KR20190134439A - Light guide plate having engraved pattern and back light unit using the same - Google Patents

Abstract

The present invention relates to a light guide plate having an engraved pattern and a back light unit using the same. An engraved pattern is formed in a circular shape on an incident surface on a plane on a lower part surface of a light guide plate member and a longitudinal cross-section shape passing through the center is formed as a triangle. Therefore, inner total reflection efficiency is maximized to increase quantity of outputted light so as to increase light use efficiency, thereby increasing brightness of the backlight unit.

Description

LIGHT GUIDE PLATE HAVING ENGRAVED PATTERN AND BACK LIGHT UNIT USING THE SAME}

The present invention relates to a light guide plate having an intaglio pattern and a backlight unit using the same, and more particularly, to a light guide plate having an intaglio pattern capable of increasing light use efficiency and maximizing total internal reflection efficiency and a backlight unit using the same. Invention.

In general, the liquid crystal display is a flat panel display that displays an image using a liquid crystal, which is thin and light compared to other display devices, and has a low driving voltage and low power consumption. .

Since the liquid crystal display device is a non-light emitting device in which a display panel displaying an image does not emit light by itself, a separate backlight unit is required to supply light to the display panel.

The backlight unit includes a light source for generating light, a light guide plate that receives light from the light source, and emits the light upwardly, a diffusion sheet for diffusing the light emitted through the light guide plate to the front of the panel, and a prism sheet positioned at an upper side of the diffusion sheet. .

The backlight unit passes the light generated from the LED light source through the light guide plate, the diffusion sheet, and the prism sheet to adjust the amount of light emitted and the angle of light emitted to the front of the panel.

The backlight unit sequentially increases the light exit angle of the light source while passing the light generated from the LED light source through the light guide plate, the diffusion sheet, and the prism sheet so that the main path is maintained at 90 ° when the light is emitted.

However, the conventional backlight unit is designed to maintain the main path of the light 90 ° at the time of the final outgoing light, but due to the total reflection of 2 to 3% can not prevent the essential loss of the returning light has a problem of low brightness.

In addition, in the conventional backlight unit, a plurality of LED light sources are positioned on one side of the light guide plate so that the LED light sources are positioned in a line and the light generated from each LED light source is spaced apart from the light incident surface side of the light guide plate where the light is incident. Light stiffness phenomenon is occurring.

In addition, the conventional backlight unit has a problem in that the use efficiency of light is low and the total internal reflection efficiency is low by providing an embossed pattern on the lower surface.

FIG. 1 is a photograph illustrating a light stiffness phenomenon in a conventional backlight unit. Referring to FIG. 1, the light stiffness is a line shape of light generated from each LED light source at a part of a light incident surface side of a light guide plate in which a plurality of LED light sources are located. Branches are a phenomenon.

This is a phenomenon formed by the spacing of the LED light source spaced apart from the light incident surface side of the light guide plate.

Prior art related to the present invention is Korean Patent Publication No. 2004-0014890 'high brightness light guide plate of the embossed pattern for printing in LCD display backlight device' (published Feb. 18, 2004).

Korean Laid-Open Patent No. 2004-0014890 'High Brightness Light Guide Plate of Embossed Pattern for Printing in LCD Display Backlight Device' (published Feb. 18, 2004) forms a convex protrusion having a predetermined horizontal and vertical arrangement on the light guide plate. For example, the height of each protrusion is adjusted, or the density of the protrusions of a certain size is made to uniform the luminance on the light guide plate surface.

However, Korean Patent Laid-Open Publication No. 2004-0014890, 'High Brightness Light Guide Plate of Embossed Pattern for Printing in LCD Display Backlight Device' has a problem of low light use efficiency and low total internal reflection efficiency due to the cone-shaped projection.

In addition, Korean Patent Publication No. 2004-0014890, 'High Brightness Light Guide Plate of Embossed Pattern for Non-Printing in LCD Display Backlight Device', is a simple cone-shaped embossed projection that prevents total reflection of light and prevents light stiffness occurring at the light incident surface side of the light guide plate. There was a limit to prevention.

Korean Laid-Open Patent No. 2004-0014890 'High Brightness Light Guide Plate of Embossed Pattern for Non-Printing in LCD Display Backlight Device' (published Feb. 18, 2004)

An object of the present invention is to provide a light guide plate having a negative pattern to increase the amount of light emitted by maximizing the total internal reflection efficiency in the negative pattern of the lower surface and a backlight unit using the same.

It is another object of the present invention to improve the light stiffness caused by the spacing of the spaced LED light source by scattering the light evenly to the conical pattern groove portion of which part is cut, and having a negative pattern which can improve the brightness of the light. A light guide plate and a backlight unit using the same are provided.

In order to achieve the above object, the light guide plate having the intaglio pattern according to the present invention includes a light guide plate member having a plurality of intaglio patterns spaced apart from the bottom surface and emitting light of a light source introduced from one side thereof.

The intaglio pattern is formed in a circular arc shape having a curvature of the incident surface facing the light source on a plane, characterized in that the shape of the longitudinal cross-section on a straight line passing through the center of the incident surface has a triangular shape.

In the present invention, the incident surface may be formed as an inclined curved surface.

In the present invention, the lower surface of the pattern, which is the lower surface of the intaglio pattern, is a plane coinciding with the lower surface of the light guide plate, and an angle of the incident surface based on the lower surface of the pattern may be 30 ° to 90 °.

In the present invention, the top vertex angle of the engraved pattern may be 70 ° to 125 °.

In the present invention, the incident surface has an upper curve of an arc shape having a curvature on the plane on the top side, and a lower curve of an arc shape having a curvature smaller than the upper curve on the plane on the lower end side, and the lower curve is 30 It may have a radius of curvature of μm to 150 μm.

In the present invention, the depth of the intaglio pattern may be 4 μm to 12 μm.

In the present invention, the incident surface is formed as an inclined curved surface, the lower surface of the pattern which is the lower surface of the intaglio pattern is a plane coinciding with the lower surface of the light guide plate, the angle of the incident surface with respect to the lower surface of the pattern is 30 ° ~ 90 °, the top vertex angle of the intaglio pattern is 70 ° ~ 125 °, the incidence surface is an arc-shaped upper curve having a curvature on the plane on the top side is located, the lower side is smaller than the top curve on the plane An arc-shaped lower curve having a curvature is positioned, the lower curve may have a radius of curvature of 30 μm to 150 μm, and a depth of the engraved pattern may be 4 μm to 12 μm.

In the present invention, the intaglio pattern may be a conical pattern in which a part is cut from the basic cone shape and an inclined surface is formed at one side.

In the present invention, the conical projection may be cut inclined to include a portion including a vertex and a portion of the lower surface in the basic cone.

In the present invention, the conical pattern may be positioned in a direction in which side surfaces of the curved surface face the light incident surface and the inclined surface faces the light incident surface.

In the present invention, the conical pattern may be positioned so that the density gradually increases from the light incident surface side where the light source is located to the other side.

In the present invention, the cut inclined surface may have an inclined surface parallel to the side surface of the basic conical shape is cut and removed.

In the present invention, the basic conical shape is a sharp point, the bottom surface is circular and the shape of the horn shape of the side surface is curved, the inner angle of the vertex is 95 ° ~ 115 °, the diameter of the bottom surface may be 85㎛ ~ 105㎛ .

In the present invention, the basic cone shape may have an inclination angle of 32 ° to 42.5 °.

In the present invention, the height difference between the height of the conical pattern and the basic cone may be 17㎛ ~ 23㎛.

In the present invention, the vertex portion of the conical pattern may be formed of an arc having a curvature of 22㎛ ~ 30㎛.

In the present invention, the vertex angle of the conical pattern may be 70 ~ 115 °.

In the present invention, the inclined surface of the conical pattern may be formed such that a straight line passing through the center crosses a straight line passing through the center of the lower surface to form an intersection point.

In the present invention, the diameter from the center of the lower surface of the conical pattern to the intersection may be 45 μm to 50 μm.

In the present invention, the conical pattern may have a circular shape having a diameter of 90 μm to 100 μm when a circle is drawn following an arc of a lower surface.

One embodiment of the backlight unit according to the present invention for achieving the above object is a light source for emitting light, the light guide plate member for emitting the light of the light source is located on the side and introduced from the side to the upper surface, the A diffusion sheet positioned on an upper side of the light guide plate to diffuse light; And a prism sheet positioned on the diffusion sheet and capable of refracting and condensing light, wherein the light guide plate member is a light guide plate having an intaglio pattern according to the present invention.

The present invention forms an intaglio pattern of the lower surface in an arc shape on a plane and forms a longitudinal cross-sectional shape passing through the center in a triangle to maximize the total internal reflection efficiency, thereby increasing the amount of light emitted and improving the light use efficiency and the backlight unit. This has the effect of raising the luminance.

In addition, the present invention has the effect of improving the light efficiency by increasing the brightness of the light by scattering the light evenly to the portion of the conical pattern groove cut part.

The present invention has the effect of improving the light stiffness caused by the spacing of the LED light source spaced apart by evenly scattering the light to the conical pattern groove portion cut part.

1 is a photograph showing a light stiffness phenomenon in a conventional backlight unit.
Figure 2 is a bottom view showing an embodiment of a light guide plate having an intaglio pattern according to the present invention.
Figure 3 is a longitudinal sectional view showing one embodiment of a light guide plate having an intaglio pattern according to the present invention.
Figure 4 is a perspective view of the intaglio pattern in one embodiment of the light guide plate with the intaglio pattern according to the present invention.
5 is a cross-sectional view showing an embodiment of a backlight unit according to the present invention.
6 is a plan view for confirming the point where the luminance is measured during the luminance measurement test of the embodiment and the comparative example of the backlight unit according to the present invention.
Figure 7 is a bottom view showing another embodiment of a light guide plate having an intaglio pattern according to the present invention.
8 is a longitudinal sectional view showing another embodiment of the light guide plate having the intaglio pattern according to the present invention;
9 is a perspective view illustrating an intaglio pattern in another embodiment of the light guide plate having the intaglio pattern according to the present invention;
FIG. 10 is an enlarged plan view of a portion A of FIG. 9B. FIG.
11 is a sectional view showing another embodiment of a backlight unit according to the present invention;
12 is a photograph showing a light stiffness phenomenon of the first embodiment of the backlight unit according to the present invention.
Figure 13 is a photograph showing the light stiffness phenomenon of the second embodiment of the backlight unit in the present invention.

The present invention is explained in more detail.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention. Prior to the detailed description of the invention, the terms or words used in the specification and claims described below should not be construed as limiting in their usual or dictionary meanings. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

2 is a bottom view showing an embodiment of a light guide plate having an intaglio pattern according to the present invention, FIG. 3 is a longitudinal cross-sectional view of an embodiment of the light guide plate having an intaglio pattern according to the present invention, FIG. Is a perspective view showing an intaglio pattern in an embodiment of a light guide plate having an intaglio pattern according to the present invention.

An embodiment of a light guide plate having an intaglio pattern according to the present invention will be described in detail with reference to FIGS. 2 to 4.

The light guide plate having the intaglio pattern according to the present invention includes a light guide plate member 100 which emits light of a light source introduced from one side to an upper surface and has a plurality of intaglio patterns 110 spaced apart from the bottom surface.

Another embodiment of the light guide plate having the intaglio pattern according to the present invention is found to be a light guide plate member for emitting the light of the light source introduced from the side to the upper surface.

That is, the light guide plate member 100 is a polymethyl methacrylate (PMMA) or a PC (polycarbonate) that changes the path of light from a line or point light source consisting of a cold cathode fluorescent lamp (CCFL) or a light emitting diode (LED) light source to a surface light source. ), An optical component made of transparent synthetic resin such as methyl methacrylate-co-styrene (MS).

The light guide plate member 100 is that one side is a light incident surface to receive the light of the light source, the upper surface is located in a direction perpendicular to the one side, that is, a light exiting surface to the light emitted from the light incident surface is emitted Yes.

The intaglio pattern 110 is formed in an arc shape having a curvature of the incident surface 101 facing the light source on the plane, that is, the incident surface 101 facing the light source.

That is, the incident surface 101 is formed as a curved surface inclined in the vertical direction.

In addition, the intaglio pattern 110 has a triangular shape of a longitudinal section on a straight line passing through the center of the incident surface 101.

The intaglio pattern 110 minimizes luminance loss by varying only the light path according to the pattern shape, and maximizes the refraction of light by varying the light receiving angles in the x, y, and z-axis directions.

The light guide plate having the intaglio pattern according to the present invention is formed in a circular arc shape having the curvature of the incidence pattern 110 facing the light source on a plane, and is a longitudinal section on a straight line passing through the center of the incidence surface 101. In addition to having a triangular shape, the incident surface angle θ ₁ , the top vertex angle θ ₂ , and the curvature of the incident surface 101 on the plane based on the plane of the light guide plate member 100 that is planar in the triangle of the longitudinal section. By limiting this, only the light path is varied to minimize the luminance loss, and the light receiving angles in the x, y, and z-axis directions are varied to maximize the refraction of light.

The incident surface 101 is located at an inclined position and an arc-shaped upper curve 101b having a curvature on the plane is located on the upper end side, and an arc-shaped lower curve having a curvature smaller than the upper curve 101b on the plane on the lower end side ( 101a) is located.

Since the intaglio pattern 110 passes through the center of the incident surface 101 and has a triangular shape in a longitudinal section on a straight line that matches the incident direction of the light source, the incident surface 101 forms a slope of a straight line in the longitudinal section.

In addition, the intaglio pattern 110 has an intaglio, i.e., a groove shape that is open toward the bottom side of the lower surface of the light guide plate member 100, and is shown in three dimensions of the light guide plate having the intaglio pattern according to the present invention. In one embodiment it is noted that the intaglio pattern 110 is a perspective view.

In addition, the intaglio pattern 110 has a semicircular shape on a plane including an inclined plane of a plane connected to an open lower surface and an incidence surface of an inclined curved surface, and a longitudinal section passing through the center forms a triangular shape.

The lower side of the intaglio pattern 110, that is, the lower side of the triangle in the longitudinal section is a plane coinciding with the bottom surface of the light guide plate, that is, the plane of the light guide plate member based on the pattern bottom surface 103 of the intaglio pattern 110 ( An incident plane angle θ ₁ based on the bottom surface of 100) is an example of 30 ° to 90 °.

The upper vertex angle θ ₂ of the intaglio pattern 110 is 70 ° to 125 °, and the lower curve 101a on the plane located at the lower end side of the incident surface 101 has a curvature radius of 30 μm to 150 μm. For example, having a.

The cathode pattern 110 has an incident surface angle θ ₁ of 30 ° to 90 °, a vertex angle θ ₂ of 70 ° to 125 °, and an incident surface angle θ ₁ of an opposite side, that is, an intaglio pattern 110. For example, the angle greater than the angle between the lower surface of the plane and the inclined plane of the plane.

In addition, the depth, that is, the height of the intaglio pattern 110 may be 4 μm to 12 μm.

For example, the upper vertex angle θ ₂ of the intaglio pattern 110 is an angle between the incident surface 101 and the pattern inclined surface 102 meeting at the incident surface 101 and the upper vertex.

Table 1 below compares the amount of light output with Comparative Example 1 when the incident surface angle θ ₁ of the intaglio pattern 110 is 30 °, 40 °, 50 °, and 60 ° in the light guide plate having the intaglio pattern according to the present invention. The test results are shown.

In the following Table 1, the longitudinal light output is the light output measured in the light exit angle range of 0 ° to 43 ° based on the light exit surface of the light guide plate member 100, that is, the direction toward the light source from the upper surface, The direction light output amount is determined as the light output amount measured within a light exit angle range of 25 ° to 75 ° based on the light exit surface of the light guide plate member 100, that is, the direction perpendicular to the direction toward the light source from the upper surface.

In addition, Comparative Example 1 below is a conventional light guide plate having a plurality of hemispherical embossed patterns, based on the longitudinal light output of the conventional light guide plate, that is, the light exit surface of the light guide plate member 100, that is, the direction toward the light source from the upper surface The light output is measured in the light emission angle range 0 ° to 43 °, and the horizontal light output is based on the light exit surface of the conventional LGP, that is, the direction from the upper surface toward the light source, that is, the direction perpendicular to the incident direction. Note that the output is measured within a range of 25 ° to 75 °.

Comparative Example 1 Incident face angle 30 ° Incident surface angle 40 ° Incident surface angle 50 ° Incident surface angle 60 ° Vertical Output Amount (cd) 498 94 594 580 793 Horizontal output amount (cd) 212 70 297 258 190

If surface joining, as identified in Table 1 where the angle (θ ₁₎ is 30 ° if the incident difficult to obtain a sufficient output light intensity angle (θ ₁₎ is preferably not less than 35 °, and the larger the incident surface angle (θ ₁₎ If the incident surface 101 has an angle of 60 ° or more, the output amount in the vertical direction increases, and the output amount in the horizontal direction, that is, the light output based on the direction perpendicular to the incidence direction is sharply lowered, causing problems in the uniformity of light. do.

Thus, the incident surface angle θ ₁ is an example of 30 ° to 90 °.

In addition, Table 2 below is a comparative example when the top vertex angle (θ ₂ ) of the intaglio pattern 110 is 80 °, 90 °, 100 °, 110 ° while fixing the incident surface angle (θ ₁ ) to 40 ° The test result which compared 1 and the light output amount is shown.

Comparative Example 1 Vertex angle 80 ° Vertex angle 90 ° Vertex Angle 100 ° Vertex angle 110 ° Vertical Output Amount (cd) 498 526 580 691 899 Horizontal output amount (cd) 212 276 286 297 271

As can be seen in Table 2, it can be seen that the amount of light is significantly higher than that of Comparative Example 1 in the upper vertex angle (θ ₂ ) range 90 ° to 110 ° of the intaglio pattern 110, and the upper vertex angle (θ ₂ ) is 110. When it exceeds °, the light output amount in the horizontal direction, that is, the light output amount based on the direction perpendicular to the incident direction is sharply lowered, which causes a problem in the uniformity of light.

Accordingly, the upper vertex angle θ ₂ of the intaglio pattern 110 is 70 ° to 125 ° as an example.

Table 3 below shows the incident surface angle θ ₁ at 40 ° and the top vertex angle θ ₂ of the intaglio pattern 110 at 100 °. When the lower curve 101a on the plane to be located has a radius of curvature of 50 μm, 75 μm, and 100 μm, a test result in which Comparative Example 1 is compared with the amount of light output is shown.

The total light amount in Table 3 below indicates that the total light amount emitted to the upper surface of the light guide plate member, that is, the light exit surface of the light guide plate member 100.

Curvature radius 50㎛ Curvature radius 75㎛ Curvature radius 100㎛ Total amount of light (cd) 9418 10621 12312

As can be seen from Table 3, it can be seen that as the curvature radius of the lower curve 101a on the plane located on the lower end side of the incident surface increases, the amount of light emitted from the light exit surface of the light guide plate member 100 increases.

However, when the radius of curvature of the intaglio pattern 110 exceeds 150 μm, the intaglio pattern 110 may be visually recognized on the screen of the backlight unit.

The visibility of the intaglio pattern 110 may be determined according to the structure of the backlight unit, the matching structure, and the characteristics of individual products. However, when the radius of curvature of the intaglio pattern 110 exceeds 150 μm, the intaglio pattern 110 is displayed on the screen of the backlight unit. This can be seen, the upper curve 101b of the intaglio pattern 110 has a radius of curvature larger than the lower curve 101a, so the lower curve 101a of the intaglio pattern 110 has a curvature of 30 μm to 150 μm or less. It is preferable to have.

Meanwhile, FIG. 5 is a cross-sectional view showing an embodiment of the backlight unit according to the present invention. Referring to FIG. 5, an embodiment of the backlight unit according to the present invention will be described with reference to FIG. A light source for emitting a light source, the light source is located on the side of the light guide plate member 100 for emitting the light of the light source introduced from the side, the diffusion sheet 200 is located on the upper side of the light guide plate member 100 to diffuse the light And a prism sheet 300 positioned on the diffusion sheet 200 and capable of refracting and condensing light.

The reflective plate member may be positioned on the lower surface of the light guide plate member 100.

A plurality of intaglio patterns 110 spaced apart from each other are disposed on the lower surface of the light guide plate member 100, and the intaglio patterns 110 are formed in an arc shape having a curvature of the incident surface facing the light source on a plane.

In addition, the intaglio pattern 110 has a triangular shape of a longitudinal section on a straight line passing through the center of the incident surface.

The light guide plate member 100 is positioned so that the incidence surface of the curved surface faces the light source, so that the incidence surface of the curved surface is perpendicular to one side of the light guide plate facing the light source, that is, the light incident surface.

Note that the embodiment of the intaglio pattern 110 overlaps with and is omitted from the embodiment of another embodiment of the light guide plate having the intaglio pattern according to the present invention mentioned above.

The light source may be a cold cathode fluorescent lamp (CCFL) or a light emitting diode (LED) light source as an example, and the light source may be variously modified to a light source used in a known backlight unit.

In addition, the prism sheet 300 may include a first prism sheet portion 310 and a second prism sheet portion 320 positioned on an upper side of the first prism sheet portion 310.

The first prism sheet part 310 may be positioned with a plurality of first prism parts protruding from the upper surface of the substrate, and the second prism sheet part 320 may be in a different direction from the first prism portion on the upper surface of the substrate. The plurality of second prism parts protruding from each other may protrude.

As an example, the first prism portion is positioned to be spaced apart in the X-axis direction, and the second prism portion is positioned to be spaced apart in the Y-axis direction.

It should be noted that the prism sheet 300 may be embodied in various modifications to a known prism sheet structure.

The diffusion sheet 200 is disposed between the light guide plate 100 and the prism sheet 300 and stacked on the lower diffusion sheet 210 and the prism sheet 300 to diffuse light, and the upper diffusion sheet 220 to diffuse light. It may include.

In the following Examples 1 to 3 of the present invention and the test to analyze the brightness of Comparative Example 2 was performed, the results are shown in Table 4 below.

Example 1 to Example 3 below is a backlight unit to which a light guide plate having an intaglio pattern having an intaglio pattern 110 according to the present invention is applied, and Comparative Example 2 below is Comparative Example 1 used in Table 1 and Table 2 Note that the light guide plate is applied, that is, the hemispherical embossed pattern is a backlight unit to which the conventional light guide plate is positioned a plurality of spaced apart.

In addition, the light source, the diffusion sheet, the prism sheet, and the reflecting plate except for the light guide plate in the backlight units of Examples 1 to 3 and the backlight unit of Comparative Example are similarly applied.

FIG. 6 is a plan view illustrating a point at which luminance is measured during a luminance measurement test of an example and a comparative example of a backlight unit according to the present invention, and it is apparent that the luminance measurement point may be identified in Table 4 below.

Comparative Example 2 Example 1 Example 2 Example 3 1-point luminance value 6176 6075 6080 5609 2-point luminance value 6172 7348 7165 7357 3-point luminance value 6384 7220 7517 7430 4-point luminance value 6492 6942 7245 7420 5-point luminance value 5948 5508 5766 5753 6-point luminance value 5247 8310 8265 8376 7-point luminance value 7126 8789 8820 8991 8-point luminance value 7344 8383 8422 8510 9-point luminance value 7459 8831 8541 8706 10-point luminance value 5977 7993 8029 8115 11-point luminance value 5141 8494 8440 8595 12-point luminance value 7066 8973 8725 8395 13-point luminance value 7359 8623 8425 8279 14-point luminance value 7434 8781 8301 8541 15-point luminance value 6071 8546 8173 8122 16-point luminance value 5462 7516 7527 7418 17-point luminance value 6413 7355 7200 7363 18-point luminance value 6674 8052 7768 7766 19 point luminance value 7014 7535 7556 7252 20-point luminance value 5530 7247 6902 6762 21-point luminance value 5092 6534 6810 6489 22-point luminance value 5698 6495 6648 6510 23 point luminance value 5780 5895 5991 5862 24 points luminance value 6062 5815 6074 6209 25-point luminance value 5878 6221 6002 5858 Average luminance value from 1 to 25 points 6456 7443
1 to 25 points
Uniformity 65% 61%

As shown in Table 4, the backlight units of Examples 1 to 3 of the present invention have a luminance value, that is, when compared with Comparative Example 2 of the present invention, that is, when compared with the backlight unit of Comparative Example 2 to which a conventional LGP is applied. It was confirmed that the light amount of the backlight unit of Examples 1 to 3 increased by 13% than the light amount of the comparative example.

That is, the present invention maximizes the total internal reflection efficiency by increasing the amount of light emitted by forming the intaglio pattern 110 of the lower surface in an arc-shaped incidence plane on the plane and the longitudinal cross-sectional shape passing through the center in a triangle to increase the amount of light emitted. Improve the brightness and increase the brightness of the backlight unit.

On the other hand, Figure 7 is a bottom view showing another embodiment of a light guide plate having an intaglio pattern according to the present invention, Figure 8 is a longitudinal sectional view showing another embodiment of the light guide plate having an intaglio pattern according to the present invention, 9 is a perspective view showing another embodiment of the intaglio pattern 110 in another embodiment of the light guide plate having the intaglio pattern according to the present invention, and FIG. 10 is an enlarged plan view of a portion A in FIG. 9B. .

Another embodiment of the light guide plate having the intaglio pattern according to the present invention will be described in detail with reference to FIGS. 7 to 10.

In another embodiment of the light guide plate having the intaglio pattern according to the present invention, the intaglio pattern 110 positioned on the bottom surface of the light guide plate member 100 is partially cut from the basic conical shape 10 so that the inclined surface 110b is formed at one side thereof. It may be a conical pattern.

Basic conical shape (10) is the shape of the horns with a sharp vertex, the bottom surface is circular and the side surface is curved, the inner angle of the vertex is 95 ° ~ 115 ° (α), the diameter of the bottom surface is 85㎛ ~ 105㎛ ( D ₁ ) as an example.

In addition, in the basic cone 10, the inclination angle of the side surface, that is, the inclination angle of the side surface relative to the lower surface is an example that is 32 ° ~ 42.5 ° (β).

The conical pattern is an example in which the portion having the inclined surface 110b on one side is inclined by cutting the part including the vertex in the basic conical shape 10 to be inclined.

The conical protrusion is an example of a conical shape in which the part having the inclined surface 110b on one side is inclinedly cut to include a part including a vertex and a part of the lower surface in the basic conical shape 10.

Figure 9 (a) is a view showing a basic conical shape 10, Figure 9 (b) is a three-dimensional conical pattern in the present invention cut the hatched portion of the basic conical shape (a) of Figure 9 (a). It is a figure shown in figure.

In addition, the height difference (H ₁ ) of the vertex of the conical pattern and the basic conical shape 10 is an example that is 17㎛ ~ 23㎛.

In addition, as an example, the vertex portion of the conical pattern is formed by an arc having a curvature R ₁ of 22 μm to 30 μm.

In addition, the vertex angle of the conical pattern may be 75 ° ~ 115 °.

In addition, the inclined surface 110b of the conical pattern is an example in which a straight line passing through the center crosses a straight line passing through the center of the lower surface.

In the basic cone 10, the angle of inclination of the side surface, that is, the angle of inclination of the side surface relative to the bottom surface, that is, the angle β of the light incident surface in the conical pattern is an example of 35 ° to 60 °. For example, the pattern has a circular shape having a diameter of 40 μm to 130 μm when a circle is drawn following an arc of a lower surface.

A plurality of conical patterns are formed on the lower surface of the light guide plate member 100, and the conical patterns are positioned such that the density gradually increases from the light incident surface where the light source is located to the other side.

That is, the number of conical patterns is gradually increased from one side where the light incident surface is located on the lower surface of the light guide plate member 100 to the other side.

This decreases the amount of light as the light source is located farther away from the light incident surface on which the light source is located, so that the density of the conical pattern is gradually increased as it moves away from the light incident surface, so that light is evenly distributed on the front surface of the light guide plate member 100.

Further, in the conical pattern, the side surface of the curved surface 110a faces the light incident surface, and the inclined surface 110b is positioned in a direction opposite to the light incident surface, that is, the opposite side of the light incident surface.

When the inclined surface 110b is located on the light incident surface side, it is confirmed that the luminance increase effect and the light stiffness phenomenon on the light incident surface side are not improved compared to the conventional dot-shaped pattern, which will be described in more detail below.

Another embodiment of the light guide plate having the intaglio pattern according to the present invention is an example that is manufactured by rolling stamped by the stamp of the electric pole protruding conical projection of the cut shape corresponding to the conical pattern.

Although the conical protrusions are not separately illustrated, the conical protrusions may be formed in the same shape as that of FIG. 4, which illustrates the conical pattern as a three-dimensional figure.

In other words, the conical projection is an example in which the part having the inclined surface 110b on one side is inclined by cutting the part including the vertex in the basic conical shape 10 to be inclined.

The basic conical shape 10 is an horn-shaped shape having a sharp vertex, a rounded bottom surface, and a curved side surface, the inner angle of the vertex is 95 ° to 115 °, and the diameter of the bottom surface is 40 μm to 130 μm. do.

In addition, it is assumed that the inclination angle of the side surface of the basic cone 10, that is, the inclination angle of the side surface relative to the bottom surface, that is, the angle β of the light incident surface in the conical pattern is 35 ° to 60 °.

In addition, the conical projection is an example in which the conical shape is cut inclined so as to include a portion including a vertex and a portion of the lower surface in the basic conical shape 10, the part having an inclined surface (110b) on one side.

In addition, the height difference between the vertex of the conical projection and the basic conical shape 10 is an example that is 17㎛ ~ 23㎛.

In addition, the vertex portion of the conical projection is an example that is formed of an arc having a curvature of 22㎛ ~ 30㎛.

In addition, the vertex angle of the conical projection may be 70 ~ 115 °.

In addition, the inclined surface 110b of the conical protrusion is an example in which a straight line passing through the center crosses a straight line passing through the center of the lower surface to form an intersection point.

In addition, the conical protrusion is a circular shape having a diameter of 40 μm to 130 μm, ie, the curvature of the curved portion of the lower surface is 40 μm to 130 μm as an example when a circle is drawn following a circular arc of the bottom face.

The electric pole stamp with a large number of conical protrusions is wound on a stamping roll, and the light guide plate member 100 according to the present invention is a transparent synthetic resin such as polymethyl methacrylate (PMMA), polycarbonate (PC), and methyl methacrylate-co-styrene (MS). For example, it is manufactured by a roll stamping to form a plurality of conical patterns on the optical panel body by pressing the pole stamp while rotating the stamping roll while transferring the optical panel body manufactured by the transfer conveyor.

Jeonju stamp is designed after the conical pattern is a plurality of conical patterns to be produced in a protruding form it will be found that can be variously manufactured through the process of manufacturing a known embossed stamp.

That is, a roll stamping using a stamping roll on which a pole stamp with an embossed conical protrusion protrudes is formed on the lower surface of the light guide plate member 100 to form an intaglio conical pattern corresponding to an embossed conical protrusion.

Meanwhile, FIG. 11 is a cross-sectional view illustrating another embodiment of the backlight unit according to the present invention. Referring to FIG. 11, another embodiment of the backlight unit according to the present invention includes an intaglio pattern 110 positioned on a bottom surface of the light guide plate. A portion of the basic cone 10 is cut to form a conical pattern in which an inclined surface 110b is formed at one side.

The conical pattern is a conical shape in which a part including a vertex is inclinedly cut from the basic conical shape 10 and a part is cut off with a plane inclined surface 110b on one side, and the curved surface 110a of the side surface is positioned toward the light source and the inclined surface 110b. It is located in the vertical direction opposite to this light source.

That is, the light guide plate member 100 is located in the direction perpendicular to the light incident surface on which the curved surface 110a of the conical pattern is located, and the center of the inclined surface 110b positioned on the opposite side is also located in the direction perpendicular to the light incident surface. do.

Note that the embodiment of the conical pattern overlaps with the embodiment of the light guide plate having the intaglio pattern according to the present invention mentioned above and is omitted.

In the following, the test for analyzing the brightness of Example 4 and Example 5, Comparative Examples 3 to 6 of the present invention was performed, and the results are shown in Table 5 below.

6 is a plan view for confirming the point where the luminance is measured during the luminance measurement test of Example 4 and Example 5 and Comparative Examples 3 to 6 of the backlight unit according to the present invention.

Example 4 and Example 5 of the backlight unit according to the present invention is the same as the light guide plate having the intaglio pattern according to the present invention having the same conical pattern, in addition to the same light source, the same diffusion sheet 200, the same prism sheet Note that (300) is applied.

The fourth embodiment is an example in which a known ESR reflector is applied to the reflector plate member 100a positioned below the light guide plate member 100. The fifth embodiment is known as the reflector plate member 100a positioned below the light guide plate member 100. This is an example of applying the white reflector.

In the conical pattern applied to the light guide plate member 100 of Examples 4 and 5, the basic conical shape 10 has a corner angle of 105 °, a lower diameter of 94 µm, and an inclined angle of side surfaces of 37.5 °. The conical pattern applied to the light guide plate member 100 of Examples 4 and 5 includes a portion including a vertex of the basic cone shape 10 and a portion of the bottom surface, and is cut side by side with the side surface of the basic cone shape 10. It has a height 20㎛ lower than the height of the cone 10, the vertex portion is made of a circular arc having a curvature of 26㎛, the curvature of the curved portion of the lower surface is a straight line passing through the center and a straight line passing through the center of the slope 110b For example, the diameter to the point of intersection with the straight bottom surface D _{2 that} meets the center of the inclined surface 110b through the center of the lower surface is 70 μm.

In addition, in the conical pattern applied to the light guide plate member 100 of the fourth embodiment and the fifth embodiment, the curved surface 110a faces the light incident surface where the light source is located, and the inclined surface 110b faces the light incident surface. It is located on the opposite side of the light incident surface. More specifically, the conical pattern is located in the direction perpendicular to the light incident surface on which the center of the curved surface 110a is located, and the center of the inclined surface 110b positioned on the opposite side is also located in the direction perpendicular to the light incident surface.

That is, the light of the light source is irradiated to be incident in a direction perpendicular to the curved surface 110a toward the curved surface 110a which is circular in the conical pattern.

In addition, the backlight unit of Comparative Example 3 and Comparative Example 4 is applied a known comparative light guide plate formed with a plurality of domed grooves, that is, hemispherical dot-shaped grooves, the same light source as the fourth and fifth embodiments, the diffusion sheet 200, The prism sheet 300 is applied.

Comparative Example 3 is an example in which a known ESR reflector is applied to the reflecting plate member 100a positioned under the light guide plate, and Comparative Example 2 is an example in which a known white reflector is applied to the reflecting plate member 100a positioned below the comparative light guide plate. Reveal.

In addition, Comparative Example 5 is an example in which the inclined surface 110b of the side surface of the conical pattern in the light guide plate member 100 faces the light incident surface on which the light source is located, and the curved surface 110a is located on the opposite side in the light guide plate member 100. , Comparative Example 6 is an example in which the inclined surface 110b of the side surface of the conical pattern in the light guide plate member 100 faces the light incident surface on which the light source is located, and the curved surface 110a is located on the opposite side in the light guide plate member 100.

That is, the conical pattern of Comparative Example 5 and Comparative Example 6 is a conical pattern formed in the same shape as in Example 4 and Example 5, the arrangement direction is opposite, that is, the inclined surface (110b) of the side surface of the conical pattern is the light source It is an example in which the curved surface 110a faces the light incident surface to be located oppositely.

Example 4 Example 5 Comparative Example 3 Comparative Example 4 Comparative Example 5 Comparative Example 6 1-point luminance value 5332 5154 5110 5981 5481 5270 2-point luminance value 5929 5398 6359 6717 5595 5475 3-point luminance value 6038 6140 6164 6148 5967 5970 4-point luminance value 6104 6172 6430 5945 6034 5871 5-point luminance value 5307 5569 5495 5220 5111 5420 6-point luminance value 7549 7388 5947 6092 7725 6667 7-point luminance value 7561 7342 6706 6535 7625 6606 8-point luminance value 7747 7473 7059 6832 7488 6879 9-point luminance value 8023 7779 6970 6750 7301 7060 10-point luminance value 7413 7280 6357 6019 6214 6789 11-point luminance value 7307 7111 5856 6426 7129 6683 12-point luminance value 7733 7342 6962 6715 7531 6789 13-point luminance value 9012 7409 7488 6968 7427 6810 14-point luminance value 7757 7557 7177 7069 7114 6904 15-point luminance value 6884 6806 6686 6192 6362 6502 16-point luminance value 6666 6530 5364 5860 6317 6419 17-point luminance value 7093 6786 6454 6112 6596 6360 18-point luminance value 7410 6910 7223 6519 6720 6294 19 point luminance value 6719 6877 6642 6409 5827 6294 20-point luminance value 6219 6330 6499 6086 5352 5882 21-point luminance value 6374 5420 4845 5664 5820 5735 22-point luminance value 6130 6243 5702 5610 5286 5435 23 point luminance value 6410 6101 5857 5622 5500 5480 24 points luminance value 5902 6474 6094 5562 4959 5774 25-point luminance value 5210 5843 5697 5238 4453 5603 13 points (center point) luminance value 9012 7409 7488 6968 7427 6810 Average luminance value 6793 6617 6286 6172 6277 6199 Uniformity 58% 66% 65% 74% 58% 75%

When the same reflector plate member 100a is used as shown in Table 5, and the comparative example 3 and the comparative example 3 of the present invention having the same conditions other than the light guide plate are compared, the average luminance value for the points 1 to 25 of the comparative example 3 is 100%. As a reference, it can be seen that the average luminance value of 1 to 25 points of Example 4 is 108.1%. That is, it can be confirmed that Example 4 of the present invention has a luminance value about 8% higher than that of Comparative Example 1. In addition, when using the same reflecting plate member 100a and comparing Example 5 and Comparative Example 4 of the present invention in which conditions other than the light guide plate are the same, it is carried out when the average luminance value for the points 1 to 25 of Comparative Example 4 is based on 100%. It can be seen that the average luminance value of the points 1 to 25 of Example 5 is 107.2%. That is, it can be confirmed that Example 5 of the present invention has a luminance value about 7% higher than that of Comparative Example 2.

On the other hand, the same conditions as in Example 4 of the present invention, except that only the direction of the conical pattern is opposite, that is, when compared to Comparative Example 5 and Comparative Example 3 in which the inclined surface 110b is disposed to the light source side 1 to 25 of Comparative Example When the average luminance value for the point is 100%, the average luminance value for the points 1 to 25 of Comparative Example 5 is 99.9%, and it can be seen that the luminance value is not different from that of Comparative Example 1.

In addition, the same conditions as in Example 5 of the present invention, except that only the direction of the conical pattern is opposite, that is, compared to Comparative Example 6 and Comparative Example 4 in which the inclined surface 110b is disposed toward the light source side, 1 to 25 points of Comparative Example 3 When the average luminance value with respect to 100% as a reference, the average luminance value for the points 1 to 25 of Comparative Example 6 is 99.9%, it can be seen that the luminance value does not differ from Comparative Example 4.

That is, in the light guide plate having the intaglio pattern according to the present invention, the conical pattern is positioned such that the curved surface 110a faces the light source, and the inclined surface 110b is located on the opposite side, so that light of the light source is primarily irradiated onto the curved surface 110a. It can be seen that it is very important to be located as much as possible.

FIG. 12 is a photograph showing an example in which the light stiffness phenomenon by the LED light source is improved in Example 4, and FIG. 13 is a photograph showing an example in which the light stiffness phenomenon by the LED light source is improved in Example 5. FIG.

That is, Figure 1 is a photograph of the light stiffness phenomenon by the LED light source in Comparative Example 1 of the present invention, when compared to Figure 1 and Figure 12, Figure 1 and Figure 13 of the present invention LED 4 and Example 5 It was confirmed that the light stiffness caused by the light source was greatly improved, so that lines separated by the LED light source were hardly displayed.

The present invention has the effect of improving the light efficiency by increasing the brightness of the light by scattering the light evenly to the portion of the conical pattern groove cut part.

The present invention has the effect of improving the light stiffness caused by the spacing of the LED light source spaced apart by evenly scattering the light to the conical pattern groove portion cut part.

The present invention is not limited to the above-described embodiments, and various changes can be made without departing from the gist of the present invention, which is understood to be included in the configuration of the present invention.

10: basic cone shape 100: light guide plate
100a: reflecting plate member 101: incident surface
101a: lower curve 101b: upper curve
102: pattern inclined surface 103: pattern lower surface
110: engraved pattern
110a: curved surface 110b: inclined surface
200: diffusion sheet 210: lower diffusion sheet
220: upper diffusion sheet 300: prism sheet
310: first prism sheet portion 320: second prism sheet portion

Claims (19)

It includes a light guide plate member which emits the light of the light source introduced from one side to the upper surface and a plurality of intaglio patterns spaced apart from the lower surface,
The intaglio pattern has a light guide plate having a concave pattern, characterized in that the incidence surface toward the light source on the plane is formed in an arc shape having a curvature, the longitudinal cross-section has a triangular shape on a straight line passing through the center of the incidence surface.
The method according to claim 1,
The incident surface is a light guide plate having an intaglio pattern, characterized in that formed in the inclined curved surface.
The method according to claim 1,
The lower surface of the pattern, which is the lower surface of the intaglio pattern, is a plane coinciding with the lower surface of the light guide plate, and an angle of incidence surface based on the lower surface of the pattern is 30 ° to 90 °. .
The method according to claim 1,
A light guide plate having an intaglio pattern, characterized in that the top vertex angle of the intaglio pattern is 70 ° ~ 125 °.
The method according to claim 1,
The incidence plane is located on the upper end side of the arc-shaped upper curve having a curvature on the plane, the lower side of the arc-shaped lower curve having a curvature smaller than the upper curve is located on the plane,
The lower curve is a light guide plate having an intaglio pattern, characterized in that the curvature radius of 30㎛ ~ 150㎛.

The method according to claim 1,
The light guide plate having the intaglio pattern, characterized in that the depth of the intaglio pattern is 4㎛ ~ 12㎛.
The method according to claim 1,
The incident surface is formed of an inclined curved surface,
The lower surface of the pattern, which is the lower surface of the intaglio pattern, is a plane coinciding with the lower surface of the light guide plate, and the angle of incidence surface based on the lower surface of the pattern is 30 ° to 90 °,
The top vertex angle of the engraved pattern is 70 ° to 125 °,
The incidence plane is located on the upper end side of the arc-shaped upper curve having a curvature on the plane, the lower side of the arc-shaped lower curve having a curvature smaller than the upper curve is located on the plane,
The lower curve has a radius of curvature of 30 μm to 150 μm, and the depth of the engraved pattern is 4 μm to 12 μm.
The method according to claim 1,
The intaglio pattern is a light guide plate having an intaglio pattern, characterized in that the conical pattern is formed by cutting a portion from the basic conical inclined surface on one side.
The method according to claim 8,
And the conical protrusion is inclinedly cut to include a portion including a vertex and a portion of a lower surface in the basic cone.
The method according to claim 8,
The conical pattern is a light guide plate having an intaglio pattern, characterized in that the side of the curved surface facing the light incident surface, the inclined surface is located in a direction opposite to the light incident surface.
The method according to claim 8,
The conical pattern is a light guide plate having an intaglio pattern, characterized in that the density is gradually increased from the light incident surface side where the light source is located to the other side.
The method according to claim 9,
The cut slope is a light guide plate having an intaglio pattern, characterized in that it has an inclined surface parallel to the side surface of the basic conical shape is cut and removed.
The method according to claim 9,
The basic conical shape is a horn shape having a sharp point of the vertex, the bottom surface is circular and the side surface is curved, the inner angle of the vertex is 95 ° ~ 115 °, the intaglio characterized in that the diameter of the bottom surface is 40㎛ ~ 130㎛ Light guide plate with a pattern.
The method according to claim 9,
The basic cone is a light guide plate having an intaglio pattern, characterized in that the inclination angle of the side is 32 ° ~ 42.5 °.
The method according to claim 9,
The height difference between the height of the conical pattern and the basic cone is a light guide plate having an intaglio pattern, characterized in that 17㎛ ~ 23㎛.
The method according to claim 9,
The vertex portion of the conical pattern is a light guide plate having an intaglio pattern, characterized in that formed in a circular arc having a curvature of 22㎛ ~ 30㎛.
The method according to claim 9,
The light guide plate having the intaglio pattern, characterized in that the corner angle of the conical pattern is 70 ~ 115 °.
The method according to claim 9,
A light guide plate having a concave pattern, wherein the light incident surface angle of the conical pattern is 35 ° to 60 °, and the curvature of the curved portion of the lower surface is 40 μm to 130 μm.
A light source emitting light;
A light guide plate member positioned at a side of the light source and emitting light of the light source introduced from the side to an upper surface thereof;
A diffusion sheet positioned on an upper side of the light guide plate to diffuse light; And
A prism sheet positioned on the diffusion sheet and capable of refracting and condensing light,
The light guide plate member is a backlight unit, characterized in that the light guide plate member of any one of claims 1 to 18.

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