KR20080060736A - Back-light assembly and liquid crystal display device having the same - Google Patents

Abstract

A back light assembly and an LCD(Liquid Crystal Display) having the same are provided to offer the optimum numerical value of a plane portion and a slant portion of a light guide panel, thereby preventing the light leakage from generating. A light guide panel(400) is combined with a light emitting surface of a light source(300). A plane portion(410) and a slant portion(420) are formed at a side of the light guide panel and the ratio of the plane portion and the horizontal distance of the slant portion is below 1:5. The light guide panel includes a base. The thickness of the plane portion is thicker than that of the base. The slant portion connects the base with the plane portion. A side of the plane portion is a light receiving surface for receiving the light beam. The light source such as an LED(Light Emitting Device)(310) is separated from the light receiving surface with a predetermined distance and formed at the light receiving surface. The length of the light receiving surface is the same as the height of the light emitting surface of the LED.

Description

BACK-LIGHT ASSEMBLY AND LIQUID CRYSTAL DISPLAY DEVICE HAVING THE SAME}

1 is an exploded perspective view illustrating a liquid crystal display according to the present invention.

2 is a cross-sectional view of the A-A combination of FIG.

3 is a cross-sectional view showing a light guide plate according to the present invention.

4 is a perspective view illustrating a luminance test measurement point on an upper portion of a liquid crystal display panel.

5 to 7 are experimental data showing luminance distribution of the liquid crystal display according to the present invention.

8 is comparative experimental data illustrating a luminance distribution of a liquid crystal display according to the present invention.

             <Description of the code | symbol about the principal part of drawings>

100: liquid crystal display panel 210: LDI

310: LED element 310a: light emitting surface

400: Light guide plate 410: Flat part

420: slope 500: reflector

600: optical sheet 700: mold frame

The present invention relates to a liquid crystal display, and more particularly, to a backlight assembly for preventing light leakage of a liquid crystal display and a liquid crystal display having the same.

In general, a flat panel display (FPD) is a display device essential for realizing a compact and lightweight system such as a monitor of a desktop computer, a portable computer such as a notebook computer, a PDA, or a mobile phone terminal. The device includes a liquid crystal display (LCD), a plasma display panel (PDP), a field emission display (FED), and the like, in particular, the liquid crystal display has excellent visibility and an average. The power consumption is not only small compared to the CRT of the same image, but also generates a small amount of heat, and thus has been in the spotlight as a display device of a mobile phone, a computer monitor, and a television.

Most of the liquid crystal display devices as described above are non-emissive type display elements that display an image by controlling the amount of light source coming from the outside, so that the backlight includes a separate light source for irradiating light to the liquid crystal display panel. Assembly is required.

In this case, the backlight assembly may include an LED element as a light source, a light guide plate coupled to a light exit surface of the LED element, and a plurality of sheets provided on the light guide plate.

However, due to the recent trend of slimming of small and medium-sized products, the thickness of a plurality of parts has become thin, and the thickness of the light guide plate is also thin, but correspondingly, the thickness of the LED device providing light to the light guide plate has not been reduced. That is, since the light guide plate is thinner than the LED element, light generated by the LED element is not absorbed by the light guide plate, and thus light leakage phenomenon occurs.

Also, in order to overcome this problem, efforts have been made to prevent light leakage by placing a slope on the light guide plate so that one side of the light guide plate in contact with the light emitting surface of the LED device is the same as the thickness of the LED device. In addition, light leakage occurs, thereby causing a problem of inferior in uniformity of luminance.

In order to solve the above problems, an object of the present invention is to provide a backlight assembly for preventing light leakage and a liquid crystal display device having the same.

In addition, an object of the present invention is to provide a backlight assembly for increasing the uniformity of the brightness and a liquid crystal display device having the same.

In order to achieve the above object, the backlight assembly of the present invention includes a light source and a light guide plate coupled to the light exit surface of the light source, wherein at least one side of the light guide plate coupled to the light exit surface of the light source is reduced in planar portion and thickness. The inclined portion is formed, and the ratio of the length of the flat portion to the horizontal distance of the inclined portion is characterized in that 1: 5 or less.

The length of the flat portion is characterized in that formed between 0.2 to 0.4mm.

The horizontal distance of the inclined portion is characterized in that formed between 0.6 to 1.0mm.

The height of the flat portion is characterized in that greater than the inclination height of the inclined portion.

The light emitting surface of the light source and the height of the flat portion coupled to the light emitting surface of the light source is characterized in that the same.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms, and only the embodiments are intended to complete the disclosure of the present invention, and to those skilled in the art to fully understand the scope of the invention. It is provided to inform you. Like reference numerals in the drawings refer to like elements.

1 is an exploded perspective view illustrating a liquid crystal display according to the present invention, FIG. 2 is a cross-sectional view taken along line AA of FIG. 1, FIG. 3 is a cross-sectional view showing a light guide plate according to the present invention, and FIG. 5 to 7 are experimental data showing the luminance distribution of the liquid crystal display according to the present invention, and FIG. 8 is comparative experiment data showing the luminance distribution of the liquid crystal display according to the present invention.

1 and 2, a liquid crystal display according to the present invention includes a display assembly 1000, a backlight assembly 2000 that provides light to the display assembly 1000, the display assembly 1000, and a backlight. And a receiving member 800 for receiving and fixing the assembly 2000.

The display assembly 1000 may include a liquid crystal display panel 100, a liquid crystal display driver LCD (LDI) 210 mounted on one side of the liquid crystal display panel 100, and the liquid crystal display panel 100. It includes a flexible printed circuit board (FPCB, 220) connected to one end.

The liquid crystal display panel 100 includes a color filter (CF) substrate 110 and a thin firt transistor (TFT) substrate 120 disposed under the CF substrate 110.

The CF substrate 110 is coated with a common electrode made of a color filter on one surface and a transparent conductor such as indium tin oxide (ITO) or indium zinc oxide (IZO) on the color filter. have.

In the TFT substrate 120, a TFT having a matrix form is formed, and the source and gate terminals of the TFTs are respectively connected to a data line and a gate line, and a pixel electrode is connected to the drain terminal.

The LDI 210 is mounted on one side of the TFT substrate 120 to provide a data signal, a gate driving signal, which are signals for driving the liquid crystal display panel 100, and a plurality of timing signals for applying these signals at an appropriate time. And a gate driving signal and a data driving signal are applied to the gate line and the data line of the liquid crystal display panel 100, respectively.

One end of the FPCB 220 is connected to one side of the TFT substrate 120, and converts an external signal of an analog type, which is input through a pad unit 250 formed at the other end of the FPCB 220, into a digital signal, thereby converting the LDI ( 210 serves to supply. At this time, the other end of the FPCB 220 is bent and seated on the rear surface of the housing member 800.

In addition, one side of the TFT substrate 120 may apply a protective film 230 on the TFT substrate 120 to protect the LDI 210 and the FPCB 220 mounted on the TFT substrate 120. . That is, the passivation layer 230 is formed to cover the LDI 210 and the FPCB 220.

The backlight assembly 2000 may include a light source unit 300, a light guide plate 400 coupled to the light source unit 300, a reflector plate 500 provided below the light guide plate 400, and an upper portion of the light guide plate 400. The optical sheet 600 includes a light source 300, a light guide plate 400, a reflector 500, and a mold frame 700 for receiving the optical sheet 600.

The light source unit 300 is installed on the side of the light guide plate 400, and the light source unit 300 includes an LED device 310 and a substrate 320 on which the LED device 310 is mounted. The LED device 310 is a side view type device, and the LED device 310 emits light toward the side of the light guide plate 400. In addition, the substrate 320 is a flexible printed circuit board having excellent bending, and a circuit (not shown) is formed therein to supply external power to the LED device 310 through the circuit.

The light guide plate 400 is coupled to one side of the light source unit 300, that is, the light emitting surface of the LED device 310 in which light is generated, and has light having a light distribution in the form of a point light source or a linear light source. It serves to change the light to have. At this time, one side of the light guide plate 400 coupled to the light emitting surface of the LED element 310 is a flat portion 410 having the same height as the light emitting surface of the LED element 310, and from the flat portion 410 It is configured to include an inclined surface 420 inclined downward. Accordingly, light generated from the LED element 310 is incident on one surface of the light guide plate 400 adjacent to the LED element 310, and the light incident on the light guide plate 400 is converted into a surface light source form, thereby converting the liquid crystal into the liquid crystal. Light is emitted to the display panel 100. The structure of the light guide plate 400 will be described in detail later with reference to the drawings.

The reflector 500 is provided under the light guide plate 400, and reflects some light emitted from the lower part of the light guide plate 400 to the light exit surface of the backlight assembly 2000 to increase the light efficiency and to reduce the reflection of the entire incident light. Adjust the light emitting surface to have a uniform luminance distribution.

The optical sheet 600 includes a diffuser plate 610 and at least one prism sheet 620 and is disposed above the light guide plate 400 to uniformize the luminance distribution of light emitted from the light guide plate 400. do.

The mold frame 700 is formed in a rectangular frame shape having upper and lower portions open, and serves to sequentially receive the backlight assembly 2000 and the liquid crystal display panel 100. In addition, a step 710 is formed inside the mold frame 700, and a liquid crystal display panel 100 is mounted on the step 710, and a backlight assembly is disposed on the side and bottom of the step 710. The components of 2000 are stored in sequence.

The accommodating member 800 has a rectangular box shape having an open upper portion, and fixes the components of the liquid crystal display panel 100 and the backlight assembly 1000 accommodated in the mold frame 700. Therefore, the bottom chassis 800 in which the liquid crystal display panel 100 and the backlight assembly 1000 are accommodated is combined with a top chassis (not shown) to form a liquid crystal display device.

Meanwhile, as shown in FIG. 3, the light guide plate 400 according to the present invention is formed to be spaced apart from the base 402 by a predetermined distance horizontally with the base 402 and has a thicker thickness than the base 402. 410 and an inclined portion 420 connecting the base 402 and the flat portion 410. In this case, a side surface of the planar portion 410 is a light incident surface 400a through which light is incident, and the light incident surface 400a is formed of a light source unit 300 that is spaced apart from the light incident surface 400a by a predetermined distance, that is, an LED. An element 310 is provided. In addition, the length of the light incident surface 400a has a height substantially equal to the height of the light emitting surface 310a of the LED element 310. Therefore, light emitted from the light emitting surface 310a of the LED device 310 is incident on one side of the light guide plate 400, that is, the light incident surface 400a, and the incident light is transmitted through the inside of the light guide plate 400. The light in the form of a point light source is changed into a surface light source to emit the light in the direction of the liquid crystal display panel 100.

Hereinafter, while changing the length (B) of the planar portion 410 and the length (C) of the inclined portion 420 to prevent light leakage phenomenon, a high luminance uniformity is presented. In this case, as shown in FIG. 4, the luminance is measured by selecting nine points a1 to a9 of the upper surface of the liquid crystal display panel 100 on which an image is displayed, and measuring the nine points a1 to a9. Selects an edge and a center point of an upper surface of the liquid crystal display panel 100.

As shown in FIG. 5, the ratio of the length B of the flat portion of the light guide plate 400 to the horizontal length C of the inclined portion is 1: 0.8. Specifically, the length B of the flat portion is fixed at 1 mm, and the inclined portion The horizontal length (C) is formed to be 0.8mm, the inclined portion forms a slope within the range of the horizontal length (C). At this time, the height (D) of the inclined portion is fixed to 0.235mm, it was tested three times under the same conditions as described above.

When measured at a point (a1 ~ a9) of nine of the liquid crystal display panel 100, the luminance by the above-described conditions, the minimum luminance value of each ^{2244.5cd / m 2, 2175.4cd / m} 2, 1825.5cd / m 2 is measured was the maximum luminance value of the ^{3300.2cd / m 2, 3231.0cd / m} 2, 2789.6cd / m 2 was measured, respectively. In addition, the average value of the luminance was measured at 2788.1cd / m ² , 2710.3cd / m ² , 2328.4cd / m ² , respectively, and the luminance uniformity was measured at 68.0%, 67.3%, and 65.4%, respectively. That is, the luminance average value under the above conditions satisfied all of the luminance reference point 1900 cd / m ² or more as a general standard. However, the average of the luminance uniformity was measured to be 66.9%, which is lower than the conventional luminance uniformity 70%.

Therefore, the luminance under the above conditions is higher than the conventional luminance to reduce the light loss, but the luminance uniformity is smaller than the conventional uniform value shows that the light leakage phenomenon appeared.

In addition, as shown in FIG. 6, the ratio of the length B of the planar portion of the light guide plate 400 to the horizontal length C of the inclined portion is 1: 4. Specifically, the length B of the planar portion is 1.0 mm or less. It is fixed at 0.2 mm, and the horizontal length C of the inclined portion is formed to be 1.0 mm or less, that is, between 0.8 mm, and the inclined portion forms a slope within the range of the horizontal length C. At this time, the height (D) of the inclined portion is fixed to 0.235mm, it was tested three times under the same conditions as described above.

When measured at a point (a1 ~ a9) of nine of the liquid crystal display panel 100, the luminance by the above-described conditions, the minimum luminance value of each ^{2170.3cd / m 2, 3151.0cd / m} 2, 1967.9cd / m 2 is measured was the maximum luminance value of the ^{2653.4cd / m 2, 2627.9cd / m} 2, 2630.0cd / m 2 was measured, respectively. In addition, the average value of the luminance respectively ^{2430.4cd / m 2, 2388.5cd / m} 2, 2363.8cd / m ² was measured, the luminance uniformity is 81.8%, 79.9%, 74.8% was determined, respectively. That is, in the above conditions, the luminance reference point of 1900 cd / m ² or more was generally satisfied. However, the average of the luminance uniformity is measured to be 78.8%, which is higher than the conventional luminance uniformity of 70%, indicating that there is a significant effect.

In addition, as shown in FIG. 7, the ratio of the length B of the flat portion of the light guide plate 400 to the horizontal length C of the inclined portion 1: 5. Specifically, the length B of the flat portion is 1 mm or less, that is, 0.2. It is fixed at mm, and the horizontal length C of the inclined portion is formed to be 1.0 mm or more, that is, 1.102 mm, and the inclined portion forms a slope within the range of the horizontal length C. At this time, the height (D) of the inclined portion is fixed to 0.235mm, it was tested three times under the same conditions as described above.

When measured at a point (a1 ~ a9) of nine of the liquid crystal display panel 100, the luminance by the above-described conditions, the minimum luminance value of each ^{1963.8cd / m 2, 2079.8cd / m} 2, 1916.0cd / m 2 is measured had been the maximum luminance value of the ^{2785.6cd / m 2, 2897.4cd / m} 2, 2802.9cd / m 2 was measured, respectively. In addition, the average value of the luminance respectively ^{2407.6cd / m 2, 2514.6cd / m} 2, 2370.5cd / m ² was measured, the luminance uniformity is 70.5%, 71.8%, 68.4% was determined, respectively. That is, under the above conditions, the luminance average value generally satisfies all of the luminance reference point 1900 cd / m ² or more as a reference. However, the luminance uniformity was 70% or more except once, and the average luminance uniformity was 70.2%. This showed a value slightly higher than the conventional luminance uniformity of 70%.

That is, as shown in FIG. 8, the ratio of the length B of the planar portion of the light guide plate 400 to the length C of the inclined portion C is 1: 0.8 as shown in Experiment 1 (FIG. 5). The luminance was higher than the luminance reference value, but the luminance uniformity was found to be lower than the luminance uniformity reference value. It can be seen that the average luminance and luminance uniformity are significantly improved than the reference values. In addition, when the ratio of the length B of the planar portion of the light guide plate 400 to the length C of the inclined portion is shown in Experiment 3 (FIG. 7), in the case of 1: 5, the average luminance and the luminance uniformity are improved from the reference values. You can see that. In particular, in case of Experiment 2, the luminance and uniformity were considerably improved than in case of Experiment 3, and when the ratio of the length (B) of the planar portion of the light guide plate 400 to the length (C) of the inclined portion differs by 1: 5 or more, the luminance uniformity is Means it can fall.

Therefore, the ratio of the length B of the planar portion of the light guide plate 400 to the length C of the inclined portion is 1: 5, and the length B of the planar portion is preferably in the range of 0.2 to 0.4 mm, Further, the horizontal length C of the inclined portion was most excellent when it was in the range between 0.6 and 1.0 mm, more preferably the length B of the flat portion was 0.2 mm, and the horizontal length C of the inclined portion was 0.8 mm.

In addition, although the light source unit 300 is provided on one side of the light guide plate 400, the light source unit may be provided at both sides or the corners of the light guide plate 400, and the liquid crystal display device may be provided under the above conditions. Of course it can be configured.

Although described above with reference to the drawings and embodiments, those skilled in the art that the present invention can be variously modified and changed within the scope without departing from the spirit of the invention described in the claims below. I can understand.

As described above, the backlight assembly of the present invention and the liquid crystal display including the same provide an optimal value of the flat portion and the inclined portion of the light guide plate when applying the structure of the inclined portion of the light guide plate, thereby preventing light leakage of the liquid crystal display device. It is effective.

In addition, the present invention has the effect of increasing the luminance uniformity of the liquid crystal display device.

In addition, the present invention has the effect that the liquid crystal display device can be thinned without deteriorating luminance and luminance uniformity.

Claims (6)

Light source, It includes a light guide plate coupled to the light exit surface of the light source, At least one side of the light guide plate coupled to the light emitting surface of the light source is formed with a flat portion and the inclined portion is reduced in thickness, the backlight assembly, characterized in that the ratio of the horizontal distance between the length of the flat portion and the inclined portion 1: 5. The backlight assembly of claim 1, wherein the planar portion has a length between 0.2 and 0.4 mm. The backlight assembly of claim 1, wherein the horizontal distance of the inclined portion is formed between 0.6 and 1.0 mm. The backlight assembly according to any one of claims 1 to 3, wherein the height of the flat portion is greater than the inclination height of the inclined portion. 5. The backlight assembly of claim 4, wherein the height of the light emitting surface of the light source and the planar portion coupled to the light emitting surface of the light source are the same. A display panel, a light source for providing light to the display panel, and a light guide plate coupled to the light emitting surface of the light source, At least one side of the light guide plate coupled to the light emitting surface of the light source is formed with a flat portion and an inclined portion having a reduced thickness, wherein the ratio of the length of the flat portion to the horizontal distance of the inclined portion is 1: 5 or less.

Images