KR20130037293A - Back light unit and liguid crystal display module using the same - Google Patents

Abstract

PURPOSE: A back light unit and a liquid crystal display module using the same are provided to improve adhesion by using the deformation of an ear part and to have a small number of the ear parts. CONSTITUTION: A liquid crystal display module includes an LCD panel(300), a backlight unit(100), and a mold frame(200). The backlight unit includes an ear part(110,120). The size of the ear part gradually increases from a projection direction to the outside. An ear part accommodating part(210,220) is formed in the mold frame. The ear part fixes the backlight unit and the mold frame.

Description

Back light unit and liquid crystal display module using the same {Back Light Unit and Liguid Crystal Display Module using the same}

The present invention relates to a liquid crystal display module, and more particularly, to a backlight unit having improved fastening force and a liquid crystal display module using the same.

Liquid crystal display devices have a wide variety of applications ranging from notebook computers, monitors, spacecrafts and aircraft to the advantages of low power consumption and low power consumption and being portable.

The liquid crystal display device includes an upper substrate, a lower substrate, and a liquid crystal layer formed between the two substrates, and the arrangement state of the liquid crystal layer is adjusted according to whether an electric field is applied, and accordingly, the light transmittance is adjusted so that an image is displayed. to be.

On the other hand, the modularization of such a liquid crystal display device is called a liquid crystal display module, the liquid crystal display module includes a liquid crystal display panel, a backlight unit, a mold frame.

The LCD panel includes an upper substrate and a lower substrate bonded together to face each other with a liquid crystal layer interposed therebetween.

The backlight unit includes a light source unit for supplying light to the liquid crystal display panel and emitting light, a light guide plate for guiding light, a plurality of optical sheets, and a reflecting plate.

The mold frame accommodates and fixes the liquid crystal display panel and the backlight unit.

Hereinafter, a conventional liquid crystal display module will be described with reference to the drawings. However, the detailed description of the liquid crystal display module will be omitted, and the backlight unit and the mold frame will be described.

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

As can be seen in FIG. 1, the conventional liquid crystal display module includes a liquid crystal display panel 30, a backlight unit 10, and a mold frame 20.

The liquid crystal display panel 30 includes an upper substrate, a lower substrate, and a liquid crystal layer bonded to each other with a liquid crystal layer interposed therebetween as a part that is responsible for displaying an image.

Although not shown, the backlight unit 10 includes a light guide plate, a reflecting plate, and an optical sheet. The backlight unit 10 has a plurality of ears formed and fixed to the mold frame 20.

The light guide plate guides the light emitted from the light source unit and evenly enters the liquid crystal display panel.

The reflector is made of a material that reflects light and is installed under the light guide plate to reflect light incident in a direction opposite to the liquid crystal display panel to the liquid crystal display panel.

The optical sheet is formed on the light guide plate, and may include a diffusion sheet, a prism sheet, and the like.

The mold frame 20 accommodates and fixes the backlight unit 10 and the liquid crystal display panel 30. In this case, grooves corresponding to the ears 11 to 16 formed in the backlight unit 10 and the liquid crystal display panel 30 are formed in the mold frame 20, so that the backlight unit 10 and the liquid crystal display panel 30 are formed. Helps storage and fixation.

2 is a view showing the ears of the conventional backlight unit.

Hereinafter, the ear portion will be described in detail with reference to FIG. 2.

As can be seen in Figure 2, the conventional backlight unit 10 includes a plurality of ears (11 to 16) to be fixed to the mold frame.

Upper ears 11 and 12 formed at one end of the backlight unit 10 prevent the backlight unit 10 from moving from side to side.

Side ears 13 to 16 formed at left and right sides of one end of the backlight unit 10 having the upper ears 11 and 12 prevent the backlight unit 10 from moving up and down.

However, the shape, number and position of the ear parts 11 to 16 as described above have the following problems.

First, there is a problem in that a number of ear parts must be used to maintain the fastening force of the backlight unit 10.

Next, in order to prevent the backlight unit 10 from being pulled out of the mold frame 20, there is a problem in that the size of the ear portion is equal to or greater than a predetermined size (for example, 0.5 mm or more).

Next, as described above, the number of the ear parts increases, and as the size of the ear parts increases, the mold frame for accommodating the ear parts needs to have a large rim, which causes a problem of miniaturization.

In addition, as described above, the number of the ear parts increases, and when the size of the ear parts increases, there is a problem that light phenomenon occurs frequently in the ear areas.

The present invention is designed to solve the problems of the above-mentioned conventional liquid crystal display module,

An object of the present invention is to provide a backlight unit and a liquid crystal display module that can improve the fastening force of the ear by reducing the shape of the ear installed in the light guide plate and reduce the light phenomenon.

The present invention, in order to achieve the above object, a light source for emitting light; And a light guide plate which evenly transmits the light incident from the light source unit to the liquid crystal display panel, wherein one end of the light guide plate is formed with an ear having a shape that increases in size in a protruding direction.

In addition, the present invention, in order to achieve the above object, a liquid crystal display panel for representing an image; A backlight unit disposed under the liquid crystal display panel to supply light to the liquid crystal display panel; And a mold frame accommodating the liquid crystal display panel and the backlight unit, wherein the backlight unit is fixed to the mold frame through an ear portion having a shape that increases in size in a protruding direction. .

According to the present invention as described above, the following effects can be obtained.

The present invention has the effect of using a small number of ears by modifying the shape of the ears to improve the bonding force.

The present invention has the effect of using a small size ear portion by modifying the shape of the ear portion to improve the bonding force.

The present invention has the effect of reducing the light phenomenon by reducing the number and size of the ear.

1 is an exploded perspective view of a conventional liquid crystal display module.
2 is a view showing the ears of the conventional backlight unit.
3 is a view showing an embodiment of a liquid crystal display module according to the present invention.
4A and 4C are plan views illustrating various embodiments of ear placement of the backlight unit according to the present invention.
5A to 5D are diagrams illustrating various embodiments of an ear shape of a backlight unit according to the present invention.
6a to 6b are views showing another embodiment of the ear arrangement of the backlight unit according to the present invention.

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

3 is a view showing an embodiment of a liquid crystal display module according to the present invention.

As can be seen in FIG. 3, the liquid crystal display module includes a liquid crystal display panel 300, a backlight unit 100, and a mold frame 200.

Although not shown, the liquid crystal display panel 300 includes an upper substrate, a lower substrate, and a liquid crystal layer that are bonded to each other with a liquid crystal layer interposed therebetween as a portion that is responsible for image display.

The upper substrate is formed around the color filter layers of red (R), green (G), and blue (B) colors corresponding to each pixel, and the outer surfaces of each of the color filters to form gate lines, data lines, and thin films. And a black matrix BM covering a non-display area such as a transistor.

In addition, a transparent common electrode covering the color filter layer and the black matrix is provided. However, the common electrode may be formed on the lower substrate in some cases.

The lower substrate includes a plurality of gate lines, a plurality of data lines, a pixel formed at an intersection of the gate line and the data line, a thin film transistor (TFT) formed at the intersection of the gate line and the data line, and a transparent pixel formed at each pixel. An electrode.

The liquid crystal layer is formed between the upper substrate and the lower substrate of the liquid crystal display panel 300. In addition, the upper and lower substrates are interposed with upper and lower alignment layers that determine the initial molecular alignment direction of the liquid crystal, and seal patterns are formed along edges of both substrates to prevent leakage of the liquid crystal layer filled therebetween. pattern) is formed.

A gate printed circuit board for supplying a driving signal and a data printed circuit board for supplying a data signal to the liquid crystal display panel 300 are connected to one edge of the liquid crystal display panel 300. The gate and the data printed circuit boards are brought into close contact with the bottom of the lower cover during the modularization process.

The backlight unit 100 may include a light source unit, an optical sheet, a light guide plate, and a reflecting plate.

The light source unit functions as a light source for emitting light, and a fluorescent lamp such as a cold cathode fluorescent lamp or an external electrode fluorescent lamp may be used. In addition to these fluorescent lamps, a light-emitting diode lamp may be used.

The light guide plate guides the light incident from the light source unit and supplies the light evenly to the liquid crystal display panel. That is, the light guide plate receives the light emitted from the light source using the transparent panel, and makes it evenly incident on the front surface of the liquid crystal display panel 300.

Meanwhile, a concave-convex structure of various shapes may be formed on the bottom surface of the light guide plate to reflect light to the liquid crystal display panel 300.

The light guide plate may be made of a transparent material such as polymethyl methacrylate (PMMA) or polycarbonate (PC).

The optical sheet is disposed on the light guide plate, and may be composed of a plurality of optical sheets according to a function.

The plurality of optical sheets include a diffusion sheet for uniformly diffusing the incident light to have a uniform luminance on the entire surface of the liquid crystal display panel 300, and a prism sheet for condensing light by regularly forming a prism shape on the surface thereof. Can be configured.

The reflector is disposed under the light guide plate, and reflects light due to high reflectance. That is, the reflecting plate reflects light exiting to the opposite side of the light guiding plate, re-injects into the light guiding plate, and directs the light to the liquid crystal display panel 300 to increase the light condensing rate.

The mold frame 200 accommodates and fixes the liquid crystal display panel 300 and the backlight unit 100.

In this case, the backlight unit 100 is formed with ear parts 110 and 120 having a shape that increases in size in the protruding direction, and the mold frame 200 includes ear storage parts 210 and which the ear parts can be accommodated. 220 is formed, and the backlight unit 100 and the mold frame 200 are fixed through the ears 110 and 120.

Hereinafter, the shape and position of the ear portion will be described in detail.

4A and 4C are plan views illustrating various embodiments of ear placement of the backlight unit according to the present invention.

The backlight unit 100 includes a light source unit (not shown), an optical sheet, a light guide plate, a reflecting plate, and ear parts 110, 120, and 130. At this time, the optical sheet, the light guide plate, and the reflecting plate are overlapped in order on the top view.

As can be seen in FIG. 4A, one end of the optical sheet, the light guide plate, and the reflecting plate is formed with a first ear 110 having a shape that increases in size in a protruding direction. That is, the end portion 112 is formed to have a greater width than the portion 114 where the first ear portion 110 starts.

Conventional ear portion was able to provide a coupling force to the backlight unit only in one of the vertical direction or left and right directions.

However, the ear portion of the shape that is increased in size in the protruding direction may provide a coupling force in both the vertical direction and the left and right directions.

Therefore, the present invention has an effect of using a small number of ear parts by improving the bonding force between the backlight unit and the mold frame, and has the effect of reducing the size of the ear parts.

On the other hand, the phenomenon of light splashing into the gap between the ear portion and the mold frame is called a glare phenomenon, according to the present invention the size and number is smaller than in the prior art has the effect of reducing the glare phenomenon.

The position of the first ear portion may be formed at a point asymmetrical with respect to the middle of the corner of one end of the light guide plate.

By doing so, there is an effect of preventing the light guide plate from being assembled upside down.

In addition, only one first ear may be formed at an edge of one end of the light guide plate. Ear portion according to the present invention is improved compared with the conventional bar, it is possible to prevent the removal of the backlight unit in the vertical direction and the movement of the backlight unit in the left and right directions at the same time.

Next, as can be seen in FIG. 4B, the backlight unit 100 may include a first ear 110 formed at one end and a second ear 120 formed at an edge adjacent to the corner.

The second ear portion 120 has a shape in which the size is increased in the protruding direction, this shape provides a coupling force in the vertical and horizontal directions.

Next, as can be seen in Figure 4c, the backlight unit 100 has a first ear 110 formed at one end of the corner, the second ear 120 formed at the corner adjacent to the corner, and the corner formed with the second ear It may include a third ear 130 formed in the corner facing the.

The second ear part 120 and the third ear part 130 are shaped to increase in size in the direction in which they protrude, and these shapes provide coupling force in the vertical and horizontal directions.

5A to 5D are diagrams illustrating various embodiments of an ear shape of a backlight unit according to the present invention.

First, as can be seen in Figure 5a, the shape of the ear portion may be in the form of an inverted trapezoid or an inverted semicircle whose size increases in the direction in which it protrudes. This increase in shape in the protruding direction provides a bonding force in the vertical direction and the left and right directions, thereby providing sufficient bonding force even with a small number of ears.

Next, as can be seen in Figure 5b, the shape of the ear portion may be in the form of a circular shape is increased in size in the protruding direction and then reduced again. This increase in shape in the protruding direction provides a bonding force in the vertical direction and the left and right directions, thereby providing sufficient bonding force even with a small number of ears.

Next, as can be seen in Figure 5c, the shape of the ear portion may be in the form of a T-shape in which the size is increased in the protruding direction. This increase in shape in the protruding direction provides a bonding force in the vertical direction and the left and right directions, thereby providing sufficient bonding force even with a small number of ears.

Next, as can be seen in Figure 5d, the shape of the ear portion may be in the form of a V-shape in which the size is increased in the protruding direction. This increase in shape in the protruding direction provides a bonding force in the vertical direction and the left and right directions, thereby providing sufficient bonding force even with a small number of ears.

6a to 6b are views showing another embodiment of the ear arrangement of the backlight unit according to the present invention.

First, as shown in FIG. 6A, the fourth ear 140 of the backlight unit may be formed at a vertex of the backlight unit. At this time, the shape of the fourth ear 140 may be in the form of a rectangle whose size is increased in the protruding direction.

As shown in FIG. 6A, the fourth ear 140 formed at the left and right vertices provides a coupling force in the up and down and left and right directions.

Next, as shown in FIG. 6B, the fifth ear 150 of the backlight unit may be formed near a vertex of the backlight unit. In this case, the shape of the fifth ear part 150 may be a shape in which the inclination is formed to be symmetrical with respect to the center of the corner and the shape in which the inclination is formed to one side in the protruding direction.

As shown in FIG. 6B, the fifth ear part 150 symmetrically provides coupling force in up, down, left, and right directions.

It will be understood by those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

Therefore, it should be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and from the equivalent concept are to be construed as being included in the scope of the present invention .

100-backlight unit
110, 120, 130, 140, 150-Ear
200-Mold Frame
300-LCD panel

Claims (10)

A light source unit emitting light; And
It includes a light guide plate to evenly transmit the light incident from the light source unit to the liquid crystal display panel,
One end of the light guide plate is a backlight unit, characterized in that the ear is formed in the shape of the size is increased in the protruding direction. The method of claim 1,
The position of the ear portion is a backlight unit, characterized in that formed at a point asymmetrical with respect to the center of the corner of one end of the light guide plate. 3. The method according to claim 1 or 2,
And one ear portion is formed at an edge of one end of the light guide plate. The method of claim 1,
And the ear part is formed at a vertex of the light guide plate. The method of claim 1,
The shape of the ear portion is a backlight unit, characterized in that any one of an inverted trapezoid, inverted semi-circle, round, T-shaped, or V-shaped. The method of claim 1,
And a reflector disposed under the light guide plate to reflect light exiting to a surface opposite to the light guide plate and to re-inject into the light guide plate. The method of claim 1,
And a optical sheet disposed on the light guide plate. A liquid crystal display panel for representing an image;
A backlight unit disposed under the liquid crystal display panel to supply light to the liquid crystal display panel; And
A mold frame accommodating the liquid crystal display panel and the backlight unit;
The backlight unit is a liquid crystal display module, characterized in that fixed to the mold frame through the ear portion of the shape that increases in size in the protruding direction. The method of claim 8,
The shape of the ear portion is a liquid crystal display module, characterized in that any one of an inverted trapezoidal, inverted semi-circle, round, T-shaped, or V-shaped. The method of claim 8,
The backlight unit includes:
A light guide plate for guiding light to be incident on the liquid crystal display panel;
A reflection plate disposed under the light guide plate to reflect light toward the liquid crystal display panel; And
And an optical sheet disposed on the light guide plate.

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