 250c, the image when the reflecting unit is provided on the general display panel is as shown in FIG. 7. The left and right are reversed.

Accordingly, the image display apparatus displaying the enlarged image according to the third embodiment of the present invention displays the image through a data signal corresponding to the image inverted up, down, left, and right according to each position.

In more detail, the first to third reflective parts 250a to 250c of FIG. 3A form the first to fifth virtual panels 200a to 200e, and thus the first and fifth virtual panels 220a, 200e) displays the image in a form in which the left and right sides of the original image of the display panel 200 are inverted, and the third virtual panel 220c displays the image in a form in which the top and bottom of the original image are inverted.

In addition, the second and fourth virtual panels 220b and 220d are re-virtual panels formed by reflecting the first, third and fifth virtual panels 220a, 220c and 220e, respectively. The panel 220b displays an image (an image in which the left and right sides of the original image are inverted) displayed on the first virtual panel 220a is inverted up and down, and is displayed on the third virtual panel 220c so as to overlap the image. (The image in which the top and bottom of the original image are reversed) is displayed in the form of the left and right reversed.

 In addition, the fourth virtual panel 220d displays an image (an image in which the top and bottom of the original image are inverted) displayed on the third virtual panel 220c is inverted in left and right, and overlaps the fifth virtual panel ( The image displayed on the image 220c (the image in which the left and right sides of the original image are inverted) is displayed in a form in which the top and bottom are inverted.

In consideration of this, the display panel according to the third embodiment of the present invention receives a data signal inverted up, down, left, right, up, down, left, or right according to the viewing area through a data driving circuit (not shown) to display an image.

 8A to 8C are diagrams for describing an arrangement of image pixels, an arrangement of image pixels perceived by an observer, and a form of an image displayed on the display panel according to the third embodiment of the present invention. 220 includes first to sixth image pixels PI1 to PI6.

 The first to sixth image pixels display images corresponding to the display panel 220 and the first to fifth virtual display panels 220a to 220e, respectively.

Here, the first image pixel PI1 receives a circular data signal having no inversion of the original image and displays the image, and is recognized by the viewer at the position of the display panel 220.

The second image pixel PI2 and the sixth image pixel PI2 receive an input data signal in which the left and right sides of the original image are inverted and display an image, which is displayed by the viewer to the fifth and first virtual display panels 220e, respectively. , At position 220a.

The third and fifth image pixels PI3 and PI5 receive a data signal having a form in which the top, bottom, left, and right sides of the original image are inverted, and display the image. Is recognized at the position of.

The fourth image pixel PI4 receives a data signal of a form in which the top and bottom of the original image are inverted and displays an image, which is recognized by the observer at the position of the third virtual display panel 220c.

Here, since the first to fifth virtual display panels 220a to 220e have substantially the same width as the display panel 220, the enlarged panel is substantially three times larger in the horizontal and vertical directions than the display panel 220. And a width 2 times magnified, and the observer views an image enlarged 6 times in the horizontal and vertical directions as shown in FIG. 8C.

As shown in FIG. 9, the enlarged image display apparatus according to the fourth exemplary embodiment of the present invention includes a display panel 320, a viewing area generating unit 230 disposed above the display panel, a display panel 320, and a display panel 320. The first to fourth reflecting parts 350a to 350d disposed at the ends of the display panel when the predetermined angle θ is formed are included.

In more detail, the display panel 320 may implement the first to ninth images I1 to I9 obtained by dividing one image, which is obtained by dividing one image into nine equal parts to obtain upper, lower, left, and right partial images. Different images are assigned in each direction.

The viewing region generating portion 330 has the same structure as the viewing portion generating portion 130 of FIG. 3B according to the embodiment shown in FIG. 3B, except that the size of the opening portion 134 of FIG. 3B or the opening portion 134 of FIG. 3B is different. The interval between the third and fourth reflectors 350c and 350d is further provided to be applied to the added image pixel accordingly.

과 같거나 보다 작은 것이 바람직하다.Further, the first to fourth reflecting parts 350a to 350d are disposed to form a constant angle θ with the display panel 320, and the angle θ preferably has a value of 90 degrees. Here, a general mirror may be applied to the first to fourth reflectors 350a to 350d, and the lengths of the first and second reflectors 150a and 150b may reflect the entire screen of the display panel 120. Of the distance between the observer and the display panel

It is preferred to be less than or equal to.

Accordingly, since the image of the display panel 320 is reflected through the first to fourth reflecting units 350a to 350d, the image when the reflecting unit is provided in the general display panel is vertically up and down according to the position as shown in FIG. 10. The left and right are reversed.

Therefore, the image display apparatus displaying the enlarged image according to the fourth embodiment of the present invention displays the image through a data signal corresponding to the image inverted up, down, left, and right according to each position.

In more detail, the first to fourth reflecting units 350a to 350d in FIG. 9 form the first to eighth virtual panels 320a to 320h, and thus the second and sixth virtual panels 320b, 320f) displays the image in a form in which the left and right sides of the original image of the display panel 320 are inverted, and the fourth and eighth virtual panels 320d and 320h respectively display the image in a form in which the top and bottom of the original image are inverted. Done.

In addition, the first, third, fifth, and seventh virtual panels 320a, 320c, 320e, and 320g reflect the second, fourth, sixth, and eighth virtual panels 320b, 320d, 320f, and 320h, respectively. The first virtual panel 320b displays an image displayed on the second virtual panel 200a (an image in which the left and right images of the original image are inverted) is inverted up and down. The image displayed on the eighth virtual panel 320g (the image in which the top and bottom of the original image are inverted) is displayed in a form in which the left and right are inverted so as to overlap with this.

 In addition, the third virtual panel 320c displays an image (image inverted left and right of the original image) displayed on the second virtual panel 320b in an upside down form, and overlaps the fourth virtual panel ( The image displayed on the screen 200d (the image in which the top and bottom of the original image are inverted) is displayed in a form in which the left and right are inverted.

In addition, the fifth and seventh virtual panels 320e and 320g display images in the same manner, and description thereof is omitted for convenience.

In consideration of the image display form described above, the display panel according to the fourth embodiment of the present invention receives an image signal by receiving a data signal inverted up, down, left, right, up, down, left, or right according to the viewing area through a data driving circuit (not shown). Display.

 11A to 11C are views for explaining an arrangement of an image pixel, an arrangement of an image pixel perceived by an observer, and a form of an image displayed on the enlarged image display device display panel according to the fourth embodiment of the present invention. The display panel 320 may include first to ninth image pixels PI1 to PI9.

11A to 11B, the first to ninth image pixels display images corresponding to the display panel 320 and the first to eighth virtual display panels 320a to 320h, respectively.

Here, the first image pixel PI1 receives a circular data signal without inversion of the original image, displays the image, and is recognized by the viewer at the position of the display panel 320.

The second, fourth, sixth, and eighth image pixels PI2, PI4, PI6, and PI8 receive data signals of the inverted top, bottom, left, and right sides of the original image, and display the images. And at the positions of the third, fifth, and seventh virtual display panels 320a, 320c, 320e, and 320g.

The third and seventh image pixels PI3 and PI7 receive a data signal of a form in which the left and right sides of the original image are inverted and display an image, which is determined by the observer of the second and sixth virtual display panels 320b and 320f. It is recognized at the location.

The fifth and ninth image pixels PI5 and PI9 receive an input data signal in which the top and bottom of the original image are inverted and display the image, which is determined by the observer of the fourth and eighth virtual display panels 320d and 320h. It is recognized at the location.

Here, since the first to eighth virtual display panels 320a to 320h have substantially the same width as the display panel 320, the enlarged panel has a width that is substantially three times larger than that of the display panel 320. As shown in FIG. 11C, an observer views an image magnified 3 times, that is, up to 9 times, in the horizontal and vertical directions, respectively.

As the display panel of the image display device of the present invention mentioned above, a flat panel display may be used. Specifically, a liquid crystal display and a field emission display (FED) may be used. , Plasma Display Panel, Organic Electro-Luminescence Display Device (OLED), etc. may be used.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It can be understood that

Accordingly, an image display apparatus displaying an enlarged image according to an exemplary embodiment of the present invention may include a display panel, a plurality of viewing areas using a viewing area generating unit, and an image displayed as some viewing areas using a reflecting unit. By gathering them in the same place, the area of a screen as perceived by the observer is greatly expanded.

Claims (10)

A display panel for displaying a plurality of images, the display panel comprising: first to fourth image pixels displaying first to fourth images of the plurality of images and adjacent to each other in up, down, left, and right directions; A viewing area generation unit disposed at a front surface of the display panel and generating a plurality of viewing areas corresponding to the plurality of images; First and second reflectors disposed at first and second side ends adjacent to each other among upper, lower, left, and right sides of the display panel to reflect the second to fourth images at the same viewing area as the first image; A data driving circuit for supplying the second to fourth images inverted in left, right, up, down, left, and right directions to the display panel based on the first image; Image display apparatus for displaying an enlarged image, characterized in that it comprises a. The method of claim 1, The viewing generation unit selectively passes through the image from the display panel, and the openings and barriers are repeatedly arranged in a grid form; Image display apparatus for displaying an enlarged image, characterized in that it comprises a. The method of claim 1, And the viewing part generating unit is a parallax barrier or a lenticular lens. The method of claim 1, The first and second reflectors may be configured to determine a distance between an observer and the display panel.

An image display device for displaying an enlarged image, characterized in that less than or equal to. delete The method of claim 1, A third reflector disposed at a third side end of the display panel, the third reflector configured to reflect fifth to sixth images of the plurality of images to the same viewing area as the first image; Video display device. The method of claim 6, And the fifth to sixth images are inverted in up, down, left, and right directions, respectively, based on the first image. The method of claim 6, A fourth reflector disposed at a fourth side end of the display panel, the fourth reflector configured to reflect the seventh to ninth images of the plurality of images to the same viewing area as the first image; Video display device. 9. The method of claim 8, And the seventh to ninth images are inverted in up, down, left, right, up, down, left, and right directions based on the first image, respectively. The method of claim 1, The display panel includes a liquid crystal display, a field emission display (FED), a plasma display panel, an organic electroluminescence display device (OLED). The image display device for displaying an enlarged image, characterized in that one of.

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