KR101679733B1 - Image display module and method of fabricating the same - Google Patents

Abstract

The present invention provides a display device comprising: a display panel for displaying an image; A switching panel disposed on the display panel; First and second support portions surrounding the three sides of the display panel and the switching panel and extending in parallel to each other and spaced apart from each other along the inner surface of the side wall; A main frame including a bent part bent; A bottom frame disposed below the display panel and coupled to the main frame; And a top frame coupled to the one side of the main frame and coupled to the bottom frame.

Description

[0001] IMAGE DISPLAY MODULE AND METHOD OF FABRICATING THE SAME [0002]

The present invention relates to an image display module, and more particularly, to a three-dimensional image display module including a display panel for displaying an image and a switching panel for changing a polarization state of an image emitted from the display panel, and a method of manufacturing the same will be.

In recent years, the display field has been rapidly developed in accordance with the information age. In response to this trend, a liquid crystal display (LCD) is widely used as a flat panel display (FPD) having advantages of thinning, light weight, A plasma display panel (PDP), an organic light emitting diode (OLED), and a field emission display (FED) ), Which is rapidly gaining popularity.

Among these, liquid crystal display devices are excellent in moving picture display and are most actively used in the fields of notebooks, monitors, and TV due to their high contrast ratios.

However, a liquid crystal display device requires a separate light source as a non-emissive type display device which does not have a self-luminous element, and accordingly, a backlight unit having a lamp is provided on the back surface of the liquid crystal panel And the light is supplied to the liquid crystal panel, and the liquid crystal panel displays the image using the light of the backlight unit.

In general, a backlight unit is divided into a direct type and an edge type according to the arrangement structure of the lamp. In the direct type, a plurality of lamps are disposed directly below the liquid crystal panel, In the edge mode, a lamp is disposed on one side or both sides of the liquid crystal panel, and light is incident on the liquid crystal panel by refraction and reflection of the light guide plate and the reflection plate.

A structure of a liquid crystal display module which is one of the video display devices will be described with reference to the drawings.

1 is an exploded perspective view of a conventional liquid crystal display module.

1, the conventional liquid crystal display module 10 includes a liquid crystal panel 20, a backlight unit 40 disposed under the liquid crystal panel 20, a liquid crystal panel 20, and a backlight unit 40 A main frame 70, a bottom frame 80, and a top frame 90 surrounding the main frame 70. As shown in FIG.

The liquid crystal panel 20 is a part that plays a key role in image display. The liquid crystal panel 20 includes first and second substrates 22 and 24 which are spaced apart from each other and first and second substrates 22 and 24, Layer (not shown).

Printed circuit boards (PCBs) 28 and 30 are connected to each other along two adjacent edges of the liquid crystal panel 20 via a connection member 26 such as a TCP (tape carrier package).

A backlight unit 40 is disposed on the back surface of the liquid crystal panel 20.

The backlight unit 40 includes a lamp 44 arranged along the longitudinal direction of one side of the main frame 70, a lamp housing 42 guiding the lamp 44, A light guide plate 48 disposed on the reflection plate 46 and an optical sheet 50 disposed on the light guide plate 48. The light guide plate 48 is made of a transparent material.

The lamp housing 42 surrounds the upper and lower sides and the outside of the lamp 44 with the inside facing toward the light guide plate 48 opened and protects the lamp 44 and concentrates the light toward the light guide plate 48.

The light emitted from the lamp 44 is incident on the side surface of the light guide plate 48 with the help of the lamp housing 42 and is refracted in the direction of the liquid crystal panel 20 and the high- And is supplied to the liquid crystal panel 20.

The rectangular main frame 70 surrounding the side surfaces of the liquid crystal panel 20 and the backlight unit 40 includes a bottom frame 80 disposed on the back surface of the backlight unit 40, And a top frame 90 surrounding the front frame 90 and the front frame 90, respectively.

At this time, the liquid crystal panel 20 is supported by the projections on the inner surface of the main frame 70, and is received and fixed by the top frame 90 downward.

On the other hand, studies on three-dimensional stereoscopic images beyond the two-dimensional plane images have become active.

In addition to the binocular disparity caused by the distance between the two eyes, factors that cause the human being to feel depth and stereoscopic effect are psychological and memory factors. Accordingly, the three-dimensional stereoscopic image display technology can also provide a degree of three- (Volumetric type), a three-dimensional (holographic) type, and a stereoscopic type (stereoscopic type).

The volumetric expression method is a method in which the perspective of the depth direction is felt by the psychological factors and the suction effect, and the three-dimensional expression method is the most complete stereoscopic image display technique and can be represented by the laser light reproduction holography or the white light reproduction holography .

The stereoscopic display system called the stereoscopic display system is a system that senses a stereoscopic effect using physiological factors of both eyes. The stereoscopic display system uses a spectacle system in which an observer wears special glasses according to a substantial stereoscopic effect generation position and a parallax barrier a non-eyeglass system using a lens array such as a parallax barrier or a lenticular or an integral lens array.

Among them, the spectacles have a wide viewing angle compared to the non-spectacles, and are less prone to dizziness at the time of viewing, and can be manufactured at a relatively low cost, and can be classified into shutter glasses and polarization splitting methods.

The shutter glasses system alternately displays the left and right images with a single screen, and sequentially opens and closes the timing of the left shutter and the right shutter of the shutter glasses in accordance with the temporal difference time of the left and right eye images, Thereby realizing a three-dimensional feeling.

In the polarization division method, pixels of one screen are divided into two on a row, column or pixel basis, and the left and right eye images are displayed in different polarization directions using a patterned retarder, The right eyeglasses have different polarizing directions, and each image is recognized separately in the left eye and right eye, thereby exhibiting a stereoscopic effect.

Of the three-dimensional representation systems, the parallax barrier and lens array of the non-spectacle type and the patterned reflector of the spectacle type can be implemented using a switching panel composed of two facing substrates and a liquid crystal layer formed therebetween.

That is, by disposing the switching panel on the display panel such as the liquid crystal panel, a three-dimensional stereoscopic image display apparatus of the non-eyeglass system or the glasses system can be constituted.

However, in order to construct an image display module including a display panel and a switching panel, a structure is required to stably fix the display panel and the switching panel and to prevent defects due to contact with each other.

In other words, since the display panel and the switching panel are disposed adjacent to each other, each of the supporting and fixing means is separately required. However, the main frame 70, the bottom frame 80, When the display panel and the switching panel are applied to the structures of the top frame 90 and the top frame 90, a defect such as crack or scratch is caused by contact between the display panel and the switching panel, There is a problem in that it can not be secured.

An object of the present invention is to provide an image display module and a method of manufacturing the same that improve reliability of vibration and impact by inserting and fixing the display panel and the switching panel into the main frame in a sliding manner.

It is another object of the present invention to provide a video display module in which a display panel and a switching panel are separated from each other and inserted and fixed in a main frame, thereby preventing defects such as cracks or scratches caused by contact, and a manufacturing method thereof.

According to an aspect of the present invention, there is provided a display device comprising: a display panel for displaying an image; A switching panel disposed on the display panel; First and second support portions surrounding the three sides of the display panel and the switching panel and extending in parallel to each other and spaced apart from each other along the inner surface of the side wall; A main frame including a bent part bent; A bottom frame disposed below the display panel and coupled to the main frame; And a top frame coupled to the one side of the main frame and coupled to the bottom frame.

Here, the display panel and the switching panel may be inserted into the open side of the main frame and be supported by the first and second support portions, respectively.

The upper surface of the first supporting portion and the lower surface of the second supporting portion are vertically spaced apart by a length corresponding to the thickness of the display panel and the upper surface of the second supporting portion and the lower surface of the bent portion are spaced apart from each other by a thickness And can be spaced apart in the vertical direction by a corresponding length.

The second support portion may protrude into the side wall by a first length and have a thickness of a second length, and the display panel and the switching panel may be spaced apart from each other by the second length.

The second length, which is the thickness of the second support portion, may be determined according to the transverse length, length, material, weight, elastic modulus and the first length of the switching panel.

Further, the image display module may further include a backlight unit disposed under the display panel, and the display panel may be a liquid crystal panel.

The switching panel may be an active retarder that operates as a left-eye retarder or a right-eye retarder for the light of the display panel by applying a voltage.

According to another aspect of the present invention, there is provided a method of manufacturing a display device, comprising: forming a display panel and a switching panel; Inserting the display panel and the switching panel into one opened side of the main frame; Combining the display panel and the bottom frame disposed under the display panel with the main frame into which the switching panel is inserted; And combining the bottom frame and the top frame arranged to correspond to the opened side.

The main frame includes sidewalls having one side opened, first and second supporting portions spaced apart from each other along the inner surface of the sidewall, and a bent portion bent inward from the top surface of the sidewall And the display panel and the switching panel may be supported by the first and second support portions, respectively.

In the video display module and the manufacturing method thereof according to the present invention, the display panel and the switching panel are inserted and fixed in the main frame in a sliding manner, thereby improving the reliability against vibration and impact.

Further, by inserting the display panel and the switching panel into the main frame by spacing them apart from each other and fixing them, defects such as cracks or scratches due to contact can be prevented.

1 is an exploded perspective view of a conventional liquid crystal display module.
FIG. 2 is a perspective view of an image display module according to an embodiment of the present invention corresponding to a left eye image display period. FIG.
3 is a perspective view of a video display module according to an embodiment of the present invention corresponding to a right-eye video display section.
4 is an exploded perspective view of an image display module according to an embodiment of the present invention.
5 is a sectional view of a video display module according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

2 and 3 are perspective views of an image display module according to an embodiment of the present invention. FIG. 2 corresponds to a left eye image display period, and FIG. 3 corresponds to a right eye image display period.

2 and 3, the image display module 110 according to the embodiment of the present invention includes a display panel 120 for displaying an image, a polarizing film 152 (see FIG. 2) formed on the display panel 120, And a switching panel 160 formed on the polarizing film 152.

The display panel 120 displays a left-eye image and a right-eye image in a time-division manner, and includes a plurality of pixels P for displaying red, green, and blue (R, G, B)

For example, the display panel 120 includes first and second substrates (122 and 124 in FIG. 5) spaced apart from each other and first and second substrates 122 and 124 formed between the first and second substrates 122 and 124 And a liquid crystal layer (not shown).

The polarizing film 152 modulates the left eye image and the right eye image displayed by the display panel 120 into a linearly polarized left eye image and a linearly polarized right eye image, respectively, and transmits them to the switching panel 160.

The switching panel 160, which is referred to as an active retarder, operates as a left-handed litter or a right-eye retarder by applying a voltage. For example, the third and fourth substrates facing each other And a second liquid crystal layer (not shown) between the third and fourth substrates 162 and 164.

As shown in FIG. 2, during the left eye image display period, all the pixels P of the display panel 120 display the left eye image, and the switching panel 160 operates as the left eye retarder.

That is, the left-eye image emitted from the display panel 120 is modulated into linearly polarized light while passing through the polarizing film 152, and modulated into left-handed circularly polarized light while passing through the switching panel 160,

The left eye lens LG transmits only the left circularly polarized light while the right eye lens LG transmits only the right circularly polarized light.

The left-handed polarized left eye image transmitted to the viewer passes through the left eye lens LG and is transmitted to the left eye of the viewer, does not pass through the right eye lens RG, and is not transmitted to the viewer's right eye.

Therefore, the viewer recognizes the left eye image only in the left eye during the left eye image display period.

3, all the pixels P of the display panel 120 display the right-eye image during the right-eye image display period, and the switching panel 160 operates as a right-eye retarder.

That is, the right-eye image emitted from the display panel 120 is modulated into linearly polarized light while passing through the polarizing film 152, modulated into right-handed circularly polarized light while passing through the switching panel 160 and transmitted to the viewer, The right eye image is transmitted to the right eye of the viewer through the right eye lens RG and does not pass through the left eye lens LG and is not transmitted to the viewer's left eye.

Therefore, the viewer recognizes the right eye image only in the right eye during the right eye image display period.

Therefore, the viewer recognizes the 3D stereoscopic image by combining the left eye image recognized as the left eye during the left eye image display period and the right eye image recognized as the right eye during the right eye image display period.

The configuration of the video display module including the display panel 120 and the switching panel 160 will be described with reference to the drawings.

FIG. 4 is an exploded perspective view of an image display module according to an embodiment of the present invention, and FIG. 5 is a cross-sectional view of an image display module according to an embodiment of the present invention, corresponding to a cut line V-V in FIG.

4 and 5, the image display module 110 according to the embodiment of the present invention includes a display panel 120, a backlight unit 140 disposed below the display panel 120, A main frame 170 surrounding three sides of the display panel 120, the backlight unit 140 and the switching panel 160, and a backlight unit 160 surrounding the three sides of the display panel 120, A bottom frame 180 disposed at a lower portion of the main body 140 and coupled to the side wall 172 of the main frame 170 and a bottom frame 180 coupled to the other one side of the backlight unit 140 and the switching panel 160, And a top frame 190 coupled with the frame 180.

The display panel 120 plays a key role in image display. The display panel 120 includes first and second substrates 122 and 124 which are spaced apart from each other and first and second substrates 122 and 124 between the first and second substrates 122 and 124, Layer (not shown).

Although not shown, a printed circuit board (PCB) may be connected to at least one side of the display panel 120 via a connection member such as a TCP (tape carrier package).

The backlight unit 140 disposed on the back surface of the display panel 120 includes a lamp 144 arranged along one longitudinal side of the main frame 170, a lamp housing 142 guiding the lamp 144, A white or silver reflective plate 146 disposed on the bottom frame 180, a light guide plate 148 disposed on the reflective plate 146, and an optical sheet 150 disposed on the light guide plate 148.

The lamp housing 142 surrounds the upper and lower sides and the outside of the lamp 144 while the inside facing the light guide plate 148 is open to protect the lamp 144 and concentrate the light toward the light guide plate 148.

The light emitted from the lamp 144 is incident on the side surface of the light guide plate 148 with the aid of the lamp housing 142 and refracted toward the display panel 120. While passing through the optical sheet 150, And is supplied to the display panel 120.

The switching panel 160 operates as a left-eye retarder or a right-eye retarder for modulating the left-eye or right-eye image of the display panel 120 into left-handed or right-handed circularly polarized light, (Not shown) between the first and second substrates 162 and 164 (FIGS. 5 and 6) and the third and fourth substrates 162 and 164, respectively.

2 and 3 may be formed on the outer surface of the second substrate 124 of the display panel 120 or on the outer surface of the third substrate 162 of the switching panel 160 As shown in Fig.

The main frame 170 surrounding the three sides of the display panel 120, the backlight unit 140 and the switching panel 160 includes a side wall 172 having a " First and second support portions 174 and 176 spaced apart from each other along the inner surface of the side wall 172 and a bent portion 178 bent inward from the upper surface of the side wall 172.

The upper surface of the second support portion 176 and the lower surface of the bent portion 178 protrude from the upper surface of the switching panel 176. The first and second support portions 174 and 176 protrude into the side wall 172 by a first length L1, The lower surface of the second support portion 176 and the upper surface of the first support portion 174 are vertically spaced apart from each other by a length corresponding to the thickness of the display panel 120, do.

The display panel 120 and the switching panel 160 are slidably inserted into one opened side of the main frame 170 and inserted into the first and second support portions 174 and 176 of the main frame 170, And the top edge of the switching panel 160 is covered by the bent portion 178 of the main frame 170. [

The second substrate 124 of the display panel 120 and the third substrate 162 of the switching panel 160 are connected to each other with the display panel 120 and the switching panel 160 disposed in the main frame 170. [ Are spaced apart from each other by a second length (L2) corresponding to the thickness of the second support portion (176) of the main frame (170).

Here, the second length L2, which is the distance between the second substrate 124 of the display panel 120 and the third substrate 162 of the switching panel 160, is the width of the switching panel 160, Weight, elastic modulus and the first length L1, which is the protruding distance of the second support portion 176. The length, material, weight,

For example, when the first length L1, which is the protrusion distance of the second support portion 176, is about 6.8 mm, the simulation is performed using the width, length, material, weight, and elastic modulus of the switching panel 160 as parameters. the maximum amount of deflection of the switching panel 160 may be about 0.339 mm and the thickness of the second support part 176 may be set to about 0.4 mm. Can be prevented.

The bottom frame 180 disposed below the backlight unit 140 has a plate shape in which an upper bent portion is formed at an edge of a plate shape to be engaged with the side wall 172 of the main frame 170 do.

The top frame 190 corresponding to one opened side of the main frame 170 covers the remaining one side surface of the display panel 120 and the switching panel 160, .

In the image display module 110 as described above, the display panel 120 and the switching panel 160 are inserted into the main frame 170 from the side to fix the display panel 120 and the switching panel 160, 120 and the switching panel 160 are kept constant, defects such as scratches due to contact can be prevented.

Further, by forming the top frame 190 so as to correspond to one side of the main frame 170, the material cost can be reduced and the manufacturing cost can be reduced.

A brief description will be given of the order of combining the image display modules 110. FIG.

The display panel 120 and the switching panel 160 are coupled to the main frame 170 after the main frame 170 and the backlight unit 140 are coupled so that the lower portion of the main frame 170 surrounds the backlight unit 140, The first and second supports 174 and 176, respectively.

After the backlight unit 140 coupled to the main frame 170 is disposed on the bottom frame 180 and the display panel 120 and the switching panel 160 are inserted and the backlight unit 140 is coupled to the main frame 180, Thereby joining the frame 170 and the bottom frame 180 together.

The combining of the image display module 110 is completed by combining the top frame 190 and the bottom frame 180 arranged to correspond to one opened side of the main frame 170. [

2 to 5, the display panel 120 is a liquid crystal panel. However, in another embodiment, the display panel 120 may include an organic light emitting diode (OLED) panel. In this case, The unit 140 may be omitted and the first support portion 174 of the main frame 170 may protrude from the lowermost end of the side wall 172. [

2 to 5, the switching panel 160 is an active retarder. However, in another embodiment, the switching panel 160 may be a parallax barrier or a lens array, 110 may display three-dimensional stereoscopic images.

The present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

110: video display module 120: display panel
140: backlight unit 160: switching panel
170: Main frame 180: Bottom frame
190: Top frame

Claims (9)

A display panel for displaying an image;
A switching panel disposed on the display panel;
First to third sidewalls surrounding the three sides of the display panel and the switching panel and connected to each other and having one side open, and a first to a third sidewalls protruding from the inner surfaces of the first to third sidewalls to support the display panel And a second supporting portion that is spaced upward from the first supporting portion along the inner surface of each of the first to third sidewalls and protrudes from the inner surface of each of the first to third sidewalls in parallel with the first supporting portion, A main frame including a first supporting portion supporting the first side wall and a bending portion bending inward from the upper side of the first through third side walls;
A bottom frame disposed below the display panel and coupled to the main frame;
The top frame being coupled to the one side of the main frame,
And an image display module.
The method according to claim 1,
Wherein the display panel and the switching panel are inserted into the open side of the main frame and are supported by the first and second support portions, respectively.
3. The method of claim 2,
The upper surface of the first support portion and the lower surface of the second support portion are vertically spaced by a length corresponding to the thickness of the display panel and the upper surface of the second support portion and the lower surface of the bent portion correspond to the thickness of the switching panel Wherein the image display module is spaced apart in the vertical direction by a predetermined length.
The method of claim 3,
Wherein the second support portion protrudes into the first through third sidewalls by a first length and has a thickness of a second length, and the display panel and the switching panel are spaced apart from each other by the second length.
5. The method of claim 4,
Wherein the second length, which is the thickness of the second support portion, is determined according to a width, a length, a material, a weight, an elastic modulus and the first length of the switching panel.
The method according to claim 1,
And a backlight unit disposed under the display panel, wherein the display panel is a liquid crystal panel.
The method according to claim 1,
Wherein the switching panel is an active retarder that operates as a left-eye retarder or a right-eye retarder for light of the display panel by applying a voltage.
Forming a display panel and a switching panel;
The first to third sidewalls and the first to third sidewalls and the bent portions bent inward from the upper surfaces of the first to third sidewalls, Pushing and pushing the display panel to be supported by the support;
And a plurality of second side walls spaced upward from the first support along the inner surface of each of the first through third side walls and parallel to the first support from the inner surface of each of the first through third sidewalls, Pushing and pushing the switching panel to be supported by a second support portion protruding from the first support portion;
Combining the display panel and the bottom frame disposed under the display panel with the main frame into which the switching panel is inserted;
Combining the bottom frame and the top frame arranged to correspond to the open side,
The method comprising the steps of:

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