KR101795022B1 - Led array and lcd module including the same - Google Patents

Abstract

The present invention discloses a liquid crystal display device. Particularly, the present invention relates to a liquid crystal display module using an LED array in which a plurality of LED lamps are bonded as a light source, and a guide panel for supporting the liquid crystal panel and preventing leakage of light emitted from the light source, To an LED array and a liquid crystal display module including the same.
The LED array may include a second partition portion that rims on an outer side surface of the light guide plate, an outer side surface of the optical member, and an outer side surface of the liquid crystal panel, and an inner side surface of the second partition portion, And a first compartment.
Accordingly, the present invention provides a liquid crystal display module in which the guide panel is omitted by using the extension of the bent LED array to replace the conventional guide panel, thereby reducing the manufacturing cost of the LCD module and minimizing the area of the BJEL There is an effect that can be done.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an LED array and a liquid crystal display

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, and more particularly, to a liquid crystal display device module using an LED array in which a plurality of LED lamps are bonded as a light source, And a liquid crystal display device module including the LED array.

As is well known, a flat panel display (FPD) can replace a conventional cathode ray tube (CRT) display device and can be used not only as a monitor of a desktop computer, but also as a portable computer such as a notebook computer, a PDA, It is an indispensable display device for realizing a compact and lightweight system such as a terminal. Currently, flat panel display devices that are commercially available include a liquid crystal display (LCD), a plasma display panel (PDP), and an organic light emitting diode (OLED). Particularly, the dual liquid crystal display device is attracting attention as a display device of a mobile device, a computer monitor, and an HDTV due to its advantages such as excellent visibility, easy thinning, low power and low heat generation. Since a liquid crystal of such a liquid crystal display device is a non-emissive device, a backlight unit for providing light to the liquid crystal panel is required. When a liquid crystal panel and a backlight unit are fastened using various mechanical structures, And a liquid crystal display device module.

FIG. 1 is a view showing the structure of a conventional liquid crystal display module, and FIG. 2 is a view showing a part of a cross section of the liquid crystal display module shown in FIG.

As shown in the figure, the conventional liquid crystal display module includes a liquid crystal panel 10 for displaying an image, a backlight unit 20 for providing light to the liquid crystal panel 10, and mechanisms 30 and 40 for modulating the light .

The liquid crystal panel 10 includes a first substrate on which a color filter (CF) is formed, a plurality of thin film transistors (TFT) substrates disposed below the color filter substrate, a liquid crystal layer . This liquid crystal panel 10 implements an image in accordance with the control signal of the driver IC 12. [

The backlight unit 20 is disposed on the back surface of the liquid crystal panel 10 and includes an LED array (not shown) as a light source, a light guide plate 24 disposed so as to face the LED array (not shown) A plurality of optical sheets 25 provided on the front surface of the light guide plate 24, and a reflective sheet 27 disposed on the back surface of the light guide plate 24.

The guide panel 30 is mounted on the inner stepped portion of the liquid crystal panel 10 described above and supports and fixes the liquid crystal panel 10 by the light shielding tape 35 to frame the backlight unit 20 on the inner side wall .

The light shielding tape 35 is disposed at the edge of the liquid crystal panel 10 to attach the liquid crystal panel 10 to the guide panel 30 and prevent light leakage from the backlight unit 20. [

The cover bottom 40 is coupled to the guide panel 30 outward to mount the backlight unit 20 on the bottom surface.

The guide panel 30 reflects the light emitted from the guide panel 30 to the side surface of the light guide plate 24 in the inside of the light guide plate 24 in addition to supporting the liquid crystal panel 10, And it is made of synthetic resin material having a high reflectance. Generally, the guide panel 30 is manufactured by an injection molding method.

In the injection molding method described above, a mold embodying the outline of a guide panel is prepared, and a guide panel is manufactured according to a mold by injecting a raw material of a plastic resin series. In this case, not only a separate mold but also an equipment investment such as an injection machine for injecting raw materials need.

In addition, the guide panel must be manufactured to have a predetermined thickness or more to maintain minimum rigidity. There is a limit in reducing the bezel area of the LCD module according to the thickness of the guide panel.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display (LCD) module including a guide panel, and a structure for supporting a liquid crystal panel and replacing a guide panel, which serves to introduce light emitted from the light guide plate back to the light guide plate, And a liquid crystal display device module including the LED array, which minimizes a bezel area of the liquid crystal display device module.

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In order to achieve the above object, a liquid crystal display module according to a preferred embodiment of the present invention includes a liquid crystal panel, a backlight unit, and a cover bottom.
The backlight unit is disposed on one side of the liquid crystal panel to provide light.
The cover bottom mounts the liquid crystal panel and the backlight unit.
Wherein the backlight unit includes a light guide plate disposed on one surface of the liquid crystal panel,
And an optical member and an LED array disposed on the light guide plate.
The LED array may include a second partition portion that rims on an outer side surface of the light guide plate, an outer side surface of the optical member, and an outer side surface of the liquid crystal panel, and an inner side surface of the second partition portion, And a first compartment. And the LED array is formed of a flexible printed circuit board (FPCB) for electrically connecting the plurality of LED lamps.
And a power connection unit electrically connecting the LED array and an external power source.
The second partition is coated with a white dye to reflect light emitted from the light guide plate back to the light guide plate.

And the second partition is attached through a double-faced tape member formed on one side of the light guide plate and the white dye.

The LED array is connected to each side of the liquid crystal panel through a light shielding tape.

The liquid crystal display module including the LED array according to the preferred embodiment of the present invention replaces the conventional guide panel using the extension of the bent LED array so that the manufacturing cost of the liquid crystal display module is reduced by omitting the guide panel And a liquid crystal display device module in which the area of the bubble is minimized can be provided.

1 is a view showing a structure of a conventional liquid crystal display device module.
FIG. 2 is a view showing a part of a cross section of the liquid crystal display module shown in FIG. 1. FIG.
3 is an exploded perspective view showing a structure of a liquid crystal display module including an LED array according to an embodiment of the present invention.
FIG. 4 is a cross-sectional view of the liquid crystal display module shown in FIG. 3. FIG.
Figs. 5A and 5B are diagrams showing the structure of the LED array original plate of the present invention before processing. Fig.
6A to 6C are views for sequentially explaining the structure and manufacturing method of the LED array of the present invention.

Hereinafter, an LED array according to a preferred embodiment of the present invention and a liquid crystal display module including the same will be described with reference to the drawings. In the following description, the drawings referred to for embodiments of the present disclosure are not intended to limit the shape and position of components to the illustrated form, and in particular, to the understanding of the structure and shape of the technical features of the present invention To help, the scale of some components is exaggerated or reduced.

FIG. 3 is an exploded perspective view showing a structure of a liquid crystal display module including an LED array according to an embodiment of the present invention, and FIG. 4 is a view showing a part of a cross section of the liquid crystal display device module of FIG. 3 .

As shown in the figure, the liquid crystal display module of the present invention comprises a liquid crystal panel 100, a backlight unit 200, and various mechanical structures.

Specifically, the liquid crystal panel 100 includes a liquid crystal layer interposed between the first substrate and the second substrate with a predetermined distance therebetween, and implements an image as a signal is applied from the driver IC 120 . A thin film transistor as a switching element and various wirings and pixel electrodes are formed on the first substrate. The second substrate is a color filter substrate for displaying RGB colors, and a color filter layer and a black matrix (BM) are formed. The driver IC 120 may include a scan driver for providing a scan signal for driving the thin film transistor, and a data driver for providing a data signal to the pixel electrode.

A plurality of scan lines and data lines arranged in one direction and defining a plurality of pixel regions are formed on the first substrate of the liquid crystal panel 100, and a thin film transistor, which is a switching device, is formed in each pixel region. The thin film transistor includes a gate electrode connected to the gate line, a semiconductor layer formed by stacking amorphous silicon or the like on the gate electrode, a source electrode formed on the semiconductor layer and electrically connected to the data line and the pixel electrode, Lt; / RTI >

The second substrate includes a color filter composed of a plurality of sub-color filters implementing the colors of red, green and blue, a color filter for separating each sub-color filter and blocking light transmitted through the liquid crystal layer, And a matrix (BM).

The first and second substrates configured as described above are adhered to each other so as to face each other by a sealant formed on the outer periphery of the image display area to constitute a liquid crystal panel and the first polarizing plate and the second polarizing plate And polarizes the light incident on and output from the liquid crystal panel 100 to realize an image.

The backlight unit 200 is disposed on one side of the lower side of the liquid crystal panel 100 and includes a plurality of light sources such as an LED lamp 221 and an LED lamp 221, A light guide plate 240 disposed below the liquid crystal panel 100 and guiding the light emitted from the LED lamp 221 to the liquid crystal panel 100, An optical sheet 250 provided between the light guide plate 240 and the light guide plate 240 to diffuse and condense the light supplied to the liquid crystal panel 100 and formed of at least one diffusion sheet and a prism sheet, And a reflective sheet 227 disposed below the reflective sheet 227 and reflecting the light guided to the lower portion.

Here, the LED lamp 221 as a light source is an R, G, B light emitting diode (LED) lamp that emits monochromatic light of R (Red), G (Green), or B Lamps can be used.

When monochromatic LED lamps emitting monochromatic light are arranged, monochromatic LED lamps of R, G, and B are alternately arranged at regular intervals, monochromatic light emitted therefrom is mixed with white light, and then supplied to the liquid crystal panel 100, When a light emitting LED lamp is disposed, a plurality of LED lamps are arranged at regular intervals to supply white light to the liquid crystal panel 100.

In this case, the white light LED lamp is composed of a blue LED lamp emitting blue light and a phosphor emitting yellow light by absorbing blue monochromatic light. The blue monochromatic light output from the blue LED lamp and the yellow monochromatic light emitted from the phosphor are mixed to form a white light And is supplied to the liquid crystal panel 100.

Also, the LED lamp 221 is bonded to the first partition 230a constituting one LED array 230. [ The first partition 230a electrically connects the plurality of LED lamps 221 through the electrodes formed on one surface of the first partition 230a. (Not shown) and the like, which are provided on the back surface of the LCD module through the light guide plate 222. Thus, the LED array 230 emits light to the side surface of the light guide plate 240 through lighting of the LED lamp 222 bonded at the time of driving.

In addition, the LED array 230 is connected to the second partition 230b to 230e, one side of which faces the light guide plate 240. The second partition portions 230b to 230e are formed by folding at least one bent portion formed on one straight FPCB (Flexible Printed Circuit Board) so that each side of the light guide plate 240, the optical member 250, and the liquid crystal panel 100 The optical member 250 and the liquid crystal panel 100 are provided with a predetermined adhesive member inside thereof. The first and second sections 230a to 230e are formed through one FPCB, and a more detailed description of the structure will be given later.

The light guide plate 240 guides the light emitted from the LED lamp 221 to the liquid crystal panel 100. The light incident on one side of the light guide plate 240 is added to the inside of the light guide plate 240 Refracted and refracted by the diffusing agent to advance to the other side, and then emitted to the upper portion of the light guide plate 240. [

The optical sheet 250 improves the efficiency of light emitted from the light guide plate 240 and supplies the light to the liquid crystal panel 100. The optical sheet 250 includes a diffusion sheet for diffusing light emitted from the light guide plate 240 and a plurality of prisms 240 for collecting light diffused by the diffusion sheet and supplying uniform light to the entire area of the liquid crystal panel 100. [ Sheet. At this time, usually, one diffusion sheet is provided, but the prism sheet is composed of a first prism sheet and a second prism sheet in which the prism crosses vertically in the x and y axis directions, refracts light in each direction, It is preferable to configure such that it improves.

The reflective sheet 227 reflects the light emitted from the lower portion of the light guide plate 240 to the lower portion of the light guide plate 240 and then advances toward the upper side of the light guide plate 240, that is, toward the liquid crystal panel 100.

The backlight unit 200 having the above-described structure is attached and fixed to the liquid crystal panel 100 by the light-shielding tape 135 and mounted on the bottom surface of the cover bottom 140 positioned in the downward direction. Particularly, the light shielding tape 135 not only attaches and fixes the liquid crystal panel 100 and the backlight unit 200 but also leaks light emitted from the backlight unit 200 through the side surface of the liquid crystal panel 100 It also acts to block out.

4, when light (b) traveling in the interior of the light guide plate 240 is emitted to the side portion, the emitted light is reflected by the LED Is reflected by the array 230, enters the inside of the light guide plate 240, and enters the liquid crystal panel 100 through the optical sheet 250. Since the LED array 230 described above is made of FPCB material, its thickness is significantly smaller than that of the conventional guide panel 30 (FIG. 2), and is closely attached to the side surface of the light guide plate 240 through the adhesive member 232, The area occupied by the liquid crystal display module can be greatly reduced, and the bezel area of the liquid crystal display module can be minimized.

Hereinafter, the structure of an LED array of a liquid crystal display according to a preferred embodiment of the present invention will be described in detail with reference to the drawings.

Figs. 5A and 5B are diagrams showing the structure of the LED array original plate of the present invention before processing. Fig.

As shown in the drawing, the LED array 230 of the present invention is a single FPCB having an original 'a' shape, and includes a first partition 230a to which the LED lamp 221 is bonded and a second partition 230b (230b through 230e).

First, a plurality of LED lamps 221 are bonded to the first partition 230a in the horizontal direction, and the first partition 230a is extended from the first partition 230a and connected to the external connection part 222. [ The first compartment 230a is connected to the second compartments 230b through 230e extending in the vertical direction at one end thereof and the first compartment 230a through the second compartment 230a through 230e are connected to the connection part Predetermined folds i1 to i4 are formed to facilitate folding.

The back surface of the second section 230b to 230e is coated with a white dye 231 to increase the reflectance of light emitted from the light guide plate and a part of the white dye 231 is attached to the light guide plate A double-sided tape member 232 of transparent material may be further provided.

According to this structure, the folding portions i1 to i4 of the first partition 230a and the second partition 230e function as a normal LED array by the folding process, respectively, and the second partitioning portions 230b to 230e are formed by the light- The liquid crystal panel 100 and the liquid crystal panel 250, and thus forms a normal guide panel (30 of FIG. 2).

Hereinafter, a structure and a manufacturing method of an LED array according to an embodiment of the present invention will be described with reference to the drawings.

6A to 6E are views for sequentially illustrating the structure and manufacturing method of the LED array of the present invention.

First, as shown in FIG. 6A, the LED array 230 of the present invention includes first and second partition portions 230a to 230e. A plurality of LED lamps 221 are bonded to one surface of the first partition 230a to form a plurality of LED lamps 221 and a plurality of LED lamps 221, Connect the connections electrically. 5B, a white dye 231 coating and a double-sided tape member 232 are attached to the back surface of the LED array 230. [ When the attachment is completed, the second compartments 230b to 230e are bent from the first compartment 230a to the vertical direction through the process of bending the second compartments 230b to 230e in the backward direction around the bent portion i1, Direction.

Subsequently, as shown in Fig. 6B, the second partition portions 230b to 230e are bent in the inward direction of the bent portions i2 to i4 formed between the respective nodes to form side walls corresponding to the respective side surfaces of the light guide plate . As shown in the figure, the inner direction is the direction in which the white dye 231 coating and the double-sided tape member 232 are attached.

Finally, as shown in FIG. 6C, if the second compartments 230b to 230e form a closed loop of a 'Kl' 'shape through the process of bending all of the bent portions i1 to i4, The LED array is completed by bending the light emitting portion 230a inside the closed loop. Therefore, in the LED array of the present invention, the area where the LED lamp is mounted and the area where the light guide plate is guided are composed of one FPCB.

Also, in the above-described embodiment, the guide portions of the light guide plate are formed by bending the second partitioning portions 230b to 230e first, and finally, the first partitioning portion 230a on which the LED lamp is mounted is bent inward The first partition 230a is bent first toward the light guide plate and then the second partition 230b to 230e are sequentially bent to guide the light guide plate The LED array of the present invention can also be manufactured.

The LED array of the present invention according to the above-described structure and manufacturing method is characterized in that the FPCB to which the LED lamp is bonded is extended to cover each side of the light guide plate, thereby replacing the guide panel provided in the liquid crystal display module having the same, The manufacturing cost of the panel can be reduced and the thickness of the bezel region can be minimized.

221: LED lamp 222: External connection
230: LED array 230a: first partition
230b to 230e: second compartment portions i1 to i4:
231: White dye 232: Double-sided adhesive tape

Claims (11)

delete delete delete delete delete A liquid crystal panel;
A backlight unit disposed on one surface of the liquid crystal panel to provide light; And
And a cover bottom for mounting the liquid crystal panel and the backlight unit,
The backlight unit includes:
A light guide plate disposed on one surface of the liquid crystal panel;
An optical member disposed on the light guide plate; And
And an LED array including a first compartment to which a plurality of LED lamps are bonded, and a second compartment to frame the outer surface of the light guide plate, the outer surface of the optical member, and the outer surface of the liquid crystal panel,
Wherein the first and second compartments constituting the LED array are formed by extending an FPCB (Flexible Printed Circuit Board) for electrically connecting the plurality of LED lamps;
Wherein the first compartment is bonded to the plurality of LED lamps in a horizontal direction and extends from a part of the plurality of LED lamps to an external connection part;
The first compartment is attached to one inner side surface of the second compartment and connected to the second compartment extending in a vertical direction at one end;
Wherein the first and second compartments are formed with a predetermined bent portion so that the connecting portion can be easily folded. The method according to claim 6,
Wherein the second partition is coated on the inner side with a white dye that reflects light emitted from the light guide plate back to the light guide plate. 8. The method of claim 7,
Wherein the second partition is attached through a double-faced tape member formed on one side of the light guide plate and the white dye. The method according to claim 6,
Wherein the LED array is connected to each side of the liquid crystal panel through a light shielding tape.

delete The method according to claim 6,
And a power connection unit electrically connecting the LED array and an external power source.

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