KR200334438Y1 - Backlight unit for display - Google Patents

Abstract

The present invention relates to a backlight unit for a display, and more particularly, to a backlight unit having an inverted prism structure, which provides a beautiful screen appearance by mitigating dark lines and bright lines generated in the light incident part of the backlight unit. The backlight unit for a display according to the present invention includes a light guide plate for guiding light emitted from a lamp toward a screen, a reflective sheet formed at a lower portion of the light guide plate to return light leaked from a rear surface of the light guide plate to the light guide plate, and A transparent sheet disposed on the upper surface and having a light incident portion haze and the remaining portions being transparent to relax dark lines and bright lines generated at the light incident portion of the light guide plate to transmit light transmitted from the light guide plate, and a light emitted from the transparent sheet. It is characterized in that it consists of a prism sheet that is refracted and condensed perpendicularly to the screen.

Description

Backlight unit for display {BACKLIGHT UNIT FOR DISPLAY}

The present invention relates to a backlight unit for a display, and more particularly, to a backlight unit having an inverted prism structure, which provides a beautiful screen appearance by mitigating dark lines and bright lines generated in the light incident part of the backlight unit.

The display device refers to a TV, a computer monitor, or a liquid crystal of a notebook computer. The CRT panel and the LCD panel are generally used.

CRT panel uses cathode ray tube to emit light of different brightness or color by hitting monochromatic or RGB (Red, Green, Blue) fluorescent material coated on the surface of CRT panel according to the intensity of video signal. It uses the principle that is made by me, and it is widely used because it is economical and excellent in terms of price and display performance, but it has a disadvantage in that its volume is large.

On the other hand, LCD panels use the principle that the liquid crystal (liquid crystal) disperses the molecular arrangement of the liquid crystal when applied with a constant voltage, so that it does not pass through the light. Not only does it go less, but it is easy to flatten.

An LCD panel (hereinafter referred to as a "panel") provided in a display device is adopted in such a manner that it does not emit light on its own and adjusts the light transmittance, so that light is projected onto the panel so that a predetermined image is formed on the panel. A device called a back-light unit, which is a light source, is required.

The backlight unit has a direct light method of directly dimming the front surface of the panel by arranging a light source on one side of the panel, and an edge for reflecting / diffusing light on a light guide plate and a reflective sheet by disposing a light source on one side or multiple sides of the panel. ) Is divided into Currently, devices such as notebook computers mainly adopt the latter edge method.

However, the edge type backlight unit has a lower brightness than the direct type backlight unit, and in order to compensate for this, two prism sheets are overlapped to collect light vertically toward the panel. In addition, the back light unit having a complex structure, as well as a pair of relatively high price of the prism sheet to provide a pair, there is a problem that the production cost is high, the assembly process is complicated, resulting in a decrease in production efficiency.

In order to overcome this problem, a backlight unit having an inverted prism structure is used. A backlight unit having such an inverted prism structure will be described below.

1 is a schematic side cross-sectional view of a backlight unit of a conventional inverted prism structure, whereby when the power is applied and the lamp 20 is turned on, light from the lamp 20 is transferred by the lamp housing 30 to the light guide plate ( 40) and delivered. When the light of the lamp 20 enters the light guide plate 40 and proceeds along the plate surface of the light guide plate 40, a part of the light moves to the upper inverse prism sheet 50 of the light guide plate 40 by reflection and scattering. The lower surface of the light guide plate 40 is directed to the reflective sheet 60. Light directed to the reflective sheet 60 is reflected by the reflective sheet 60 and is directed back to the reverse prism sheet 50 through the light guide plate 40.

At this time, the dot pattern 41 is formed on the upper surface of the light guide plate 40, the prism pattern 42 is formed on the lower surface of the light guide plate 40, and the prism pattern 51 is formed also on the lower surface of the inverse prism sheet 50. The light spaced apart or separated from the direction perpendicular to the upper surface of the light guide plate is formed by the dot pattern 41, the prism pattern 42, and the prism pattern 51 formed on the lower surface of the inverse prism sheet 50, respectively, formed on the upper and lower surfaces of the light guide plate. It is refracted in the direction perpendicular to the light guide plate 40 and directed toward the diffusion sheet 70.

The light directed toward the diffusion sheet 70 is uniformly diffused through the diffusion sheet 70 and then incident on the panel 80 so that the user can see an image formed on the panel 80.

However, in the backlight unit having the inverted prism structure, light emitted from the lamp 20 is reflected at upper and lower edges of the light incident portion of the light guide plate 40 so that dark lines and bright lines are formed at the light incident portion of the light guide plate 40. . The generation of such dark lines and bright lines will be described in more detail as follows.

First, light hitting the lower edge 43 of the light guide plate 40 is generated as a strong level of bright line A, and light hitting the upper edge 44 of the light guide plate 40 is of a medium level along the light path. Generated by the bright line B.

In addition, the light hitting the end 31 of the lamp housing 30 is generated as a medium black line (C), the bright line (A) generated by light hitting the lower edge 43 of the light guide plate 40. Light is transmitted along the light path and appears as medium bright lines (shaded, D).

Then, the black line E appears due to the thickness of the light guide plate 40 and the bite of the light guide plate 40.

The dark line and the bright line generated by this principle have a problem in that the screen cannot be kept clean because it eventually appears on the screen of the panel 80.

In addition, in the structure of the backlight unit of the conventional inverted prism structure, the entire surface is hazeed on one surface of the diffusion sheet 70 disposed above the inverted prism sheet 50 and transferred to the panel 80. As the brightness of the light is lowered, there is another problem in that it cannot provide a high brightness image quality.

Accordingly, an object of the present invention is to solve the above-described problems, and in the backlight unit of the inverse prism structure, a dark line formed on the light incident part of the backlight unit by arranging a transparent sheet having only the light incident part between the light guide plate and the prism sheet, The present invention provides a backlight unit for a display in which bright lines are alleviated to have a beautiful screen appearance.

In addition, another object of the present invention is to use a transparent sheet having only a light incident portion between the light guide plate and the prism sheet haze a predetermined period of time to transmit the light refracted from the light guide plate to the prism sheet side as it is, high brightness is possible, As a result, the present invention provides a display backlight unit capable of implementing high resolution image quality.

1 is a schematic side cross-sectional view of a conventional backlight unit.

Figure 2 is a schematic side cross-sectional view of a backlight unit according to an embodiment of the present invention.

3 is a view illustrating a transparent sheet in which the light incident part of FIG. 2 is hazed;

Display backlight unit of the present invention for achieving the above object is a light guide plate for guiding the light emitted from the lamp toward the screen, and a reflective sheet which is formed in the lower portion of the light guide plate to return the light leaked from the back of the light guide plate to the light guide plate And a transparent sheet disposed on an upper surface of the light guide plate, the light incident part having a haze treatment, and the remaining part being transparent to relax dark lines and bright lines generated at the light incident part of the light guide plate to transmit light transmitted from the light guide plate, and the transparent sheet. It consists of a prism sheet that refracts and condenses light emitted from the sheet perpendicularly to the screen.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail. In the description, the same reference numerals are given to the same components as those in FIG. 1 described above.

Figure 2 is a schematic side cross-sectional view of a backlight unit according to an embodiment of the present invention, Figure 3 is a view showing the haze treatment of the light incident portion of FIG.

As shown, the backlight unit of the present invention is the frame mold 90, the lamp housing 30 is formed on the lower portion of the frame mold 90, the lamp 20 is built-in mounted, the back cover 100 and The reflective sheet 60 is disposed on the upper surface of the back cover 100 and has one end mounted on the inner lower surface of the lamp housing 30, and the one end thereof is disposed on the upper surface of the reflective sheet 60. The light guide plate 40 coupled to 30, the transparent sheet 110 disposed on the upper surface of the light guide plate 40 by haze treatment, and the inverse prism sheet 50 disposed on the upper surface of the transparent sheet 110. ) And panel 80.

The lamp housing 30 collects the amount of light emitted from the lamp 20 into the light guide plate 40, and the light guide plate 40 is provided to evenly output the light emitted from the lamp 20.

At this time, the light guide plate 40 has a dot pattern 41 on the upper surface, a prism pattern 42 on the lower surface, and a prism pattern 51 on the lower surface of the reverse prism sheet 50, as in the prior art. The light spaced apart or separated from the direction perpendicular to the upper surface of the light guide plate 40 is a prism pattern formed on the lower surface of the dot pattern 41 and prism pattern 42 and the reverse prism sheet 50 respectively formed on the upper and lower surfaces of the light guide plate. By 51, the light is refracted in the direction perpendicular to the light guide plate 40 and is focused toward the plate surface of the panel 80.

The dot pattern 41 and the prism pattern 42 formed on the upper and lower surfaces of the light guide plate 40 may be integrally formed on the upper and lower surfaces of the light guide plate 40 when the light guide plate 40 is manufactured.

In addition, the patterns formed on the light guide plate 40 may be formed to face each other in a forward direction so that light from the lamp 20 may be focused toward the entire plate surface of the panel 80, and may have different arrangement directions. have.

The reflective sheet 60 is disposed on the lower surface of the light guide plate 40 to be substantially equal to the area of the light guide plate 40 to reflect the light transmitted to the lower surface of the light guide plate 40 again. That is, when a part of the light emitted from the lamp 20 is directed to the reflective sheet 60 is reflected back by the reflective sheet 60 is directed to the transparent sheet 110 through the light guide plate 40.

As shown in FIG. 3, the transparent sheet 110 is disposed between the light guide plate 40 and the inverse prism sheet 50 by having a light incident portion be treated with a predetermined haze. Here, the part about which the haze treatment of the transparent sheet 110 of the present invention is preferably about 30 mm thick from the lower end.

That is, in the transparent sheet 110 in which the light incident part of the present invention is hazed, the light emitted from the lamp 20 is reflected by the upper and lower edges of the light incident part of the light guide plate 40 as described in the related art. As a result, dark lines and bright lines generated in the light incident part of the backlight unit are alleviated. Accordingly, since the dark lines and the bright lines are not visible on the screen of the panel 80, the screen of the panel 80 may be clean.

In addition, since the transparent sheet 110 of the present invention is haze-treated only the light-receiving portion, and the remaining portion except the light-receiving portion is a transparent sheet, the light that is refracted from the light guide plate 40 and transmitted to the upper surface is intact. To 50.

When the light is transmitted to the panel 80 by the backlight unit having the structure of the present invention as follows.

First, when power is applied and the lamp 20 is turned on, the light from the lamp 20 is collected and transmitted to the light guide plate 40 by the lamp housing 30. When the light of the lamp 20 enters the light guide plate 40 and proceeds along the plate surface of the light guide plate 40, some of the light moves to the transparent sheet 110 located on the top surface of the light guide plate 40 by reflection and scattering. Is directed to the reflective sheet 60 located on the lower surface of the light guide plate 40. Here, the light directed to the reflective sheet 60 is reflected and transmitted to the transparent sheet 110 through the light guide plate 40 again.

As such, the light moved toward the transparent sheet 110 passes through the transparent sheet 110 as it is, and the passed light is moved to the reverse prism sheet 50 and passes through the reverse prism sheet 50 while the prism pattern 51. The light is directed toward the front of the screen, and as the light is incident on the panel 80, the user can see an image formed on the panel 80.

In particular, since the light emitted from the lamp 20 is refracted by the upper and lower edges of the light incident portion of the light guide plate 40, dark lines and bright lines generated in the light incident portion of the backlight unit are haze treated. Since the light is relaxed by the transparent sheet 110 and passes through the remaining transparent sheet portion except for the light incident portion of the transparent sheet 110 from the light guide plate 40, the light is transmitted to the inverse prism sheet 50 in a state in which the luminance is not lowered. Therefore, the user can be provided with a clear screen and high resolution image quality with reduced dark lines and bright lines.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the embodiments described, but should be determined by the equivalents of the utility model registration claims as well as the scope of the utility model registration claims described below.

As described above, according to the present invention, in the backlight unit of the reverse prism structure, the transparent sheet having only the light incident portion is disposed between the light guide plate and the prism sheet to mitigate dark lines and bright lines generated at the light incident portion of the backlight unit. You have a screen.

In addition, only the light-receiving portion between the light guide plate and the prism sheet uses a transparent sheet having a haze treatment for a predetermined period so that the light refracted from the light guide plate to the prism sheet side can be transmitted to the prism sheet side as it is, resulting in high resolution. Is implemented.

Claims (3)

A light guide plate for guiding light emitted from the lamp toward the screen; A reflection sheet formed under the light guide plate to return the light leaking from the rear surface of the light guide plate to the light guide plate; A transparent sheet disposed on an upper surface of the light guide plate, the light incident part having a haze treatment, and the remaining part being transparent to relax dark lines and bright lines generated at the light incident part of the light guide plate to transmit light transmitted from the light guide plate; And a prism sheet for refracting and condensing light emitted from the transparent sheet perpendicularly to the screen. The method of claim 1, wherein the light guide plate A dot pattern is formed on an upper surface, and a prism pattern is formed on a lower surface. The method of claim 1, wherein the prism sheet And a prism pattern for condensing light toward the light guide plate.