KR20060059581A - Back-light unit and display device thereof - Google Patents

Abstract

The present invention relates to a backlight unit and a display device, and more particularly, to provide a backlight unit and a display device using the same, which can improve a bright point phenomenon occurring on the display panel side when using a light emitting diode as a backlight lamp. have.

As an improvement for this, at least one optical sheet; At least one lamp configured under the optical sheet; At least one lamp light regulator configured between the at least one lamp and the optical sheet; The present invention provides a backlight unit including one or more lower plates formed under the one or more lamps, and a display device using the same. Because of this, the picture quality is improved.

Description

Back-light unit and display device             

1 is a view showing a schematic structure of a direct backlight unit of a backlight unit using a conventional LED

2A and 2B are views for explaining the bright spots generated in the panel through the direct type and edge type LED backlight units, respectively.

3 is a cross-sectional view showing the structure of a backlight unit according to the present invention.

4A and 4B are views for explaining the configuration of a lamp light regulator for offsetting bright spots generated in a panel through the direct type and edge type LED backlight units, respectively.

5A and 5B illustrate the preferred shape of the lamp light regulator of the backlight unit according to the present invention, respectively.

6 is a view showing a configuration position of the lamp light control body according to the application of the present invention;

<Brief description of the main parts of the drawing>

110: optical sheet 111,112,113: optical sheet

120: light guide plate 130: lamp unit                 

131: LED lamp 132: lamp support

140: lower plate portion 141, 142: lower plate

150: lamp light regulator

The present invention relates to a backlight unit and a display device, and more particularly, to provide a backlight unit and a display device using the same, which can improve a bright point phenomenon occurring on the display panel side when using a light emitting diode as a backlight lamp. have.

Recently, due to the technological development of the semiconductor industry, which is rapidly developing, products are being produced that are more compact and lighter in performance. Cathode ray tubes (CRTs), which are widely used in information display devices, have many advantages in terms of performance and price, but have disadvantages in terms of miniaturization or portability. One of the solutions to overcome these shortcomings is the liquid crystal display, which has been attracting attention as an alternative means of overcoming the shortcomings of the CRT due to its advantages such as small size, light weight and low power consumption. Is installed in almost all information processing equipment requiring a display device.

A liquid crystal display device converts optical properties such as birefringence, photoreactivity, dichroism, and light scattering characteristics of a liquid crystal cell that apply voltage to a specific molecular array of liquid crystals, converts them into other molecular arrays, and emits light by the molecular array. It is a display apparatus which uses the modulation of the light by a liquid crystal cell by converting into a visual change.

Since the liquid crystal display is a light receiving element that does not emit light by itself, the liquid crystal panel is illuminated by using a back light attached to the rear surface of the liquid crystal panel. The light transmittance of the liquid crystal panel is adjusted according to an applied electrical signal, and a still image or a moving image is correspondingly represented on the liquid crystal panel.

As the lamp used in the backlight unit for supplying light to the liquid crystal panel as described above, a cold cathode fluorescent lamp (CCFL) has been widely used in the past, but recently, a portable device or a field sequential color (Field sequential color) is used. Sequential color The use of backlight units using light emitting diodes (LEDs) has gradually increased due to various types of display devices and improved driving methods such as liquid crystal displays.

Thus, the schematic structure of the direct backlight unit of the backlight unit 1 using LED is shown in FIG.

In the illustrated structure, the optical sheet unit 10 is positioned below the display panel, which is not shown, and is composed of a plurality of optical sheets 11, 12, 13.

The light guide plate (LGP) 20 is a transparent plate shape made of a synthetic resin such as acrylic positioned under the optical sheet unit 10.

The lamp unit 30 is composed of a plurality of red (R), green (G), blue (B) LED, located in the lamp 31 and the lower portion of the lamp support 32 for power supply and fixing do.

The lower plate portion 40 is coupled to the lamp unit 30, and provides a function for releasing heat generated from the lamp 31 together with the fixing function of the lamp 31.

The LED backlight unit configured as described above has a much brighter area than the periphery when passing through the display panel P as shown in FIG. 2A because the light source size of the LED lamp is very small and emits strong straightness by its optical frequency characteristics. Phosphorus point (L / P) is a disadvantage that occurs.

This phenomenon occurs even in the structure of the edge type backlight unit of FIG. It is an undesirable solution.

Due to the problems as described above, an object of the present invention is to provide a function of improving the image quality by improving the backlight bright spot phenomenon of the display device using the LED lamp.

In addition, an object of the present invention is to provide a backlight unit and a display device using the same, while solving the problem of bright spots caused by LED backlight while reflecting the trend of miniaturization and slimming of the display device.

In order to achieve the above object, the present invention is one or more optical sheets; At least one lamp configured under the optical sheet; At least one lamp light regulator configured between the at least one lamp and the optical sheet; A backlight unit including at least one lower plate configured under the at least one lamp is provided.

The present invention also provides a display module for displaying an image; At least one optical sheet, at least one lamp configured under the optical sheet, at least one lamp light regulator configured between the at least one lamp and the optical sheet, and at least one lower plate configured under the at least one lamp A backlight unit comprising; A display device including a driving circuit unit for controlling driving of the display module and the backlight unit is provided.

In the proposed backlight unit and the display device, a light guide plate configured between the optical sheet and the lamp light regulator is further included.

In the proposed backlight unit and the display device, the lamp light regulator is configured on the lower surface of the light guide plate.

In the proposed backlight unit and the display device, the lamp light regulator is characterized in that the metal or metal plating body.

The lamp light regulator is characterized in that it is composed of a material having a light transmitting property.

In the proposed backlight unit and display device, the lamp light regulator is characterized in that one or more holes are formed therein.

In the proposed backlight unit and the display device, the lamp light regulator is characterized in that the plane area is smaller than or equal to the plane area of each lamp.

In the proposed backlight unit and the display device, the planar shape of the lamp light regulator is characterized in that the circular or elliptical.

The lamp light regulator is characterized in that configured on the upper surface of the lamp.

The lower plate is characterized in that the plate having a heat radiation function.

In the proposed display device, the display module is a liquid crystal display module.

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

3 is a cross-sectional view showing the structure of the backlight unit 100 according to the present invention, and shows a backlight unit using a LED (light emitting diode) as a backlight lamp.

In view of the configuration, the optical sheet unit 110 is disposed below the display panel (preferably, the liquid crystal display panel) not shown and is composed of one or more optical sheets 111, 112, and 113.

Each of the optical sheets 111, 112, and 113 provides functions such as functional diffusion of light or agglomeration irradiation to the upper display panel.

The lamp unit 130 is divided into one or more lamps 131 of red, green, and blue light and a lamp support 132 for fixing the lamps 131. In this case, each of the lamps 131 is a light emitting diode (LED) lamp.                     

The lower plate part 140 formed of one or more plates for coupling / fixing the lamp 131 and dissipating lamp heat is provided below the lamp light control member 150 and the lamp unit 130 configured as described above. Is located. The lower plate part 140 may include a metal core PCB 141, a synthetic resin or a heat sink 142 of a glass material, or a single or composite structure. The metal core PCB 141 may be configured for high thermal conductivity efficiency. As a plate containing metal, its configuration is not essential.

The light guide plate 120 is positioned between the lamp 131 and the optical sheet unit 110, and at least one lamp light regulator 150 is formed on a lower surface thereof, and the lamp light regulator 150 may reflect or transmit light. A structure that provides the function of, is configured for the removal of bright spots generated on the panel.

As described above in the related art, the lamp light regulator 150 adjusts the amount of panel transmitted light in a region where a bright spot is generated on the display panel due to the linearity of the LED lamp light to match the brightness of the bright spot surrounding area. It is configured to adjust.

The lamp light reflector 150 is made of a metal such as aluminum (Al) or a heat-resistant material plated to allow light reflection when only the light reflection function is used, and a semi-transmissive material having a light transmittance when the light transmission function is used. Any conductor formed with is possible.

4A and 4B are plan views illustrating the positions of the bright spot L / P displayed on the panel by the backlight units of the direct type and the edge type, and the configuration of the lamp light regulator 150 for offsetting the same. Likewise, since the lamp light regulator 150 is positioned directly above or above the lamp 131 according to the position of bright spots in each backlight unit, the lamp light regulator 150 does not exceed the planar area of the lamp 131 because it does not impair light efficiency. Most preferably, the planar shape is configured not to be significantly different from the planar shape of the lamp 131, but considering the general planar shape of the LED lamp and the shape of its bright point (L / P), It is most suitable to consist of ovals.

5A and 5B show examples of the shape of the most preferable lamp light regulator 150, respectively, and the light transmission holes 152 for adjusting the amount of light reflection are formed therein, respectively. The light transmission hole 152 may be configured in various ways by adjusting the number and shape of the light transmission holes according to the deviation in the luminance emitted from the upper direction of the lamp 131. Of course, the light transmission hole 152 may be adjusted in size and shape and the number thereof according to the configuration position according to the application.

In addition, in the preferred embodiment of the present invention described with reference to the drawings, the lamp light regulator 150 for removing the bright spot through the backlight unit is inserted between the optical sheet unit 110 and the lamp unit 130 is inserted into the light guide plate 120 Although the light guide plate 120 may not be configured according to the display device model, in this case, the lamp light regulator 150 is also configured on the lowermost sheet of the optical sheet unit 110 or as shown in FIG. 6. The lamp light regulator 150 may be configured on the upper surface of the lamp 131.

The backlight unit and the display device according to the present invention as described above further comprises a light control body on the upper part of the lamp to improve the phenomenon of bright spots generated in the panel by the characteristics of the LED lamp light. Such a regulator adjusts the amount of lamp light concentrated in the bright spot generating area by reflection or absorption to adjust the amount of light to match the amount of light around the bright spot. Therefore, the bright spot is removed. It is possible to increase the product competitiveness by making it possible.

Claims (14)

One or more optical sheets; At least one lamp configured under the optical sheet; At least one lamp light regulator configured between the at least one lamp and the optical sheet; At least one lower plate configured under the at least one lamp Backlight unit comprising a The method according to claim 1, A light guide plate configured between the optical sheet and the lamp light regulator. A backlight unit further comprising The method according to claim 2, The lamp light regulator is a backlight unit, characterized in that configured on the lower surface of the light guide plate The method according to claim 1, The lamp light regulator is a backlight unit, characterized in that the metal or metal plating body The method according to claim 1, The lamp light regulator is a backlight unit, characterized in that consisting of a material having a light transmission characteristics The method according to claim 1, The lamp light regulator is a backlight unit, characterized in that one or more holes formed therein The method according to claim 1, The lamp light regulator is a backlight unit, characterized in that the planar area is less than or equal to the planar area of each lamp The method according to claim 1, The planar shape of the lamp light regulator is a backlight unit, characterized in that the circular or oval The method according to claim 1, The lamp light regulator is a backlight unit, characterized in that configured on the upper surface of the lamp The method according to claim 1, The lower plate is a backlight unit, characterized in that the plate having a heat radiation function A display module for displaying an image; At least one optical sheet, at least one lamp configured under the optical sheet, at least one lamp light regulator configured between the at least one lamp and the optical sheet, and at least one lower plate configured under the at least one lamp A backlight unit comprising; A driving circuit unit controlling driving of the display module and the backlight unit Display device including The method of claim 11, Display device characterized in that the display module is a liquid crystal display module The method of claim 11, Display device further comprises a light guide plate configured between the optical sheet and the lamp light regulator. The method of claim 13, The lamp light regulator is a display device, characterized in that configured on the lower surface of the light guide plate

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