KR200408526Y1 - Light source structure of backlight module - Google Patents

Abstract

The present invention provides a light source structure of a backlight module.

The present invention is provided with a strip light source, the strip light source is composed of a plurality of light emitting diodes complementary to each other, the light emission intensity of the light emitting diodes located at both ends is 30% ~ 70% of the average light emission intensity of the other light emitting diodes to be. In addition, a pair of complementary light sources complementary to the light emitting diodes are provided to the light emitting diodes positioned at both ends, and the light emission intensity of the pair of complementary light sources is 10% to 50% of the average light emission intensity of the other light emitting diodes. to be. This solves the problem that spots are generated because the mixed light is not uniform at the edge of the backlight module.

Description

Light source structure of backlight module

1 is an exploded view of a device according to an embodiment of the present invention.

2 is a top view of the light source according to the present invention.

3 is a device exploded view of a conventional photometric backlight module.

[Short description of reference signs]

1.backlight module

10..Light source

11. Green light emitting diode

12.Blue light emitting diode

13. Red light emitting diode

14. Red light emitting diode

15.Blue light emitting diode

16. Green light emitting diode

20..Light guide plate

30. Control circuit

40..base box

A .. Base Box

라이트 ..Light guide plate

C..L type light source

D .. Control circuit

The present invention relates to a light source structure of a backlight module in which a single color spot does not occur at the edge, and is applied to a flat panel display, a liquid crystal display, or a similar structure.

Back light modules are widely applied to flat panel displays, and are particularly important for LCD panels. Since the liquid crystal itself does not emit light, a normal image is displayed on the panel by providing a light source with sufficient luminance and uniform distribution as a function of the backlight module.

Generally, the backlight module has a direct type and a metering type. In the direct type design, the tube is provided directly under the module, thereby increasing the installation space and increasing the intensity of the light source by using two or more tubes. However, the thickness and weight of the module are relatively large. In addition, since a plurality of tubes are used at the same time, the power consumption is increased, so it is applied to a monitor or a television which has less restrictions on mobility and space.

The backlight module of the photometric design typically uses a single light source or an adjacent light source, as shown in FIG. 3, such as a base box (A), a light guide plate (B), an L-type light source (C), and a control circuit (D). Is made of. The L-type light source (C) is composed of a plurality of red light, blue light, green light emitting diodes are provided on the edge of the light guide plate (B). And the L-type light source (C) and the light guide plate (B) is provided together in the base box (A). The L-type light source C is connected to the control circuit D, and the light of the L-type light source C is controlled by the light guide plate B. However, since both ends of the L-type light source C are adjacent to the box edge of the base box A, a physical phenomenon such as total reflection occurs at the edge of the box, resulting in spots and poor mixing of light at the edge. There was a problem such that a monochromatic color was generated.

The present inventors have conducted research to solve the problem that the mixed light is not uniform, and have led to the development of the light source structure of the backlight module of the present invention.

The main object of the present invention is to provide a light source structure of a backlight module that can solve the problem of spots due to uneven mixing light at the edges.

In order to achieve the above object, the present invention is provided with a strip light source, the strip light source is composed of a plurality of light emitting diodes complementary to each other, the light emission intensity of the light emitting diodes located at both ends is an average light emission of the other light emitting diode 30% to 70% of strength. In addition, a pair of complementary light sources complementary to the light emitting diodes are provided to the light emitting diodes positioned at both ends, and the light emission intensity of the pair of complementary light sources is 10% to 50% of the average light emission intensity of the other light emitting diodes. to be. This solves the problem that spots are not generated because the mixed light is not uniform at the edge of the backlight module.

Hereinafter, the present invention will be described in detail with reference to specific drawings.

1 is a backlight module 1 according to the present invention. First, the box body 40 is provided, and the light guide plate 20 is provided in the box body 40. The strip light source 10 is provided on one side of the light guide plate 20, the control circuit 30 is connected to the strip light source 10, and the strip light source 10 is a plurality of complementary colors. It consists of a light emitting diode.

In the present embodiment, the green light emitting diode 11, the blue light emitting diode 12, and the red light emitting diode 13 will be described as an example.

Referring to FIG. 2, the strip light source 10 is configured by arranging a plurality of green light, blue light, and red light emitting diodes 11 to 13 at equal intervals, and the light emission intensity of the light emitting diodes positioned at both ends is different. 30% to 70% of the average light emission intensity of the light emitting diode. In addition, when the light emitting diodes are arranged in accordance with the color of the light emitting diodes, for example, when the green light emitting diodes 11 are positioned at one end, light emitting diodes having different light emission intensities at different positions at the upper and lower sides of the green light emitting diodes 11. A pair of complementary light sources (red light emitting diode 14 and blue light emitting diode 15) are provided, which are 10% to 50% of the average light emission intensity. For example, in the case where the diode located at the other end is the blue light emitting diode 12, the light emission intensity of the light emitting diodes having different light emission intensities at upper and lower proper positions next to the blue light emitting diode 12 A pair of complementary light sources (red light emitting diodes 14 and green light emitting diodes 16) are provided which are 10% to 50%.

When power is supplied to the control circuit 30, the green light emitting diode 11, the blue light emitting diode 12, and the red light emitting diode 13 of the strip light source 10 emit light at the same time to obtain white light by mixing three colors. have. The light emission intensity of the green light emitting diodes 11 and the blue light emitting diodes 12 located at both ends of the strip light source 10 is 30% to 70% of the average light emission intensity of the other light emitting diodes, so the light emission intensity toward both ends is increased. Little by little. In addition, a pair of complementary light sources (red light emitting diodes 14 and blue light emitting diodes 15, and red light emitting diodes 14, respectively) of 10% to 50% of the average light emitting intensity of light emitting diodes having different light emission intensities at both ends; The green light emitting diode 16 is provided. This solves the problem of monochromatic color due to the total reflection phenomenon due to the mirror surface and the unevenness of the mixed light, and each of the light emitting diodes 11 and 12 having the emission intensity at the side end is 30% to 70%. By providing a pair of light emitting diodes 14 and 15, 14 and 16 whose luminous intensity is 10% to 50% of the original luminous intensity, the luminance reduction circuit for the light emitting diode positioned at the side can be omitted.

The above is the best embodiment of the present invention, and the claims of utility model registration of the present invention are not limited thereto, and all equivalent changes or modifications by those skilled in the art that are familiar with the present technology are the claims of utility model registration of the present invention. Included in

As described above, the present invention is a light source structure of a backlight module that can effectively solve the problem of light emission in which the mixed light is not uniform at both ends of the light source and lacks the monochromatic luminance in the conventional photometric backlight module.

Claims (4)

A light source structure of a backlight module comprising a strip light source, the strip light source comprising a plurality of light emitting diodes complementary to each other, and a complementary light source for light emitting diodes positioned at both ends. The method of claim 1, The light source structure of the backlight module is characterized in that the strip light source is composed of red, blue and green tricolor light emitting diodes. The method of claim 1, The light source structure of the backlight module is characterized in that the light source intensity of the light emitting diodes located at both ends is 30% to 70% of the average light emission intensity of the other light emitting diodes. The method of claim 1, The light emitting structure of the backlight module is characterized in that a set of light emitting diodes complementary to the light emitting diodes located at the side ends is 10% to 50% of the average light emitting intensity of the light emitting diodes having different light emission intensity.

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