KR200365771Y1 - Reflection sheet for LCD with reduced thermal deformation and light leakage - Google Patents

Abstract

The present invention relates to a reflective sheet for an LCD manufactured so that heat deformation caused by a cold cathode fluorescent lamp (CCFL) can be reduced and light is prevented from leaking to the surroundings. According to the present invention, the light source 111 A diffusion sheet 113 for increasing the uniformity of light and a prism sheet 114 for changing the path of light and deriving the brightness of light. At the same time, the reflective sheet 15 included in the backlight unit 110 formed by arranging the reflective sheet 15 to prevent the light emitted from the light source 111 from being exposed to the outside on the rear surface of the light guide plate 112 ( 15) The reflecting sheet 15 is made to be thickened by at least one edge by being adhesively fixed by an adhesive material in a folded state 15a of a predetermined width and completely folded. The thermal deformation and the reflection sheet for LCD manufacture to prevent light leakage, characterized in that there is provided.

Description

Reflective sheet for LCD with reduced thermal deformation and light leakage

The present invention relates to a reflective sheet used in an LCD (Liquid Crystal Display), and more particularly, to prevent heat leakage by the CCFL (cold cathode fluorescent lamp) and to prevent light from leaking to the surroundings. It relates to a manufactured reflective sheet for LCD.

In general, liquid crystal displays (hereinafter referred to as LCDs) used in display devices such as laptops, monitors, and liquid crystal televisions (TVs) can realize light weight, short size, and low power consumption compared to cathode ray tubes (CRTs), which are other image display apparatuses. There is an advantage, the demand is gradually increasing. However, unlike the cathode ray tube, the LCD is not a light emitting device but a light receiving device, and thus requires a backlight unit in addition to the LCD screen.

The backlight unit of the LCD is used as a dimming device to evenly transmit light to the entire panel, and the LCD panel displays an image by constantly adjusting the amount of light transmitted.

1 is a perspective view schematically illustrating a configuration of an LCD having a general backlight unit. As shown in FIG. 1, a typical LCD includes a backlight unit 110 and a liquid crystal panel 120 arranged in an outer frame (not shown).

The conventional backlight unit 110 includes a light source 111 such as a cold cathode fluorescent lamp (hereinafter referred to as CCFL), a light guide plate 112 for scattering and homogenizing light emitted from the light source 111, and the light guide plate 112. And a diffusion sheet 113 disposed on a front surface of the light guide plate 112, the surface of the light guide plate 112 facing the liquid crystal panel 120 to increase the uniformity of light incident on the liquid crystal panel 120, and the diffusion sheet 113. One or more prism sheets 114 for changing the path of light emitted from the light and deriving the brightness of the light, and toward the rear surface of the light guide plate 112, that is, toward the liquid crystal panel 120 of the light guide plate 112. It is disposed on the opposite side of the surface comprises a reflective sheet 115 to prevent the light generated from the light source 111 is exposed to the outside. Herein, the backlight unit 110 may further include a protection sheet 116 for protecting the prism sheet 114 as necessary.

The backlight unit 110 configured as described above is manufactured by sequentially stacking the diffusion sheet 113, the prism sheet 114, and the protective sheet 116 on the light guide plate 112 and assembling them into a mold frame (not shown). In this case, the diffusion sheet 113 and the reflection sheet 115 are arranged closest to the CCFL 111 as a light source, and when used for a long time, moisture in the diffusion sheet 113 and the reflection sheet 115 may be caused by heat from the light source. As this evaporates, the moisture content of the sheet falls.

In these sheets, the portion where the moisture content is reduced in this manner is limited to the margin portion close to the light source, so that a deformation occurs in the margin portion, causing a wave crushing phenomenon. If the diffusion sheet or the reflection sheet is deformed, the light from the light source may not be diffused or reflected properly, resulting in light refraction, diffuse reflection, deflection, etc., which in turn causes shadows on the margins of the LCD, which adversely affects LCD quality. Go crazy.

In addition, a rear surface of the light guide plate 120 may be formed to have a predetermined pattern printed as needed or may be formed such that the thickness of the light guide plate itself becomes thicker toward the center, and thus the rear surface of the light guide plate 120 is not flat but convex. There was a case.

As described above, when the rear surface of the LGP 120 is convex, the reflective sheet 115 is not adhered to the rear surface of the LGP at the edge portion of the LGP, so that light from the light source leaks to the periphery.

The present invention is to solve the problems as described above, an object of the present invention, the heat deformation by the CCFL (cold cathode fluorescent lamp) can be reduced and at the same time prevent the light from the CCFL to leak to the surroundings It is to provide a reflective sheet for LCD manufactured so that.

1 is a perspective view schematically showing a configuration of a general LCD,

2 is a schematic side view of an LCD with a reflective sheet according to the prior art;

3 is a perspective view of a reflective sheet according to the present invention,

Figure 4 is a plan view for explaining the manufacturing process of the reflective sheet according to the present invention.

<Description of Symbols for Main Parts of Drawings>

15: reflection sheet 15a: folded portion

15b: fold line

According to the present invention for achieving the above object, to the front of the light guide plate to scatter and homogenize the light emitted from the light source, the diffusion sheet to increase the uniformity of light, and to change the path of the light and derive the brightness of the light A reflecting sheet used in a backlight unit formed by arranging a prism sheet for preventing a light emitted from a light source from being exposed to the outside on a rear surface of the light guide plate, wherein the reflecting sheet includes at least one There is provided a reflective sheet for LCD which is manufactured to prevent heat deformation and light leakage, wherein the edge portion is thickened by being folded and adhesively fixed by an adhesive material in a completely folded state.

Here, before the folded portion of the reflective sheet is folded, it is preferable that a fold line is formed so that the folded portion can be accurately folded.

In addition, the fold line is preferably formed in the form of a dotted line cut out at regular intervals along the edge of the reflective sheet.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of a reflective sheet for LCD manufactured to prevent thermal deformation and light leakage according to the present invention.

3 is a perspective view of a reflective sheet according to the present invention, Figure 4 is a plan view for explaining the manufacturing process of the reflective sheet according to the present invention.

As shown in FIG. 3, the reflective sheet 15 according to the present invention is formed by folding and folding a predetermined width 15a at an edge thereof and fixedly overlapping with an adhesive material.

Thus, since the folded portion 15a of the edge of the reflective sheet 15 is adhesively fixed in a completely folded state, the edge of the reflective sheet 15 according to the present invention is doubled in thickness.

The folded portion 15a does not need to be formed at all the edges of the reflective sheet 15, and is preferably formed at at least one edge thereof so as to correspond to the rear shape of the light guide plate 112. That is, when the rear surface of the light guide plate has a high convex shape and both sides have a low convex shape, it is preferable that the folded portion 15a is formed on both edges of the reflective sheet 15 corresponding to both sides of the light guide plate. In addition, when the rear surface of the light guide plate has a slope shape inclined to one side, it is preferable that the folded portion 15a is formed at one edge of the reflective sheet 15.

As shown in FIG. 4, according to the present invention, a fold line 15b is formed so that the folded portion 15a of the reflective sheet 15 can be accurately folded. The fold line 15b may be formed in a dotted line shape by cutting the cut lines at regular intervals along the edge of the reflective sheet 15.

Thus, as shown in FIG. 3, it is preferable to form the fold line 15b beforehand by fully folding and bonding the folded part 15a of the reflective sheet 15. As shown in FIG. If the fold line 15b is not formed in advance, the fold portion 15a may not be accurately folded and the edge may not form a straight line or may be distorted.

Reflective sheet according to a preferred embodiment of the present invention described above may be modified as follows. In other words, the folded portion may be folded once to be twice the thickness of the reflective sheet, or may be folded twice or more to be three times or more the thickness of the reflective sheet as necessary.

In addition, the width of the folded portion may be appropriately changed in view of the size of the light guide plate, the minimum width for applying the adhesive material, and the like.

As described above, according to the present invention, there is provided a reflective sheet for LCD manufactured so that heat deformation by CCFL (cold cathode fluorescent lamp) can be reduced and light can be prevented from leaking to the surroundings.

Accordingly, since wave phenomenon and light leakage of the reflective sheet are prevented, light quality from the light source is properly reflected by the reflective sheet and the shade of the margin portion of the LCD is prevented, thereby improving the LCD quality.

Claims (3)

On the front surface of the light guide plate 112 which scatters and homogenizes the light emitted from the light source 111, a diffusion sheet 113 for increasing the uniformity of light, and a prism sheet for changing the path of light and deriving the brightness of the light. At the same time, the backlight unit 110 is disposed on the rear surface of the light guide plate 112 and the reflective sheet 15 is disposed to prevent the light emitted from the light source 111 from being exposed to the outside. In the reflective sheet 15, The reflective sheet 15 is to prevent the heat deformation and light leakage, characterized in that the at least one edge is thickened by adhesively fixed by the adhesive material in the folded state (15a) of a predetermined width folded completely. Reflective sheet for LCD manufactured. 2. The reflection for LCD according to claim 1, wherein a folding line 15b is formed so that the folding portion 15a can be accurately folded before the folding portion 15a of the reflective sheet 15 is folded. Sheet. The reflective sheet for LCD according to claim 2, wherein the fold line (15b) is cut out at regular intervals along the edge of the reflective sheet (15) to form a dotted line.