KR20140077295A - Diffusion-light emitting element, led array bar using the same, and backligh assembly having thereof - Google Patents

Abstract

A diffused-light emitting device includes a pair of light reflection surfaces which have sections on the center having a shape with a first area and curvature and continuously widening to the both sides from the center; and a curved light emission surface which is connected to the pair of light reflection surfaces, has an emission surface vertical from the ground, and has a second area larger than the first area.

Description

TECHNICAL FIELD [0001] The present invention relates to a diffusion light-emitting device, an LED array bar using the same, and a backlight assembly having the LED array bar.

The present invention relates to a diffusion light emitting device, an LED array bar using the same, and a backlight assembly having the same.

2. Description of the Related Art In recent years, liquid crystal displays (LCDs) for displaying information on a wide variety of fields such as various electronic devices such as a mobile phone, a game machine, a computer monitor, a notebook, and a tablet PC have been widely applied.

Recently developed liquid crystal display devices are required to have a very thin thickness and high luminance uniformity. In order to realize a thin thickness and a high luminance uniformity, a liquid crystal display device is applied with a direct type backlight unit.

The direct type backlight unit includes a light emitting diode (LED) array bar having a CCFL lamp or an LED mounted on a lower portion of the liquid crystal display device.

The LED array bar of the conventional direct type backlight unit includes a diffusion lens for diffusing the light emitted from the LED by covering the LED mounted on the circuit board. The luminance uniformity of the LED differs greatly depending on the shape of the diffusion lens.

The diffusing lens disposed on the conventional LED has a cylindrical shape, and the shape of the diffusing lens has an isotropic roughness distribution. The diffusing lens having the isotropic roughness distribution has a problem in that when the pitch of the lens is uneven The luminance uniformity is greatly lowered.

Disclosed is a diffused light emitting device having an anisotropic roughness distribution suitable for realizing a uniform luminance distribution irrespective of the pitch between lenses and largely improving luminance uniformity by emitting most of light in a direction close to the horizontal direction. An LED array bar and a backlight assembly having the LED array bar.

The technical object of the present invention is not limited to the above-mentioned technical objects and other technical objects which are not mentioned can be clearly understood by those skilled in the art from the following description will be.

In one embodiment, the diffused light emitting device has a pair of light reflecting surfaces having a shape in which a cross section has a first area and a curvature at a center, and a shape in which the area continuously increases on both sides with respect to the center; And a curved light exit surface connected to the pair of light reflecting surfaces and having a light exit surface close to a vertical direction and having a second area larger than the first area.

In one embodiment, the LED array bar includes a circuit board formed in a rectangular parallelepiped plate shape and having a circuit pattern formed thereon; Light emitting diodes mounted on the circuit pattern of the circuit board; And a pair of light emitting elements arranged on the light emitting diodes and each having a shape having a cross section of a first area and a curvature at a center of the light emitting diodes and having an area increasing continuously on both sides of the center, And a diffusion light emitting element having a reflection surface connected to the reflection surfaces and a pair of the light reflection surfaces and having a curved light exit surface having an exit surface close to a vertical direction and having a second area larger than the first area .

In one embodiment, the backlight assembly includes a circuit board formed in a rectangular parallelepiped plate shape and having a circuit pattern formed thereon, light emitting diodes mounted on the circuit pattern of the circuit board, and light emitting diodes A pair of light reflection surfaces having a shape in which a cross section has a first area and a curvature and a shape in which the area continuously increases in both sides with respect to the center, and a pair of light reflection surfaces connected to the pair of light reflection surfaces, And a diffused light-emitting element having a curved light exit surface having an exit surface close to a vertical direction with respect to the first area and having a second area larger than the first area; A bottom case for receiving the LED array bar; And a reflector disposed on the bottom case.

According to the diffused light emitting device, the LED array bar using the same, and the backlight assembly having the same, the shape of the diffused light emitting device increases in radius from both sides of the center of the diffused light emitting device in order to further improve the luminance uniformity of light generated from the light emitting diode The light exit surface connected to the light reflection surface is formed to be perpendicular to the horizontal direction and the light emitting diode is disposed at the center of the diffusion light emitting device so that most of the light emitted from the light emitting diode is reflected and refracted at the light reflection surface It is possible to improve the uniformity of luminance of the light emitted from the light emitting diode by emitting light to the light emitting surface formed perpendicular to the horizontal.

1 is an external perspective view of a diffused light emitting device according to an embodiment of the present invention.
2 is a cross-sectional view taken along line II 'of FIG.
3 is a cross-sectional view taken along line II-II 'of FIG.
4 is a cross-sectional view showing the light profile of the diffusion light-emitting device of FIG.
5 is an exploded perspective view of an LED array bar including the diffusion light emitting device of FIG.
Fig. 6 is a plan view of Fig. 5. Fig.
7 is a cross-sectional view of a backlight assembly including the diffused light emitting device of FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator. The definitions of these terms should be interpreted based on the contents of the present specification and meanings and concepts in accordance with the technical idea of the present invention.

1 is an external perspective view of a diffused light emitting device according to an embodiment of the present invention. 2 is a cross-sectional view taken along line I-I 'of FIG. 3 is a cross-sectional view taken along line II-II 'of FIG. 4 is a cross-sectional view showing the light profile of the diffusion light-emitting device of FIG.

1 to 4, the diffused light emitting device 100 includes a light reflecting surface 10, a light emitting surface 20, and a bottom surface 30.

2 and 3, the center (O in FIG. 3) of the diffused light emitting device 100 is a hatched section, the center O of the diffused light emitting device 100 is formed in a semicircular shape, The center O of the diffused light emitting device 100 has a first area and the shape is formed into a curved surface. For example, the center of the diffused light emitting element 100 has a first radius R1.

The light reflecting surfaces 10 of the diffused light emitting element 100 are formed symmetrically with respect to the center O of the diffused light emitting element 100 in both directions (left and right direction).

The light reflection surfaces 10 are formed in such a shape that the pair of the diffusion light emitting elements 100 with respect to the center O is extended in both directions and the area (or radius) increases continuously.

The light exit surface 20 is connected to the light reflecting surface 10 formed extending from the center O of the diffused light emitting element 100 in both directions. Further, the light exit surface 20 is formed in a shape nearly perpendicular to the horizontal, and the light exit surface 20 has a second area larger than the first area. For example, the light exit surface 20 is formed in a semicircular shape having a second radius R2 larger than the first radius R1.

3, the bottom surface 30 is connected to the light exit surface 20 and the light reflecting surface 10, and is formed in a flat shape. External light is incident on the bottom surface 30. The external light is generated, for example, from a light emitting diode, and the bottom surface 30 is provided with a groove 35 for receiving the light emitting diode so that external light incident on the bottom surface 30 is brought into contact with air, May be formed. Alternatively, when the diffusion light emitting device 100 according to an embodiment of the present invention is molded, the light emitting diode may be integrally formed with the light emitting diode.

4, a light reflecting surface 20 formed in a shape in which the radius continuously increases in both directions from the center O of the diffused light emitting device 100 and a light emitting surface 30 formed perpendicularly to the horizontal direction When a light emitting diode is disposed at the center O of the formed diffusion light emitting device 100 and light is generated from the light emitting diode, most of the light is reflected and refracted at the light reflecting surface 10, 20).

At this time, most of the light emitted to the light exit surface 20 tends to be emitted in a direction substantially parallel to the bottom surface 30, thereby increasing the directivity angle of the light emitted from the diffused light emitting element 100, The luminance uniformity of the light emitted from the light emitting diode can be greatly improved.

5 is an exploded perspective view of an LED array bar including the diffusion light emitting device of FIG. Fig. 6 is a plan view of Fig. 5. Fig.

5 and 6, the LED array bar 200 includes a diffusion light emitting device 100, a circuit board 205, and a light emitting diode 210.

The circuit board 205 is formed in a rectangular plate shape longer than the short side, and a circuit pattern (not shown) is formed in the diffusion light emitting element 205.

The circuit pattern 205 serves to provide a driving signal to the light emitting diode 210 to be described later.

The light emitting diode 210 is electrically connected to the circuit pattern of the circuit board 205 and generates light by a drive signal applied to the circuit pattern.

The light emitted from the light emitting diode 210 has an optical profile that spreads in a 360 degree direction with a specific directivity angle. The light generated from the light emitting diode 210 has a high luminance characteristic, while a luminance uniformity is greatly reduced.

The diffused light emitting device 100 is disposed in each light emitting diode 210 to improve the luminance uniformity of the light emitting diode 210 having a light profile with a high luminance characteristic and a greatly reduced luminance uniformity.

The diffusive light emitting device 100 includes a light reflecting surface 10, a light emitting surface 20 and a bottom surface 30. The bottom surface 30 is provided with a light emitting diode 210, for example, A suitable groove is formed.

The light reflecting surface 10 is formed into a curved surface whose area (or radius) increases from the center of the diffused light emitting device 100 toward both sides, and the center of the diffused light emitting device 100 is formed in a semicircular shape. On the other hand, the light exit surface 20 connected to the light reflecting surface 10 is formed close to the vertical direction with respect to the circuit board 205, and the light exit surface 20 is formed to be larger than the center area of the diffused light emitting device 100 (Or radius).

The light exit surface 20 of the diffused light emitting device 100 mounted on the circuit board 205 is arranged in a direction parallel to the longitudinal direction of the circuit board 205, Most of the light emitted from the light emitting device 210 is reflected on the light reflection surface 10 of the diffused light emitting device 100 as shown in FIG. 6 and then emitted to the light output surface 20 of the diffused light emitting device 100 Accordingly, the luminance uniformity of the light emitted from the light emitting diode 210 can be greatly improved.

In the case where the brightness uniformity of the light is greatly improved by using the diffusion light emitting device 100 as described above, it is possible to form an optical profile having high brightness and high luminance uniformity by using a smaller number of light emitting diodes 210, The power can be further reduced.

Although it has been shown and described that the light exit surface 20 of the diffused light emitting device 100 is arranged in a direction parallel to the longitudinal direction of the circuit board 205 in the embodiment of the present invention, The light exit surface 20 of the device 100 may be arranged in the width direction perpendicular to the longitudinal direction of the circuit board 205 and the light exit surface 20 of the diffused light emitting device 100 The spacing between the diffusion light emitting devices 100 can be made wider.

7 is a cross-sectional view of a backlight assembly including the diffused light emitting device of FIG. The LED array bar 200 of the backlight assembly according to an embodiment of the present invention has substantially the same configuration as the LED array bar shown and described with reference to FIGS. Therefore, redundant description of the same configuration will be omitted, and the same names and the same reference numerals will be given to the same configurations.

Referring to FIG. 7, the backlight assembly 300 includes an LED array bar 200, a bottom case 310, and a reflection plate 320. In addition, the backlight assembly 300 may further include a diffusion member 330.

The bottom case 310 includes a bottom plate 305 and a side plate 307.

The bottom plate 305 is formed in the shape of a square plate and the side plate 307 is formed in a shape extending upward from the bottom plate 305 by the bottom plate 305 and the side plate 307, A storage space is formed inside the case 310.

The reflection plate 320 is disposed on the bottom plate 305 of the bottom case 310 and the reflection plate 320 disposed on the bottom plate 305 is disposed on the bottom surface of the bottom plate 305 of the LED array bar 200, And serves to reflect the light emitted from the surface 20.

In an embodiment of the present invention, the LED array bar 200 may be disposed on the reflector 320, and the corresponding portion of the reflector 320 between the LED array bars 200 may be formed in a ' The light emitted from the light exit surface 20 of the diffused light emitting device 100 of the LED array bar 200 can be reflected in a direction perpendicular to the bottom plate 305 of the bottom case 310. [

A diffusing member 330 is disposed at an upper end of the side plate 307 of the bottom case 310. The diffusing member 330 differs from the light emitting surface 20 of the diffusing light emitting device 100 of the LED array bar 200 The emitted light can be diffused again to improve the luminance uniformity of the light emitted from the light emitting diode 210.

In order to further improve the luminance uniformity of the light emitted from the light emitting diode, a light reflection surface having a shape in which a radius is increased from both sides of the center of the diffusion light emitting device is formed, A light emitting diode is disposed at the center of the diffused light emitting device so that most of the light generated from the light emitting diode is reflected and refracted at the light reflecting surface and emitted to the light emitting surface formed perpendicular to the horizontal The luminance uniformity of the light emitted from the light emitting diode can be further improved.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the true scope of the present invention should be determined by the following claims.

10 ... light reflecting surface 20 ... light emitting surface
30 ... floor 100 ... diffused light emitting element
200 ... LED array bar 205 ... Circuit board
210 ... light emitting diode 300 ... backlight assembly
310 ... bottom case 320 ... reflector

Claims (7)

A pair of optical reflection surfaces having a shape in which a cross section has a first area and a curvature at the center and a shape in which the area continuously increases on both sides with respect to the center; And
A diffusing light emitting element having a curved light exit surface connected to a pair of the light reflecting surfaces and having an exit surface close to a vertical direction and having a second area larger than the first area.
The method according to claim 1,
And a groove for receiving the light emitting diode is formed in the bottom plate connected to the light reflecting surface and the light emitting surface.
A circuit board formed in a rectangular parallelepiped plate shape and having a circuit pattern formed thereon;
Light emitting diodes mounted on the circuit pattern of the circuit board; And
A pair of optical fibers arranged on the light emitting diodes and each having a shape having a cross section of a first area and a curvature at a center of the light emitting diodes and having an area increasing continuously on both sides of the center, And a diffusion light emitting element having a slope and a curved light exit surface connected to the pair of light reflection surfaces and having an exit surface near vertical to the horizontal and having a second area larger than the first area, Array bar.
The method of claim 3,
And the exit surfaces of the diffused light emitting device are arranged in a direction parallel to the longitudinal direction of the circuit board.
The method of claim 3,
And the emitting surfaces of the diffusion light emitting element are arranged in a direction perpendicular to the longitudinal direction of the circuit board.
A plurality of light emitting diodes mounted on the circuit pattern of the circuit board and arranged on the light emitting diodes, each of the light emitting diodes having a first area and a curvature A pair of light reflecting surfaces having a shape in which the area continuously increases on both sides with respect to the center, and a pair of light reflecting surfaces connected to the pair of light reflecting surfaces, And a diffusion light emitting element having a curved light exit surface having a second area larger than the first area;
A bottom case for receiving the LED array bar; And
And a reflector disposed on the bottom case.
The method according to claim 6,
And a diffusion member for diffusing light emitted from the LED array bar is disposed on the bottom case.

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