KR101351255B1 - Light guiding plate and backlight unit having the same - Google Patents

Abstract

The present invention relates to a light guide plate capable of improving the brightness as well as the exterior by minimizing the brightness difference between light sources and to a side surface type backlight device having the same. The light guide plate for a backlight device according to the present invention emits, to the light emission surface in the upper side, the incident light on the light incident surface in at least one side, wherein the light emission surface comprises an inclination part of a light incident part area which induces the incident light on the light incident surface into the inside of the light guide plate having the relatively thin thickness and has a light diffusion pattern formed in the inclination direction in the upper surface; a horizontal part of a window area in which a light extraction pattern is aligned from the light incident part to the light opposite part; and a boundary part which connects the inclination part and the horizontal part so that the light diffusion patter and the light extraction pattern are not continued.

Description

Light guide plate and back light unit having the same {Light Guiding Plate and Backlight Unit having the Same}

The present invention relates to a backlight device, and more particularly, to a light guide plate having a structure capable of improving the appearance while minimizing the difference in contrast between the light source and the light source and improving the brightness, and a side type backlight device having the same.

BACKGROUND ART A backlight device used as a backlighting light source of a liquid crystal display device is generally classified into a direct type backlight device and an edge type backlight device according to the position of the light source. The direct type backlight device has a structure in which a light source directly emits light upward from the lower part of the light guide plate, which is advantageous for a large area liquid crystal display device, and the side type backlight device emits light incident from the side of the light guide plate upward. Advantageous for thin thickness backlight devices. In recent years, as the thickness of the liquid crystal display device becomes thinner and the bezel of the edge is manufactured to have a minimum width, the backlight device also tends to be slimmer.

1 is a view schematically showing the structure of a light source and a light guide plate which are main parts of a side type backlight device according to the related art. As shown, the side type backlight device forms a structure in which a light source is disposed on one side of the light guide plate 10. In this structure, light of a plurality of point light sources emitted from the LED light source 20 is incident into the light guide plate 10 through one light incident surface 11 of the light guide plate 10, and the incident light is guided by the light guide plate 10. After being converted into a surface light source through total internal reflection, it is emitted to the upper light exit surface 12.

Meanwhile, in recent years, as the backlight device becomes slimmer, the thickness of the light guide plate 10 also gradually decreases. That is, as shown, the thickness t1 at the light incident surface 11 of the light guide plate 10 is at least equal to the height h of the LED light source 20 to absorb all the light emitted from the LED light source 20. The thickness t2 at the light exit surface 12 region of the light guide plate 10 is relatively thin. That is, in the general slim type backlight device, an LED light source 20 having a height h of about 0.8 mm is applied. In this case, the light incident surface 11 of the light guide plate 10 has a thickness t1 of at least 0.8 mm. In the light emitting surface 12 region of the light guide plate 10, the light guide plate 10 has a thickness t2 of about 0.5 mm. At this time, the upper surface of the light guide plate in the light incident surface 11 is connected to the horizontal light exit surface 12 while forming the inclined surface (12a), the boundary line forming a predetermined angle between the inclined surface (12a) and the light exit surface 12 ( 13) is formed.

As described above, when the thickness of the light guide plate 10 is thin, it is advantageous to slim the backlight device, but there is a problem in that appearance is poor due to relatively low luminance and vulnerability to a hot spot caused by a point light source. In addition, there is a problem in that hot lines are generated along the boundary line 13 between the inclined plane and the outgoing plane generated by the thickness difference of the light guide plate 10, resulting in deterioration of appearance characteristics. These problems become more serious as the distance between the LED light sources 20 increases.

The present invention has been proposed to solve the above problems, in the light guide plate structure having an inclined surface in the light incident region due to the difference in thickness, a structure that can prevent the luminance degradation in the light emitting surface region having a relatively thin thickness An object of the present invention is to provide a light guide plate and a side type backlight device.

In addition, an object of the present invention is to provide a light guide plate and a side type backlight device having a structure capable of improving the appearance defect by preventing hot spots caused by a plurality of point light sources incident on the light incident surface.

It is another object of the present invention to provide a light guide plate and a side type backlight device having a structure that can improve appearance by preventing the generation of bright lines caused by the light scattering phenomenon generated at the interface between the light receiving region and the light emitting region having different thicknesses.

In the light guide plate for a backlight device of the present invention for achieving the above object, in the light guide plate for emitting light incident on at least one light incident surface to the light exit surface of the upper side, the light exit surface is incident on the light incident surface The light is guided to the interior of the light guide plate having a relatively thin thickness, the upper surface is inclined portion in which the light diffusion pattern is formed in the inclined direction; A horizontal portion in which the light extraction pattern is formed side by side along the light portion at the light incident portion; And a boundary portion connecting the inclined portion and the horizontal portion such that the light diffusion pattern and the light extraction pattern are not continuous.

The light diffusion pattern and the light extraction pattern may form a prism shape or a cylinder shape, and the boundary portion may connect the inclined portion and the horizontal portion in a curved shape.

In addition, the side type backlight device of the present invention comprises a light guide plate having the above configuration; And a plurality of LED light sources disposed on at least one side of the light guide plate to inject light into the light guide plate.

According to the present invention having the above-described configuration, a light diffusion pattern is formed on an inclined portion of the light emitting surface with respect to a light guide plate having a thin thickness to improve hot spots caused by a point light source, thereby preventing appearance defects, and a light extraction pattern on a horizontal portion of the light emitting surface. This can be formed to improve the brightness.

In addition, the present invention can improve the appearance characteristics by preventing the light beam shape at the boundary by forming the light diffusion pattern and the light extraction pattern discontinuously formed at the boundary portion connecting the inclined portion and the horizontal portion of the light emitting surface. .

1 is a side view schematically showing the structure of a light guide plate which is a main part of a backlight device according to the related art;
2 is a cross-sectional view schematically showing the structure of a side type backlight device according to an embodiment of the present invention;
3 is a side view showing a detailed structure of a light guide plate which is a main part of FIG.
4 is a plan view illustrating an example of the light guide plate of FIG. 3;
5 is a plan view illustrating another example of the light guide plate of FIG. 3;
6 is a cross-sectional view along the AA direction of various examples of the light extraction pattern of FIG. 4, and
7 is a plan view showing light emission characteristics of a light guide plate according to the prior art and the embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a cross-sectional view schematically showing the structure of a side type backlight device according to an embodiment of the present invention. As can be seen in the figure, the side type backlight device 100 of the present invention, the reflective sheet 120 and the light guide plate 130 is seated in the cover bottom 110, LED on one side or both sides of the light guide plate 130 The light source 140 is disposed. In addition, the light control member 150 is stacked on the upper side of the light guide plate 130, and the guide panel 160 is fastened to the cover bottom 110 to form a structure for fixing the components stored in the cover bottom 110. . In addition, although not shown, the liquid crystal panel is disposed above the guide panel 160, and the top cover is fastened to the guide panel to fix the liquid crystal panel.

Here, the cover bottom 110 forms an accommodating space therein in the form of a rectangular plate with an open top, and together with the guide panel 160 constitutes an outer housing of the backlight device. The reflective sheet 120 is configured to increase the luminance of the backlight device by reflecting light leaking from the lower portion of the light guide plate into the light guide plate, and may be formed of a reflective film or a panel.

The light guide plate 130 is a light conversion element that totally reflects light incident therein to be converted into a surface light source, and is made of a transparent resin such as PMMA. The light guide plate 130 has a thinner window area than a light incident area in order to be applied to a thin backlight device. To this end, the upper surface of the light guide plate 130 constitutes an inclined portion having a taper type in the light incident portion region and a horizontal portion in the window region. In particular, the light scattering pattern and the light extraction pattern are formed on the inclined portion and the horizontal portion on the upper surface of the light guide plate 130 according to the present invention, and the detailed configuration of the light guide plate 130 will be described later.

The light source 140 is configured to inject light into the light guide plate. In the present invention, the LED is used as a light source of the backlight device, and a plurality of LEDs are mounted on the substrate in a predetermined interval. The light source 140 injects light of a plurality of point light sources emitted from the LED into the light guide plate 130.

The light control member 150 is configured to improve luminance and uniformity with respect to the light of the surface light source emitted to the upper part of the light guide plate, and is composed of various kinds of optical sheets such as a prism sheet and a brightness enhancement film.

The guide panel 160 is fastened to the cover bottom 110 to fix the components stored in the cover bottom 110, and is configured to rest the liquid crystal panel on the top. The guide panel 160 is composed of a rectangular frame that forms a window with an open central portion.

3 is a side view illustrating a detailed structure of a light guide plate as a main part of FIG. 2, and FIGS. 4 and 5 are plan views illustrating various examples of the light guide plate of FIG. 3, and FIG. 6 is a view illustrating various examples of the light extraction pattern of FIG. 4. Directional cross section.

First, as shown in FIG. 3, the light guide plate 130 according to the embodiment of the present invention has a rectangular plate shape, one side of which forms a light incident surface 131 to which light is incident, and an upper surface of the light guide plate 130 emits total internal light. A light exit surface 132 is formed. The light source 140 is disposed on the light incident surface 131 side of the light guide plate 130, and the light incident surface 131 may be formed on one side of the light guide plate 130 or on both sides facing each other. In addition, the light guide plate 130 according to the present invention has the light incident surface 131 of the light incident part region B formed at the same height as the light source 140, and the light exit surface 132 of the window region C has the light incident surface ( Thinner than 131). Accordingly, the light exit surface 132 of the upper surface of the light guide plate 130 is divided into an inclined portion 132a in the light incident portion region B and a horizontal portion 132b in the window region C.

In particular, a light scattering pattern is formed on the inclined portion 132a of the light guide plate 130 so that the light of the point light source incident from the LED light source 140 is diffused at a wide direction angle to proceed into the light guide plate, and the horizontal portion 132b is provided. A light extraction pattern is formed in the light guide plate 130 to improve the brightness of the light emitted from the light guide plate 130. In addition, the inclined portion 132a and the horizontal portion 132b are connected to each other while forming a boundary at the boundary portion 133, as shown in the light scattering pattern 134 and the light of the horizontal portion 132b of the inclined portion 132a. The extraction patterns 135 are disconnected from each other at the boundary 133 and are discontinuously formed. When the light scattering pattern 134 and the light extraction pattern 135 are connected at the boundary portion 133 connecting the inclined portion 132a and the horizontal portion 132b, the boundary line by different angles (see 13 in FIG. 1). Due to this formation, a bright line may be generated due to light scattering at the boundary line. However, when the light scattering pattern 134 and the light extraction pattern 135 are discontinuously formed as in the present invention, no boundary is formed at the boundary part 133, and thus, no light shuffling occurs.

In addition, the boundary portion 133 in the present invention connects the inclined portion 132a and the horizontal portion 132b while forming a curved surface as shown in FIG. 3. Since the curved boundary portion 133 does not have a tangent that may occur at the inclined plane and the horizontal plane junction at the connection portion, no light fringes or bright lines due to the tangent line are generated.

On the other hand, the light extraction pattern 135 in the horizontal portion 132b is formed side by side in the light-facing direction in the light incident surface according to the progress of the light. At this time, the light scattering pattern 134 in the inclined portion 132a is formed side by side regardless of the position of the light source 140, like the light extraction pattern 135, as shown in FIG. As described above, the light source 140 may be radially formed according to the emission direction angle of the light source 140.

In addition, the light extraction pattern 135 and the light scattering pattern 134 have a prism shape or a cylindrical shape. That is, the light extraction pattern 135 and the light scattering pattern 134 may have a prism shape having a predetermined vertex angle as shown in (a) of FIG. 6 or a spherical or aspherical cylinder shape as shown in (b). Have In this case, the light extraction pattern 135 and the light scattering pattern 134 may form the same shape or different shapes.

7 is a plan view showing light output characteristics of the light guide plate of the conventional and the present invention having an inclined portion, (a) is a light emission characteristic for the light guide plate is not formed with the light scattering pattern and the light extraction pattern, (b) is light Light emission characteristics of the light guide plate in which the scattering pattern and the light extraction pattern are continuously formed, and (c) is a view showing the light emission characteristics of the light guide plate in which the light scattering pattern and the light extraction pattern are discontinuously formed.

First, as in (a), when no light pattern is formed in the inclined portion and the horizontal portion of the light guide plate according to the conventional art, a hot spot is observed by the LED point light source, and the window area of the horizontal portion is It is darkly observed.

In addition, as shown in (b), when the light scattering pattern is formed in the inclined portion according to the conventional technique, the hot spot is removed, and when the light extraction pattern is formed in the window region of the horizontal portion, it can be seen that the relatively high luminance appears. have. However, also in (b), since the light scattering pattern of the inclined portion and the light diffusion pattern of the horizontal portion are formed continuously, a bright line is observed at the boundary between the inclined portion and the horizontal portion.

Meanwhile, when the light diffusion pattern and the light extraction pattern are discontinuously formed at the boundary between the inclined portion and the horizontal portion according to the embodiment of the present invention, both hot spots and bright lines are not observed at the boundary portion and high in the window region of the horizontal portion. It can be confirmed that the luminance is shown. Therefore, in the light guide plate according to the related art, the width of the bezel of the liquid crystal display device must be widened to cover hot spots or bright lines. However, in the light guide plate according to the present invention, the width of the bezel can be relatively narrowed.

As described above, the light guide plate 130 having the above-described structure may prevent hot spots due to the point light source by the light scattering pattern 134 and decrease in luminance by the light extraction pattern 135. In particular, the inclined portion 132a and the horizontal portion 132b are connected by the curved boundary portion 133, and the bright line at the boundary portion 133 of the light scattering pattern 134 and the light extraction pattern 135 is prevented from occurring. do.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

110: cover bottom 120: reflective sheet
130: Light guide plate 131: Light incident surface
132: light exit surface 132a: inclined portion
132b: horizontal portion 133: boundary portion
134: light scattering pattern 135: light extraction pattern
140: light source 150: light control member
160: guide panel

Claims (4)

In the light guide plate for emitting light incident on at least one light incident surface to the light exit surface of the upper side, the light exit surface is
An inclination part in which light incident on the light incident surface proceeds into a light guide plate having a relatively small thickness, and an upper surface of which has a light diffusion pattern formed in an inclined direction;
A horizontal portion in which the light extraction pattern is formed side by side along the light portion at the light incident portion; And
And a boundary portion connecting the inclined portion and the horizontal portion so that the light diffusion pattern and the light extraction pattern are not continuous. The method of claim 1, wherein the boundary portion,
The light guide plate, characterized in that for connecting the inclined portion and the horizontal portion in a curved shape. The method of claim 1, wherein the light diffusion pattern and the light extraction pattern,
A light guide plate having a prism shape or a cylinder shape. A light guide plate composed of any one of claims 1 to 3; And
And a plurality of LED light sources disposed on the side of the light guide plate to inject light into the light guide plate.

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