KR100746487B1 - Light enterance edge of eight gudie plate of back light unit and the processing method - Google Patents

Abstract

The present invention relates to a processing method of a light guide plate light incident portion and a light guide plate light incident portion of a backlight unit.

More specifically, the light guide plate light receiving part and the light guide plate light receiving part processing method of the backlight unit, characterized in that one of the corners of both sides of the light guide plate incident part is an obtuse angle, the other is an angleless curve.

As described above, one of both edges of the light guide plate incident part may be processed at an obtuse angle to eliminate the bright line of one part, and the other side of the light guide plate incident part may be processed into a circle or an angleless curve to reduce the amount of interference of light. By dispersing the light similarly to the obtuse angle, it is possible to remove bright lines and dark lines near the light guide plate, and to create an even screen.

Backlight unit, light guide plate incident part, edge type, LCD, obtuse angle, acute angle

Description

Light enterance edge of eight gudie plate of back light unit and the processing method}

1 is a view showing the configuration of a basic edge type backlight unit according to the prior art.

2 is a view showing a path of light at an acute angle of a light guide plate according to the prior art.

3 is a view showing the path of light at an obtuse angle of the light guide plate according to the prior art.

4 is a view showing the path of light after processing both corner portions of the light guide plate incident part according to the prior art at an obtuse angle.

FIG. 5 is a view illustrating a dispersion of light represented by giving a curve to an acute angle portion of a light guide plate incident part according to an exemplary embodiment of the present invention.

FIG. 6 is a view showing dispersion of light represented by giving different curves to an acute angle portion of a light guide plate incident part according to another exemplary embodiment of the present invention.

*** Explanation of symbols for main parts of drawing ***

1: light emitting source 2: housing and reflector

3: light guide plate light incident portion 4: dot or prism

5: light guide plate 6: prism sheet

7: diffuser plate 8: reflector plate

The present invention relates to a processing method of a light guide plate incident portion and a light guide plate incident portion of a backlight unit.

More specifically, it is possible to alleviate the bright lines and dark lines in the light guide plate of the back light unit to reduce the cause of the bright lines and dark lines generated near the light guide plate incident portion of the back light unit to maintain even brightness. It relates to a light incidence part and a processing method of the light incidence part surface.

In general, LCD displays do not emit light by themselves, but only serve to pass or block light.

Therefore, LCD displays generally use a device that emits light from the back side, and a device that radiates and emits light from the back side is called a backlight unit.

The Back Light Unit is placed on the back of the panel to illuminate the light source, and then the light goes to the front and the light is placed on the side of the panel to illuminate the light. There is an edge method to change the angle of the light so that the light comes to the front.

The edge method is thinner and lighter than the direct method. However, when the same power source is used, the edge method is darker than the direct method, the light is not uniformly distributed, and the light source is located near the light incident part. There is a disadvantage in that a fairly bright line) or a dark line (a considerably darker line than the surroundings) occurs.

1 is a view showing the configuration of a basic edge type backlight unit according to the prior art, Figure 2 is a view showing the path of light at an acute angle of the light guide plate according to the prior art, Figure 3 is an obtuse angle of the light guide plate according to the prior art 4 is a view showing the course of the light, and FIG. 4 is a view showing the course of the light after processing both edge portions of the light incident portion of the light guide plate according to the prior art at an obtuse angle.

Looking at the structure of the back light unit of the edge method with reference to Figures 1 to 4 in more detail,

The edge type backlight unit (Back Light Unit) is a light source (1) is attached to one side or both sides of the light source part of the light directly enters through the light entering part 3 of the light guide plate, the other part of the light source The light enters the light incident part 3 of the light guide plate through the reflection of the housing / reflector 2. The light exits very directly, or reaches and reflects back to the dot or prism 4 of the bottom plate of the light guide plate, or is reflected by the reflector plate 8 and sent to the upper surface so as to be viewed as planar light when viewed from above.

At this time, some of the light may be concentrated to one side, but the diffusion plate (7) is used to compensate for this, but if it is outside the limit, the bright line (9) is clearly generated near the light incident part of the light guide plate when the light is concentrated. The farther it is, the more it occurs

As a cause of the bright line 9, when the light reaching the upper and lower edges of the light guide plate incident part 3 enters the light guide plate 5, the corner of the light guide plate 5 is an acute angle of 90 degrees or less. As shown in Fig. 2, a bright line 9 is visible on the upper side of the light guide plate 5 (it appears on both sides but does not directly see the back side) due to the concentration of light, and is more clearly visible on the light incident part near the light emitting source. .

More specifically, when light exits from the light guide plate 5 to the air, the light has a critical angle greater than that of the light guide plate 5 material (for example, the acrylic resin has a refractive index of 1.49, and the critical angle is 42.2 °. When the light enters), light is emitted to the plane of air, but when the light enters a value larger than the critical angle or the critical angle of the light guide plate material, the light is reflected from the surface of the light guide plate so that the light does not come out.

In fact, when checking the reflection of light entering the light guide plate, when light near the critical angle to the air of the material reaches, as shown in FIG.

However, as shown in FIG. 3, when the edge where the light enters is an obtuse angle, light is dispersed and a bright line may not appear.

As described above, if both edges of the light guide plate incident part are processed at an obtuse angle, the bright line is alleviated. However, when both edges are processed at an obtuse angle, the problem of the existing curved line as shown in FIG. 4 can be solved. There was a problem that another bright line was generated due to the angle occurring in the middle of the miner.

In order to solve the above problems, the diffusion plate 7 and the like can be superimposed to a certain limit, but there is a problem that the structure becomes complicated and increases the value, and the light is not brighter with the same power supply. .

The present invention has been made to solve the above-described problems, and the interference phenomenon of the light emitted from the light emitting source and the light source cover by processing the curved light without obtuse, circle or angle at both corners of the light guide plate incident part of the backlight unit and To provide a processing method of the light guide plate incident part of the backlight unit and the light guide plate incident part of the backlight unit to reduce the concentration phenomenon to minimize the bright lines and dark lines generated in the light guide plate to increase the brightness of the entire surface and even brightness. There is this.

The above object is to provide a light guide plate light incident part of the backlight unit, characterized in that one of the corners of both sides of the light guide plate light incident part is an obtuse angle, and the other is an angleless curve.

One of the two corners of the light guide plate incident part is processed at an obtuse angle, and the other is processed by the angleless curve.

In particular, by processing both edges of the light guide plate into obtuse angles, circles or angled curves, the interference and concentration of light emitted from the light emitting source and the light source cover are reduced, and the bright lines and dark lines generated in the light guide plate are alleviated. The surface brightness is increased and the brightness is even.

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

FIG. 5 is a view showing dispersion of light represented by giving a curve to an acute angle of a light guide plate according to an exemplary embodiment of the present invention. FIG. 6 is a view illustrating a dispersion of light represented by giving a different curve to an acute angle of a light guide plate according to another exemplary embodiment of the present invention. Referring to Figure 5 and 6 in more detail with respect to the light guide plate light incident portion of the present invention,

In the present invention, as shown in Figs. 1 to 4, the brightness of the entire surface is increased by alleviating the bright line 9 and the dark line 10 generated by processing the light guide plate light incident portion 3 of the prior art at an obtuse angle, an acute angle, an obtuse angle, and an obtuse angle. Technology to create a screen with even brightness,

First, Figure 5 is processed at an obtuse angle (angle of more than 90 °) of the upper side of both edges of the light guide plate incident part, and the lower side of the conventional acute angle (angle below 90 °) is processed into a long curve without angle And the bottom is an embodiment of the present invention processed into a short curve without an angle.

The light 1 that enters through the light guide plate incident part 3 processed as shown in FIG. 5 has a sufficient distance (L1> L2> L3) so that the location of the light is farther away, so that the bright line becomes weaker and it is difficult to visually distinguish the light guide plate light incident part. The light 2 that reaches the curved portion is scattered by scattering without gathering, thereby alleviating the amount of interference of the light, and dispersing light similarly to the obtuse angle, thereby eliminating the bright line.

Next, FIG. 6 is processed at an obtuse angle (an angle of 90 ° or more) at an upper side of both corners of the light guide plate light receiving part 3, and a lower side is a conventional acute angle (angle of 90 ° or less), and the left side has no angle. Another embodiment of the present invention is processed into short curves and the bottom is processed into long curves without angles.

The light 1 that enters through the light guide plate incident part 3 processed as shown in FIG. 6 has a sufficient distance (L1> L2> L3), so that the location of the light is separated, so that the bright line becomes weak and difficult to visually distinguish. The light 2 that reaches the curved portion is scattered by scattering without gathering, thereby alleviating the amount of interference of the light, and dispersing light similarly to the obtuse angle, thereby eliminating the bright line.

In the above embodiment, acute angles are processed into long curves and short curves without angles to eliminate the bright lines, but it is obvious that the bright lines can be removed even if the curved lines have the same size.

Although one preferred embodiment of the present invention has been described above, it is clear that the present invention may use various changes, modifications, and equivalents, and may be applied in the same manner by appropriately modifying the embodiment. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, according to the present invention, both corner angles of the light guide plate light receiving part are processed at an obtuse angle and the other side is curved to have no angle, thereby eliminating bright lines and dark lines generated near the light guide plate light receiving part, thereby making it clear and bright. It has the effect of making the screen even.

Claims (3)

In the light guide plate incident portion of the backlight unit, The upper edge of the light guide plate incident part is an obtuse angle, the lower edge of the light guide plate incident part of the backlight unit, characterized in that the curve without an angle. In the light guide plate incident portion of the backlight unit, The upper edge of the light guide plate incident portion is processed at an obtuse angle, the lower edge is processed in the light guide plate of the light guide plate of the backlight unit, characterized in that the processing without an angle. delete

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