KR100869336B1 - Edge type backlight unit - Google Patents

Abstract

The present invention discloses a side dimming backlight device in which a polyhedral pattern is formed on a lower surface of a light guide plate, and a prism pattern for condensing function is formed on the upper surface, thereby providing good optical characteristics even when one vertical prism sheet is deleted.

The backlight device of the present invention comprises a light source; A modified pyramidal polyhedral pattern is formed on the lower surface to diffuse the incident light, and a vertical prism pattern is formed on the upper surface to condense the light by refraction, thereby converting the linear light incident from the light source into surface light and emitting the light upward. Light guide plate; A reflector for increasing light efficiency by reflecting light directed downward from the light guide plate upward; A diffusion sheet for diffusing and uniformizing light incident from the light guide plate; And a horizontal prism sheet for refracting and condensing light incident from the light guide plate, thereby providing good optical characteristics without a conventional vertical prism sheet.

LCD, backlight, light guide plate, prism, polyhedron pattern, pyramid

Description

Side Illuminated Backlight Unit {EDGE TYPE BACKLIGHT UNIT}

1 is a view showing a conventional side-illumination backlight device,

2 is a view showing the structure of a side-illumination backlight device according to the present invention;

3 is a top perspective view of the light guide plate illustrated in FIG. 2;

4 is a bottom perspective view of the light guide plate illustrated in FIG. 2;

5 illustrates a first embodiment of a pattern formed on a bottom surface of a light guide plate according to the present invention;

6 is a second embodiment of a pattern formed on a bottom surface of a light guide plate according to the present invention;

7 is a schematic view showing the characteristics of the pattern formed on the lower surface of the light guide plate according to the present invention;

8A to 8C are schematic views showing optical characteristics of a prism pattern formed on the upper surface of the light guide plate according to the present invention.

** Explanation of symbols for main parts of drawings **

10: reflector 20: light guide plate

30: diffusion sheet 40: horizontal prism sheet

50: fluorescent lamp 52: lamp reflector

60: protective sheet

P: polyhedral pattern S: vertical prism pattern

The present invention relates to a backlight device for a liquid crystal display device, and more particularly, a polyhedral pattern is formed on a lower surface of a light guide plate, and a prism pattern for condensing function is formed on the upper surface, so that even if one vertical prism sheet is removed, good optical characteristics can be obtained. The present invention relates to a side-illuminated backlight device that can be provided.

In general, a backlight device of a liquid crystal display is a cylindrical light source such as a Cold Cathode Fluorescent Lamp (CCFL), a Hot Cathode Fluorescent Lamp (HCFL), an External Electrode Fluorescent Lamp (EEFL), or a Light Emitting Diode (LED). Devices, EL (Electro Luminescence) devices, etc. are mainly used, and are classified into side-lighting and direct-lighting backlight devices according to the manner in which the light sources are arranged. In general, side dimming backlight devices are mainly used in LCDs for notebooks or computer monitors because of their relatively thin thickness, and direct dimming backlight devices are mainly used in LCDs for large screens such as TVs due to high light efficiency.

In the conventional side-illuminated backlight device, as shown in FIG. 1, the fluorescent lamp 6, which is a light source, is positioned on the side of the light guide plate 2 that scatters the light of the linear light source and converts the light into a surface light source, and the fluorescent lamp 6 ) Is wrapped in the lamp reflector 7 so that the light emitted from the fluorescent lamp 6 is directly or reflected by the lamp reflector 7 to be incident on the light guide plate 2. A reflecting plate 1 is positioned below the light guide plate 2, and a diffusion sheet 3 for scattering light emitted from the light guide plate 2 to equalize luminance by refraction of the light guide plate 2 and refracting the diffused light. Various sheets, such as the prism sheet 4 and the protective sheet 5 which improve light condensing brightness, are located. The prism sheet 4 is divided into a vertical prism sheet 4-1 and a horizontal prism sheet 4-2, and the two prism sheets 4 overlap each other or only one of them is used.

In the side-illumination type backlight device having such a structure, light emitted from the fluorescent lamp 6 is incident on the side light incident part of the light guide plate 2, and the light guide plate 2 scatters and uniformizes the light of the fluorescent lamp that is incident on the light source. The reflection plate 1 reflects the light from the light guide plate 2 downward to the upper side of the light guide plate 2 to increase the light efficiency. The diffusion sheet 3 located above the light guide plate 2 scatters the light emitted from the light guide plate 2 to improve brightness and appearance, and the prism sheet 4 refracts and condenses the diffused light to improve brightness. Let's do it.

However, since the conventional backlight unit requires two separate prism sheets, there is a problem in that the configuration is complicated and the optical characteristics are also required to be improved.

The present invention has been proposed to solve the above problems, in the side-illuminated backlight device to form a modified pyramid pattern on the lower surface, and to form a vertical prism pattern on the upper surface to obtain good optical properties without a separate vertical prism sheet It is an object of the present invention to provide a side light type backlight device.

The present invention to achieve the above object, the light source; A modified pyramidal polyhedral pattern is formed on the lower surface to change the path of incident light, and a vertical prism pattern is formed on the upper surface to condense the light by refraction, thereby converting the linear light incident from the light source into surface light and emitting it upward. A light guide plate; A reflector for increasing light efficiency by reflecting light directed downward from the light guide plate upward; And a horizontal prism sheet for refracting and condensing light incident from the light guide plate. In this case, the apparatus of the present invention may further include a diffusion sheet for diffusing and uniformizing the light incident from the light guide plate.

In addition, the modified pyramid has an angle of inclined planes that induces emission to an upper surface of 45 ° to 75 ° based on the normal surface of the wedge angle, and the polyhedral pattern on the lower surface of the light guide plate has a small density of light incident portions It is a structure that is pushed toward the miner side.

In addition, the polyhedral pattern of the lower surface of the light guide plate has a structure where the depth of the polyhedral pattern is thinner on the light incident part side, and the depth of the polyhedral pattern becomes deeper toward the light incident part side, and the polyhedral pattern on the bottom of the light guide plate has a pattern pitch of 150 μm. will be.

In the prism pattern of the upper surface of the light guide plate, a rounded corner having a top radius of 80 ° to 110 ° and a radius of curvature R of 0 to 15 μm is formed on the top of the light guide plate.

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

2 is a view illustrating a structure of a side-illuminated backlight device according to the present invention, wherein the backlight device of the present invention includes a reflector 10, a light guide plate 20, a diffusion sheet 30, a horizontal prism sheet 40, and a fluorescent lamp ( 50), the lamp reflector 52 and the protective sheet 60, and the vertical prism plate (sheet) is omitted. Although not shown in the drawings, the diffusion sheet 30 may be omitted.

Referring to FIG. 2, the fluorescent lamp 50, which is a linear light source, is positioned on the side of the light guide plate 20, and the fluorescent lamp 50 is wrapped in the lamp reflector 52 so that the light emitted from the fluorescent lamp 50 may be directly or a lamp reflector. It is reflected by 52 to enter the light guide plate 20.

Light incident on the light guide plate 20 is reflected and refracted upward by the polyhedral pattern P formed on the bottom surface DN of the light guide plate 20 according to the present invention, converted into a surface light source, and at the same time a vertical prism pattern ( It is refracted and collected by S) and is incident on the diffusion sheet 30. The reflective plate 10 reflects the light directed downward from the light guide plate 20 to the upper side of the light guide plate 20 to increase the light efficiency, and the diffusion sheet 30 positioned above the light guide plate 20 is separated from the light guide plate 20. Diffuse outgoing light to make luminance uniform.

The backlight device having such a structure forms a vertical prism pattern S on the upper surface of the light guide plate 20 to remove the vertical prism sheet, which is conventionally disposed on the upper side of the diffusion sheet, thereby simplifying the construction and reducing costs. can do.

3 is a top perspective view of the light guide plate according to the present invention, and FIG. 4 is a bottom perspective view of the light guide plate according to the present invention.

As shown in FIG. 3, the prism pattern S is formed on the upper surface UP of the light guide plate 20 according to the present invention. The prism pattern S is perpendicular to the fluorescent lamp 50, which is a linear light source. As illustrated, a modified pyramidal polyhedral polyhedral pattern P is formed. The modified pyramidal polyhedral pattern P diffuses the light incident from the fluorescent lamp 50 as the linear light source toward the upper surface of the light guide plate 20, and the vertical prism pattern S refracts and condenses the diffused light to the upper side. Send to. At this time, the configuration angle (top angle) of the upper prism pattern S is formed between 80 ° and 110 °, and the curvature radius R of the top of the prism pattern S is 0 μm to 15 μm (R0 μm to R15 μm). It is preferable that a round is formed.

The first shape of the polyhedral pattern P formed on the lower surface DN of the light guide plate 20 according to the present invention has a structure in which the vertices of the pyramid shape are biased to almost right vertical lines in the right direction as shown in FIG. In this modified pyramidal polyhedral pattern, when viewed from the front, the side of the left side is gently inclined than the side of the right side as shown in (b) of FIG. 5.

In addition, in the second shape of the pyramid pattern P formed on the lower surface DN of the light guide plate 20 according to the present invention, as shown in FIG. The deformed pyramid shape has a largely skewed structure, and when viewed from the front, both the sides of the left side and the sides of the right side are inclined to the right side as shown in FIG. 6 (b).

As described above, the polyhedral pattern P formed on the lower surface DN of the light guide plate 20 is a pyramidal pattern having a right-angled pyramid shape, as shown in FIG. The angle of is between 45 ° and 75 ° from the normal of the wedge angle. In addition, the maximum pitch between the polyhedron pattern and the polyhedral pattern in the light incident portion is within 150 μm, and the pattern depth is deeper as it moves away from the light incident portion as shown in (b) of FIG. 7. The density of the pattern is small as the density of the light incidence part is smaller and is formed closer to the distance from the light incidence part. In the exemplary embodiment of the present invention, the light incidence part represents a portion where light is incident from the fluorescent lamp 50 in the light guide plate 20, and the light incidence portion represents the opposite portion.

FIG. 7 is a schematic diagram showing the characteristics of the polyhedral pattern P formed on the lower surface of the light guide plate according to the present invention, where (a) represents the angle and pitch of the polyhedral pattern, and (b) is the polyhedral pattern Indicates depth.

Referring to FIG. 7, it can be seen that the angle of the deformed pyramid pattern surface inducing emission to the upper surface forms an angle between 45 ° and 75 ° based on the normal surface of the wedge angle. It can be seen that the maximum pitch between P) and the pattern is within 150 µm, and the depth of the pattern becomes deeper as it moves away from the light incident portion. In (b) of FIG. 7, the pattern depth is 'd ₁ <d ₂ <d ₃ <..... d _n ', and the pattern depth becomes deeper from the light incident part.

On the other hand, in the backlight device according to the present invention, the horizontal prism sheet 40 provides optical characteristics as shown in FIGS. 8A to 8C. In this case, the construction angle (vertex angle) of the horizontal prism pattern is 90 ° ± 5 °.

FIG. 8A shows that the light is condensed in the vertical direction by the horizontal prism pattern 40 when light of approximately 29 ° is emitted to the horizontal prism sheet 40. FIG. 8B shows FIG. 8A in more detail. Is a view showing that incident light of approximately 29 ° ± 10 ° is focused.

8A to 8C, it can be seen that the horizontal prism sheet 40 increases light intensity by being refracted and collected by being inclined at a predetermined angle and exiting in the vertical direction.

Although the present invention has been described in detail through specific embodiments, the present invention is not limited to the above-described embodiments, and various changes may be made by those skilled in the art to which the present invention pertains without departing from the spirit and scope of the present invention. It may be changed and implemented.

As described above, the side dimming backlight device of the present invention forms a modified pyramidal polyhedral pattern on the lower surface of the light guide plate, and removes the conventional vertical prism sheet by forming a vertical prism pattern on the upper surface, thereby removing one horizontal prism sheet. It is possible to obtain excellent optical properties compared to the conventional while using only.

Claims (2)

A light source, a light guide plate that converts the line light incident from the light source into surface light, and emits the light upwardly; a reflector for reflecting light downward from the light guide plate to the upper side to increase light efficiency; A side dimming backlight device having a horizontal prism sheet for focusing light, The light guide plate, On the lower surface, a modified pyramidal polyhedral pattern is formed to change the path of incident light, On the upper surface is formed a vertical prism pattern for condensing light by refraction, The modified pyramidal polyhedral pattern formed on the lower surface, The angle of the inclined surface that leads to the exit is formed at an angle between 45 ° and 75 ° based on the normal surface of the wedge angle, The prism pattern formed on the upper surface, The corner angle of the prism is between 80 ° and 110 °, and the radius of curvature of the corner of the prism R is formed between 0 μm and R15 μm. A prism sheet horizontally arranged on a light source, the side dimming backlight device characterized in that it is possible to guide the side beneficiation to the front-emitting surface light. The polyhedral pattern of the lower surface of the light guide plate is: The side dimming type backlight device characterized in that the depth of the polyhedron pattern of the light incident part is thin, and the depth of the polyhedral pattern deepens toward the light incident part side, so that the maximum pitch of the light incident part is 150 μm.

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