KR101559791B1 - back-light unit - Google Patents

Abstract

The present invention relates to a backlight unit. According to an embodiment of the present invention, there is provided a light guide module comprising: a light guide plate having a light entrance portion on one side thereof; a light guide portion including a reflection plate coupled to a lower side of the light guide plate; A light source unit for emitting light to the light guide unit; And a frame having a second engaging portion to be engaged with the first engaging portion of the light guiding portion.

A backlight, a light emitting diode, a protrusion, a light guiding portion,

Description

Backlight unit < RTI ID = 0.0 >

The present invention relates to a backlight unit.

In general, liquid crystal displays (LCDs) are used in various devices ranging from televisions, notebook computers, monitors for desktop computers, and mobile phones.

Since the LCD itself can not emit light, a light emitting device capable of illuminating the liquid crystal panel is required to display image information.

Since the light emitting device of the LCD is coupled to the back surface of the liquid crystal panel, it is called a backlight unit. The backlight unit forms a uniform surface light source to provide a light source to the liquid crystal panel.

A typical backlight unit includes a light source, a light guide plate, a diffusion sheet, a prism, and a protective sheet. As the light source, a fluorescent lamp such as a mercury cold cathode fluorescent lamp or a light emitting diode may be used.

An object of the present invention is to provide a backlight unit which can reduce the overall weight of the backlight unit while improving the optical characteristics of the backlight unit by using the light guide plate, while reducing the thickness of the entire backlight unit.

In addition, by tiling the LGP adjacent to each other, the LGP improves the reliability, which is a problem in applying a large LGP, and achieves a high contrast ratio through local dimming.

In this way, when the light guide plate is modularized and connected to each other, it is desired to provide a module that can be easily assembled and firmly assembled.

It is another object of the present invention to provide a backlight unit capable of improving nonuniformity of light including a wobble line that may occur between light guide plates.

According to an aspect of the present invention, there is provided a light guiding plate including a light guiding plate having a light incident portion on one side thereof and guiding light, a light guiding portion including a reflection plate coupled to the lower side of the light guiding plate, A light source unit for emitting light to the light guide unit; And a frame having a second engaging portion to be engaged with the first engaging portion of the light guiding portion.

According to another aspect of the present invention, there is provided a liquid crystal display comprising a light guide plate having a light entrance portion on one side thereof and a light guide plate for guiding light, and a reflector including a frame portion to which at least a part of a side surface of the light guide plate is coupled, A light guide portion; A light source unit for emitting light to the light guide unit; And a frame having a second coupling portion coupled to the first coupling portion of the light guide portion.

The backlight unit for a display according to the present invention has the following effects.

First, since the light source is disposed on the side surface of the light guide plate, the thickness of the entire backlight unit can be reduced, thereby reducing the thickness of a display panel such as an LCD.

Second, the present invention can provide a backlight unit suitable for display on a large screen by modularizing a backlight unit combined with a light guide plate and a light source, assembling a plurality of modules in a tiling manner.

Third, the present invention can easily and easily be assembled with a neighboring module, and can be easily assembled with a frame by forming a coupling member in each modular light guide plate module.

Fourthly, according to the present invention, local dimming that can partially drive the light source according to an image can be applied, and a screen having a high contrast ratio can be realized.

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

1 and 2, the backlight unit of the present embodiment mainly includes a light guide portion 10 including a light guide plate 20 and a reflection plate 30, a light source portion 40, and a frame 50 can do.

Here, the light guide plate 20 has a flat upper surface, a lower surface inclined, and a light entrance portion 21 through which the light of the light source unit 40 is incident.

At this time, the thickness of the light guide plate 20 is made thinner as the distance from the light incident portion 21 is increased, so that the lower surface of the light guide plate 20 has inclined surfaces having such inclination as a whole.

The light source unit 40 includes a circuit board 42 and a light source 41 arranged on the circuit board 42. The light source 41 includes a plurality of semiconductor light emitting devices such as LEDs arranged at regular intervals Can be used.

The light incident portion 21 of the light guide plate 20 may be formed to be thinly protruded with respect to the light guide plate 20. That is, since the light-incident portion 21 protrudes from the effective screen, the dark portion due to the distance between the light sources 41 can be removed, and direct light leakage by the light source 41 can be prevented at the seam between the light- .

The reflection plate 30 of the light guide unit 10 is coupled to the lower side of the light guide plate 20. One example of the connection between the light guide plate 20 and the reflection plate 30 is a coupling projection 22 provided on the light guide plate 20, May be coupled to a coupling hole (32) provided in the reflection plate (30).

At this time, at least one side of the reflection plate 30 may be provided with a rim 31 for stably coupling the light guide plate 20. FIG. 1 shows a frame portion 31 that is bent and extended upward at both side ends of a reflection plate 30 and shows a structure in which the light guide plate 20 is coupled between the frame portions 31. As shown in FIG.

At least one or more coupling holes 32 may be formed in the edge portion 31 so that the coupling projections 22 provided on the light guide plate 20 can be more firmly coupled to the coupling holes 32 have.

The light guide plate 20 can be provided at both ends of the edge portion of the edge portion 31 with a joining jaw 23 so that the relative positions of the light guide plate 20 and the reflector 30 are uniformly coupled .

Since the coupling jaw 23 is located on the upper side of the end of the rim 31 and the coupling jaw 23 of the adjacent light guide plate 20 is connected to the rim 23, the continuity of the light can be prevented by the rim 31 have. That is, when the light guide portions 10 are connected to each other in a neighboring manner, the frame portion 31 can be prevented from being seen when viewed from the side from which light is emitted.

At least a part of the side surface of the light guide plate 20 (excluding the engaging jaw 23) is formed in the rim portion 31 of the reflector 30 as described above, The transmission of light to the adjacent light guide plate 20 can be minimized when the light guide unit 10 is coupled to the adjacent light guide unit 10. [

Therefore, the effect of the light and shade can be maximized when the light source unit 40 is dividedly driven. Further, the end portion of the light guide plate 20 opposite to the light incident portion 21 is not blocked by the frame portion 31, It is possible to reduce the number of dark portions of the light-incident portion 21 that may occur due to the wobble line and the step of the light-incident portion 21 that may occur at the boundary portion of the light- It can be greatly improved.

The light guide plate 20 and the reflection plate 30 are coupled to each other at the other end of the light incident portion 21 so that the light guide plate 20 and the reflection plate 30 are more tightly coupled to each other. Can be done.

The end portions 34 of the reflection plate 30 located on the opposite side of the light incidence portion 21 when coupled to each other have a step to be located above the light incidence portion 21 of the adjacent light guide plate 20, As an example of the structure, it may have a stepped shape as shown in Fig.

When the end portion 34 of the reflection plate 30 is positioned above the light incident portion 21 of the adjacent light guide plate 20, the light source 41 located in the light source portion 40 can be prevented from being directly irradiated to the outside have.

That is, by making the light guiding portion 10 small in size and arranging the light source 41 on the side surface thereof, a sufficient amount of light is ensured and the heat generated in the light source 41 is dispersed. 41 can be optically concealed.

3, the LGP 20 and the LGP 30 may be coupled to each other to form a large-area backlight unit. Therefore, the LGP 20 and the LGP 30 may be relatively It is advantageous to keep the position constant. That is, when the plurality of light guide portions 10 are coupled to each other, the size deviation of each light guide portion 10 can be kept small.

As described above, when the light guiding portions 10 are connected to each other to construct a large-area back light unit, the light guiding portion 10 includes a first coupling portion 11 for coupling with the frame 50.

The first coupling portion 11 of the light guiding portion 10 is engaged with the second coupling portion 51 of the frame 50.

4 to 5B, the first engaging portion 11 and the second engaging portion 51 may be slidably engaged with each other. That is, the first engaging portion 11 includes the protruding portion 12, and the second engaging portion 51 includes the sliding groove 52 into which the protruding portion 12 is inserted and horizontally moved, Can be combined.

5A, the sliding groove 52 includes a first groove 52a into which the protrusion 12 can be inserted, and a second groove 52a extending in the first groove 52a and narrower than the first groove 52a. And a groove 53b.

Therefore, the light guiding portion 10 can be easily coupled to the frame 50 by the engagement of the first and second engaging portions 11 and 51. That is, the light guide portion 10 can be assembled to the frame 50 without a separate screw fastening, and the direction of engagement of the sliding engagement (arrow direction in FIG. 5A) is possible in all directions.

5B, the first engaging portion 11 further includes an auxiliary protruding portion 13, and the second engaging portion 51 includes an insertion groove 53 into which the auxiliary protruding portion 13 is inserted. . The auxiliary protrusions 13 and the insertion grooves 53 are engaged with the protrusions 12 and the sliding grooves 52 at the positions where the protrusions 12 and the sliding grooves 52 are engaged, So that the coupling state can be firmly maintained.

On the other hand, as shown in the drawing, it is more advantageous that the first coupling portion 11 is located on the reflection plate 30 of the light guiding portion 10.

The light guide 10 coupled to each other may be coupled in the transverse direction and the longitudinal direction. By connecting the light guide 10 and the light source 40, a backlight of a large display can be realized.

Further, by attaching the light guide portion 10 in a tiling manner, reliability in manufacturing a large backlight unit can be improved, and local dimming that can partially drive the light source portion 40 according to an image can be applied A screen having a high contrast ratio (contrast ratio) can be realized.

As shown in Fig. 6, the liquid crystal panel 200 is provided on the above-described backlight unit (hereinafter, referred to as 100) to constitute the liquid crystal display device 400. [

The liquid crystal panel 200 positioned on the backlight unit 100 includes a liquid crystal layer 230 injected between upper and lower substrates 210 and 220 facing each other (see FIG. 7).

A driving unit (not shown) for driving the liquid crystal panel 200 may be provided on one side of the liquid crystal panel 200.

A lower cover 310 covering the backlight unit 100 is positioned and an upper cover 320 covering a front surface of the liquid crystal panel 200 may be disposed on the liquid crystal panel 200.

In the liquid crystal panel 200, liquid crystal cells constituting pixel units are arranged in a matrix form, and an image is formed by controlling light transmittance of liquid crystal cells according to image signal information transmitted from a driving unit.

The driving unit may include a flexible printed circuit board (FPC), a driving chip mounted on the flexible printed circuit board, and a circuit board (PCB) connected to the other side of the flexible printed circuit board.

As shown in the figure, the backlight unit 100 is located behind the liquid crystal panel 200, and a plurality of optical sheets 110 may be provided on the backlight unit 100.

The optical sheet 110 is disposed on the rear surface of the liquid crystal panel 200 and may include a diffusion sheet, a prism sheet, and a protective sheet.

Here, the diffusion sheet serves to diffuse light from the backlight unit 100 and supply the light to the liquid crystal panel 200. The prism sheet is formed with a prism having a triangular prism shape on a top surface thereof. The prism sheet functions to condense the light diffused in the diffusion sheet in a direction perpendicular to the plane of the upper liquid crystal panel 200.

The micro prisms formed on the prism sheet have predetermined angles. The light passing through the prism sheet proceeds almost vertically to provide a uniform luminance distribution. The topmost protective sheet protects the prism sheet, which is susceptible to scratches.

7, a plurality of gate wirings and a plurality of data wirings are formed in a matrix on a lower substrate 210 of the liquid crystal panel 200. A pixel electrode and a thin film transistor Thin Film transistor (TFT) 240 are formed.

The signal voltage applied through the thin film transistor 240 is supplied to the liquid crystal layer 230 by the pixel electrode, and the liquid crystal layer 230 is aligned according to the signal voltage to determine the light transmittance.

The upper substrate 220 is provided with a color filter 270 made of RGB pixels having a predetermined color passing therethrough and a common electrode 270 made of a transparent conductive material such as ITO (Indium Tin Oxide) or IZO (Indium Zinc Oxide) 260 are formed. Upper and lower sides of the liquid crystal layer 230 may be positioned with the alignment layer 250.

The performance of the liquid crystal display device 400 as described above can be maximized by using the backlight unit 100 described above.

A liquid crystal TV can be constructed using the liquid crystal display device 400 as described above.

8, the broadcast data stream received from the tuner 510 is supplied to the liquid crystal TV 500 through the processing unit 520, the decoder 530, and the A / V output unit 540, And displayed on the display device 400. [

The operation of the tuner 510 or the processing unit 520 may be controlled through the control unit 550 and the control unit 550 may further include the memory 560. [

When a user selects and designates an arbitrary broadcast channel by operating the liquid crystal TV having such a configuration, the control unit 550 controls the tuner 510 and the processing unit 520 to tune to the corresponding broadcast channel, A data stream of a broadcast program provided through a broadcast channel is separated into audio and video data and the like.

The decoder 530 decodes the data output from the processing unit 520 into audio and video signals and outputs the audio and video signals to the liquid crystal display 400 or the speaker unit 540 through the A / V output unit 540. [ The audio output unit 570 and the like.

At this time, the backlight unit 100 is driven through the backlight driving unit 410 to display a screen displayed on the liquid crystal panel 200.

Meanwhile, the broadcast data stream transmitted to the processing unit 520 may be provided through the Internet.

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. Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments but should be determined according to the claims.

1 is an exploded perspective view illustrating a backlight unit according to an embodiment of the present invention.

2 is a side view of Fig.

3 is a view showing a backlight unit in which a plurality of light guide units are modularized and assembled.

4 is a plan view showing the connection state of the light guide portion and the frame.

5A and 5B are enlarged views showing a connection state of the light guide portion and the frame.

6 is an exploded view showing an example of a liquid crystal display device.

7 is a cross-sectional view showing an example of a liquid crystal panel.

8 is a block diagram showing a liquid crystal TV including a liquid crystal display device.

Claims (16)

A light guide unit including a light guide plate having a light entrance portion on one side and guiding light, and a reflection plate coupled to a lower side of the light guide plate, the light guide portion having a first coupling portion; A light source unit for emitting light to the light guide unit; And a frame having a second engaging portion to be engaged with the first engaging portion of the light guiding portion, The light-incident portion of the light- The light guide plate having a thickness thinner than the thickness of the light guide plate, The reflector includes: And a rim coupled to both sides of the light guide plate, The rim of the reflector Wherein a side surface of the light incident portion of the light guide plate is exposed to cover both sides of the light guide plate. The backlight unit according to claim 1, wherein the first engaging part and the second engaging part are slidingly coupled to each other. The backlight unit of claim 1, wherein the first engaging portion includes a protrusion, and the second engaging portion includes a sliding groove into which the protrusion is inserted and coupled horizontally. The backlight unit according to claim 3, wherein the first engaging portion further includes an auxiliary projection, and the second engaging portion further includes an insertion groove into which the auxiliary projection is inserted. The backlight unit according to claim 4, wherein the auxiliary projection and the insertion groove are engaged with each other at a position where the projection and the sliding groove are engaged. The backlight unit according to claim 3, wherein the sliding groove includes a first groove into which the protrusion can be inserted, and a second groove extending from the first groove and narrower than the first groove. The backlight unit according to claim 1, wherein the first coupler is located on the reflector. delete delete The backlight unit according to claim 1, wherein at least one third coupling portion is formed in the rim portion. The backlight unit according to claim 1, wherein the light guide plate is provided with a coupling jaw which is coupled to the rim and at least a part of the side surface of the light guide plate is positioned above the rim. 11. The backlight unit of claim 10, wherein the light guide plate includes at least one fourth coupling unit coupled to the third coupling unit. 13. The backlight unit of claim 12, wherein the third coupling portion is a coupling hole, and the fourth coupling portion is a protruding coupling protrusion coupled to the coupling hole. The backlight unit according to claim 1, further comprising a coupling part coupled to the reflector at the other end of the light entrance part of the light guide plate. The backlight unit according to claim 1, wherein the backlight unit is a part of a liquid crystal display device including a liquid crystal panel. delete

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