KR101447244B1 - Backlight unit and liquid crystal display device comprising the same - Google Patents

Abstract

The present disclosure relates to a backlight unit, comprising: a light guide plate for guiding light; And a lamp assembly which includes a substrate extending in one direction and a plurality of LED packages arranged on the substrate along the longitudinal direction of the substrate, the lamp assembly being positioned to face one side of the light guide plate and emitting light toward one side of the light guide plate; Each LED package including a first LED chip of a first color, a second LED chip of a second color different from the first color, and a phosphor of a third color different from the first color and the second color, And an encapsulant covering the LED chip and the second LED chip, wherein the first LED chip and the second LED chip are arranged along the longitudinal direction of the substrate and are arranged to be shifted from each other in the width direction of the substrate, and a backlight unit To a liquid crystal display device.

Description

BACKLIGHT UNIT AND LIQUID CRYSTAL DISPLAY DEVICE COMPRISING THE SAME [0002]

The present invention relates to a backlight unit and a liquid crystal display device.

Herein, the background art relating to the present disclosure is provided, and these are not necessarily meant to be known arts.

The liquid crystal display device is a display device having various advantages such as small size, light weight and low power consumption, and is used for various purposes such as a monitor for a notebook PC, a monitor for a desktop PC, and a large flat panel TV.

FIG. 1 is an exploded perspective view showing a general liquid crystal display device, and FIG. 2 is a view partially showing an example of a conventional edge type backlight unit.

1, the liquid crystal display 1 includes a liquid crystal panel 10, a backlight unit 30, a liquid crystal panel 10, and a lower cover 60 and an upper cover 70 ).

Since the liquid crystal panel 10 included in the liquid crystal display device is mostly composed of a light-receiving device that displays an image by adjusting the amount of light coming from the outside, the liquid crystal display device has a structure in which a liquid crystal panel 10 A backlight unit 30 is required.

The backlight unit 30 provides light to the liquid crystal panel 10, and the provided light is transmitted through the liquid crystal panel 10. At this time, the liquid crystal panel 10 adjusts the transmittance of light to realize an image. The backlight unit 30 includes a lamp assembly 40 and may be divided into an edge type and a direct type according to the arrangement of the lamp assembly 40. The edge type is configured such that the light emitting lamp assembly 40 is disposed on the side surface of the light guide plate 35 for guiding light and the light guide plate 35 disposed on the back surface of the liquid crystal panel 10 enters the side surface of the light guide plate 35 And provides light in a manner that guides light toward the liquid crystal panel 10. In the direct type, a lamp assembly including a plurality of lamps is disposed on the back surface of the liquid crystal panel, and light emitted from the plurality of lamps is directly provided to the front liquid crystal panel. The edge type has many advantages such as good uniformity of light, a long durability life, and advantageous in making a thin liquid crystal display device as compared with a direct type.

As the lamp used in the lamp assembly 40, electro luminescence (EL), a cold cathode fluorescent lamp (CCFL), a hot cathode fluorescent lamp (HCFL), a light emitting diode (LED) Of these, LEDs are increasingly used because they have low power consumption and excellent luminous efficiency.

1 shows an edge type backlight unit 30. A reflection plate 25 is provided under the light guide plate 35 and an optical member 45 is provided on the light guide plate 35. [ The reflection plate 25 reflects the light incident from the lamp assembly 40 to the upper liquid crystal panel 10, and may include a metal having a high reflectance. The optical member 45 serves to diffuse or condense the light incident from the light guide plate 35. The optical member 45 may be composed of a diffusion sheet 43 and a light condensing sheet 47. The diffusion sheet 43 serves to diffuse the light and to make the brightness of the light uniform. The light collecting sheet 47 condenses the light to improve the brightness or diffuse the light to make the brightness more uniform.

1, the lamp assembly 40 is disposed to face one side of the light guide plate 35 and includes a substrate 11 elongated in one direction and a plurality of LED packages 15 arranged in a line on the substrate . As shown in FIG. 2, the lamp assembly 40 may be provided in a pair so as to face the opposite two sides of the light guide plate 35, respectively.

FIG. 3 is a plan view showing an example of a conventional LED package, and FIG. 4 is a sectional view showing an example of a conventional lamp assembly.

The LED package 15 includes two LED chips of different colors and an encapsulant covering two LED chips. The encapsulant has two LEDs and a phosphor having a different color. 3, the LED package 15 includes two LED chips 13 and 17 including a left blue LED chip 13 and a right green LED chip 17, and a red phosphor. (19). The light emitted from the blue LED chip 13 is excited by the red phosphor to emit red light and the light emitted from the green LED chip 17 is not substantially excited by the red phosphor, The red light from the blue LED chip 13 does not affect the area B on the right side of the green LED chip 17, The green light by the green LED chip 17 does not affect the area C on the left side of the blue LED chip 13 so that the area C on the left side of the blue LED chip 13 emits red light, The color separation phenomenon occurs in which the green light C is emitted in the region B on the right side of the region 17.

4, when a plurality of the LED packages 15 are arranged in a line on the substrate 11 to constitute the lamp assembly 40, the green light emitted from one LED package 15 passes through the adjacent LEDs 15, The white light is mixed with the red light emitted from the package 15, thereby significantly reducing the color separation phenomenon. That is, when a plurality of LED packages 15 are arranged in a line on the substrate 11 to constitute the lamp assembly 40, lights of different colors emitted from the adjacent LED packages 15 are mixed with each other to realize white light . However, regions B and C emitting green light and red light exist in both end portions of the substrate 11, which can not be expected to be mixed with light emitted from other adjacent LED packages, and color separation phenomenon is not completely prevented In fact.

The front edge portion of the liquid crystal panel 10 in the conventional liquid crystal display device 1 is covered with the upper cover 70 with a considerable width so that even if color separation phenomenon occurs at both ends of the lamp assembly 40, There is a case that the image quality of the display device 1 is not affected. However, since the width of the front edge portion of the liquid crystal panel 10 covered by the upper cover 70 becomes smaller with the slimming of the liquid crystal display device 1 in recent years, The color separation phenomenon that is caused is a cause of deteriorating the image quality of the liquid crystal display device 1.

This will be described later in the Specification for Implementation of the Invention.

SUMMARY OF THE INVENTION Herein, a general summary of the present disclosure is provided, which should not be construed as limiting the scope of the present disclosure. of its features).

To this end, the disclosure provides a backlight unit comprising: a light guide plate for guiding light; And a lamp assembly which includes a substrate extending in one direction and a plurality of LED packages arranged on the substrate along the longitudinal direction of the substrate, the lamp assembly being positioned to face one side of the light guide plate and emitting light toward one side of the light guide plate; Each LED package including a first LED chip of a first color, a second LED chip of a second color different from the first color, and a phosphor of a third color different from the first color and the second color, And an encapsulant covering the LED chip and the second LED chip, wherein the first LED chip and the second LED chip are arranged along the longitudinal direction of the substrate and are arranged to be shifted from each other in the width direction of the substrate .

The present disclosure also discloses a liquid crystal display device including a light guide plate for guiding light; A lamp assembly including a substrate and a plurality of LED packages arranged on the substrate along the longitudinal direction of the substrate, the lamp assembly being positioned to face one side of the light guide plate and emitting light toward one side of the light guide plate; And a liquid crystal panel disposed on the light guide plate and receiving light emitted from the light guide plate to display an image, wherein the LED package includes a first LED chip of a first color, a second LED chip of a second color different from the first color, And an encapsulant including a phosphor of a third color different from the first color and the second color and covering the first LED chip and the second LED chip, wherein the first LED chip and the second LED chip are arranged in the longitudinal direction of the substrate And are arranged to be shifted from each other in the width direction of the substrate.

This will be described later in the Specification for Implementation of the Invention.

1 is an exploded perspective view showing a general liquid crystal display device,
2 is a partial view of an example of a conventional edge type backlight unit,
3 is a plan view showing an example of a conventional LED package,
4 is a cross-sectional view showing an example of a conventional lamp assembly,
5 is a plan view showing an example of a lamp assembly according to the present disclosure,
6 is a plan view showing an example of an LED package according to the present disclosure;
7 is a cross-sectional view showing another example of the LED package according to the present disclosure;
8 is a cross-sectional view showing an example of a lamp assembly according to the present disclosure;

The present disclosure will now be described in detail with reference to the accompanying drawings.

A liquid crystal display device according to the present disclosure includes a liquid crystal panel and a backlight unit.

The backlight unit according to the present disclosure includes a light guide plate for guiding light and a lamp assembly positioned to face one side of the light guide plate and emitting light toward one side of the light guide plate. The lamp assemblies may be provided in pairs, in which case the lamp assemblies are positioned to face two mutually opposing sides of the light guide plate and emit light toward the two opposing sides of the light guide plate (Figures 1 and 2 Reference).

Fig. 5 is a plan view showing an example of a lamp assembly according to the present disclosure, Fig. 6 is a plan view showing an example of an LED package according to the present disclosure, and Fig. 7 is a cross- And Fig. 8 is a cross-sectional view showing an example of the lamp assembly according to the present disclosure.

The lamp assembly 140 includes a substrate 111 and a plurality of LED packages 115, as shown in Fig. The substrate 111 extends in one direction and is formed to have a long length and a narrow width. The plurality of LED packages 115 are arranged in a line in the longitudinal direction of the substrate 111.

The LED package 115 includes an encapsulating portion 119 covering two LED chips 113 and 117 and two LED chips 113 and 117 as shown in Figs. Hereinafter, for convenience of explanation, the LED chip located on the left side in FIGS. 5 and 6 is defined as the first LED chip 113 and the LED chip located on the right side is defined as the second LED chip 117.

The LED package 115 may include a lead frame 112 and a housing 114 formed integrally with the lead frame 112, as shown in Fig. In this case, the two LED chips 113 and 117 are mounted on the lead frame 112 of the cavity bottom formed inside the housing 114 and are electrically connected to the lead frame 112, And the mixed encapsulant is dispensed into the cavity inside the housing 114 so as to cover the two LED chips 113 and 117.

The first LED chip 113 and the second LED chip 117 are of different colors and the encapsulant 119 includes a phosphor having a third color different from that of the two LED chips 113 and 117 do. For example, the first LED chip 113 may be a blue LED chip, the second LED chip 117 may be a green LED chip, and the sealing portion 119 may include a red phosphor. As another example, the first LED chip 113 may be a blue LED chip, the second LED chip 117 may be a red LED chip, the sealing portion 119 may include a green phosphor, Chips and phosphors can be used.

5 and 6, in each LED package 115, the first and second LED chips 113 and 117 are arranged at intervals along the longitudinal direction x of the substrate 111, (Y) in the width direction (111). The two LED chips 113 and 117 are arranged so as to be shifted from each other in the width direction y so that the light emitted from each of the LED chips 113 and 117 is not interfered by the adjacent LED chips in the four directions . That is, the light emitted from the first LED chip 113 on the left side can reach the peripheral area of the second LED chip 117 on the right side without being interfered by the second LED chip 117 on the right side, The light emitted from the second LED chip 117 can reach the peripheral area of the first LED chip 113 on the left side without being interfered by the first LED chip 113 on the left side. Thus, for example, when using the combination of the blue LED chip 113 and the encapsulation 119 including the green LED chip 117 and the red phosphor, on top of the single LED package 115, Both of the region on the left side of the first LED chip 113 and the region on the right side of the second LED chip 117 as well as the center region where the first LED chip 113 and the second LED chip 117 are located, It mixes well and emits white light.

As described above, the two LED chips provided in the LED package 115 are arranged to be shifted in the width direction (y) so that the individual LED packages 115 emit white light as a whole without color separation, The light emitted from one LED package 115 becomes white without being mixed with the light emitted from the adjacent LED package 115. In this case, That is, as shown in FIG. 8, the lamp assembly 140 emits white light by mixing green light and red light without color separation in the entire region including the center portion of the substrate 111 as well as both end portions of the substrate 111 .

The degree of deviation T between the two LED chips 113 and 117 in the width direction y is determined in a range not more than the length L of one side of the LED chip, To 70%. The size of the lamp assembly 140 in the width direction y is restricted by the thinness of the liquid crystal display device 1 so that the LED package 115 arranged on the substrate 111 and the substrate 111 is also limited in the width direction even when two LED chips 113 and 117 are arranged in the LED package 115, there is a restriction on the position in the width direction y. Therefore, the two LED chips 113 and 117 have a width It is not preferable to deviate too much in the direction y. Further, if the two LED chips 113 and 117 are shifted too little in the width direction (y), the improvement of the color separation phenomenon becomes insufficient.

5 and 8, in the lamp assembly 140, the substrate longitudinal direction distance d between the first LED chip 113 and the second LED chip 117 in one LED package, (D) between the second LED chip 117 provided in one LED package and the first LED chip 113 provided in the other adjacent LED package in terms of uniform color mixing, ).

As described above, since the color separation phenomenon is prevented at both ends of the lamp assembly 140, the front edge portion of the liquid crystal panel 10, which is covered by the upper cover 70 due to the slimming of the liquid crystal display device 1, It is possible to prevent the deterioration of the image quality due to the color separation phenomenon at the edge of the liquid crystal panel 10.

Hereinafter, various embodiments of the present disclosure will be described.

(1) The backlight unit according to (1), wherein the first LED chip and the second LED chip are shifted in the width direction of the substrate in a range shorter than the length of one side of the first LED chip and the second LED chip.

(2) The backlight unit according to (1), wherein the first LED chip and the second LED chip deviate in the width direction of the substrate within a range of 30 to 70% of the length of one side of the LED chip.

(3) In a single LED package, the lengthwise spacing between the first LED chip and the second LED chip may be equal to the distance between the second LED chip provided in one LED package and the first LED chip provided in the other LED package And is equal to a distance in the longitudinal direction of the substrate.

(4) A backlight unit, wherein the first LED chip is a blue LED chip, the second LED chip is a green LED chip, and the sealing portion includes a red phosphor.

(5) A backlight unit wherein the first LED chip is a blue LED chip, the second LED chip is a red LED chip, and the encapsulant includes a green phosphor.

(6) The backlight unit according to any one of (1) to (5), wherein the lamp assemblies are provided so as to face each other and face two opposite side surfaces of the light guide plate and emit light toward two opposite side surfaces of the light guide plate.

The present disclosure provides a backlight unit that prevents color separation phenomenon and a liquid crystal display device including the same.

According to one backlight unit according to the present disclosure, it is possible to provide good white light without color separation phenomenon.

According to another backlight unit according to the present disclosure, high color reproducibility can be provided.

According to one liquid crystal display device according to the present disclosure, deterioration in image quality due to color separation can be prevented.

According to another liquid crystal display device according to the present disclosure, image quality can be improved by providing light of high color reproducibility.

111: substrate 112: lead frame
113, 117: LED chip 114: housing
115: LED package 119:
140: Lamp assembly

Claims (11)

In the backlight unit,
A light guide plate for guiding light; And
And a lamp assembly that includes a substrate extending in one direction and a plurality of LED packages arranged on the substrate along the longitudinal direction of the substrate, the lamp assembly being positioned to face one side of the light guide plate and emitting light toward one side of the light guide plate In addition,
Each LED package comprising a first LED chip of a first color, a second LED chip of a second color different from the first color, and a phosphor of a third color different from the first color and the second color, And an encapsulating portion covering the second LED chip,
The first LED chip and the second LED chip are arranged along the longitudinal direction of the substrate and are arranged to be shifted from each other in the width direction of the substrate in a range of 30% to 70% of one side length of the first LED chip and the second LED chip Backlight unit. delete delete The method according to claim 1,
The lengthwise spacing between the first LED chip and the second LED chip in one LED package is determined by the distance between the second LED chip provided in one LED package and the lengthwise direction of the first LED chip provided in another LED package adjacent to the one LED package And the interval is equal to the interval. The method according to claim 1,
Wherein the first LED chip is a blue LED chip, the second LED chip is a green LED chip, and the sealing portion includes a red phosphor. The method according to claim 1,
Wherein the first LED chip is a blue LED chip, the second LED chip is a red LED chip, and the encapsulant comprises a green phosphor. The method according to claim 1,
Wherein the lamp assemblies are provided in pairs and face each of the two opposite side surfaces of the light guide plate to emit light toward the two opposite side surfaces of the light guide plate. In a liquid crystal display device,
A light guide plate for guiding light;
A lamp assembly including a substrate and a plurality of LED packages arranged on the substrate along the longitudinal direction of the substrate, the lamp assembly being positioned to face one side of the light guide plate and emitting light toward one side of the light guide plate; And
And a liquid crystal panel disposed on the light guide plate to receive light emitted from the light guide plate and display an image,
The LED package includes a first LED chip of a first color, a second LED chip of a second color different from the first color, and a phosphor of a third color different from the first color and the second color, 2 sealing the LED chip,
The first LED chip and the second LED chip are arranged along the longitudinal direction of the substrate and are arranged to be shifted from each other in the width direction of the substrate in a range of 30% to 70% of one side length of the first LED chip and the second LED chip . The method of claim 8,
Wherein the first LED chip is a blue LED chip, the second LED chip is a green LED chip, and the sealing portion includes a red phosphor. The method of claim 8,
Wherein the first LED chip is a blue LED chip, the second LED chip is a red LED chip, and the sealing portion includes a green phosphor. The method of claim 8,
Wherein the lamp assemblies are provided in pairs and face each of the two opposite side surfaces of the light guide plate to emit light toward the two opposing side surfaces of the light guide plate.

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