KR102283108B1 - Light guide plate structure of double layer and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a dual light guide plate structure and a manufacturing method thereof. According to the present invention, the dual light guide plate structure comprises a first light guide plate member in which a plurality of first straight line grooves are spaced apart from each other and a second light guide plate member laminated on the first light guide plate member, in which a plurality of second straight line grooves intersecting the first straight line groove portions are spaced apart from each other. Accordingly, light from a light source disposed on a side can be evenly emitted to the front surface by using a light guide plate instead of a light diffuser plate, thereby reducing manufacturing cost and securing economic efficiency. Since a transparent light guide plate is used instead of an opaque light diffuser plate, the light from the light source disposed on a side can be evenly emitted to the front surface, so that various advertisement effects can be generated with letters or patterns when applied to LED billboards, thereby increasing effectiveness of advertisement. In addition, the dual light guide plate can be widely applied to various products using LED lighting devices, thereby increasing versatility of a planar light emitting device.

Description

Double light guide plate structure and manufacturing method thereof

The present invention relates to a double light guide plate structure and a backlight unit using the same, and to a double light guide plate structure in which a light guide plate is double stacked to replace a diffusion sheet, and a method for manufacturing the same.

In general, a light guide plate receives light from a light source located on the side and evenly emits light to the front, and is mainly used in liquid crystal display devices.

In addition, in recent years, the light guide plate is being applied to the LED lighting device for the purpose of receiving light from the LED light source on the side and emitting light to the front due to the increase in demand for the LED lighting device.

In addition, the light guide plate is being applied to an advertisement board using an LED lighting device, and the demand for the light guide plate is gradually increasing.

Liquid crystal display devices, LED lighting devices, etc. are configured to evenly emit light from a light source in a plane using a light guide plate structure in which a light guide plate is positioned on a reflective film and a light diffusion plate is positioned on the light guide plate.

However, the conventional light guide plate structure has a problem in that the manufacturing cost is high due to the laminated structure of the light guide plate and the light diffusion plate.

In addition, since the light diffusion plate in the conventional light guide plate structure is made of an opaque material, when the conventional light guide plate structure is applied to an advertisement board using an LED lighting device, even if letters or patterns are printed on the lower part of the light guide plate, it is displayed on the front surface of the light guide plate structure. There was a problem that the advertising effect was limited because it could not be confirmed.

Korean Patent Laid-Open No. 2004-0014890, 'High-brightness light guide plate with embossed pattern for non-printing in LCD display backlight device' (published on February 18, 2004)

It is an object of the present invention to provide a dual light guide plate structure capable of evenly emitting light from a side light source to the front using a light guide plate instead of a light diffusion plate, and a method for manufacturing the same.

Another object of the present invention is to use a light guide plate made of a transparent material instead of a light diffusion plate made of an opaque material to evenly emit light from the light source on the side to the front. To provide a double light guide plate structure and a method for manufacturing the same.

In order to achieve the above object, an embodiment of a dual light guide plate structure according to the present invention includes a first light guide plate member in which a plurality of first straight line grooves are spaced apart from each other, and is laminated on the first light guide plate member, and the first straight type and a second light guide plate member in which a plurality of second straight line grooves intersecting the line grooves are spaced apart from each other.

In the present invention, the first straight line groove portion and the second straight line groove portion may be formed in such a way that the depth of the central portion is the deepest in the longitudinal direction, and the depth gradually decreases from the central portion toward both ends.

In the present invention, the first straight line groove part and the second straight line groove part are respectively located on the light exit surface from which light is emitted from the first light guide plate member and the second light guide plate member, and the first light guide plate member is opposite to the light exit surface. A plurality of first hemispherical grooves may be positioned in the , and a plurality of second hemispherical grooves may be positioned on a surface opposite to the light exit surface of the second light guide plate member.

A plurality of the first straight line grooves are positioned in parallel with each other, a plurality of the second straight line grooves are positioned in parallel with each other, and the first straight line grooves and the second straight line grooves are vertically intersected with each other to cross a grid. A pattern is formed, and the first hemispherical grooves are irregularly positioned on the surface opposite to the light exit surface of the first light guide plate member, and in a lattice in which the first and second straight line grooves are perpendicular to each other on a plane. The second hemispherical groove portion is irregularly located on the opposite surface of the light exit surface of the second light guide plate member, and the first straight line groove portion and the second straight line groove portion are orthogonal to each other on a plane. can

In the present invention, the first straight line groove part and the second straight line groove part have a first coil pattern and a second coil pattern each having a cylindrical shape by winding an annular conductive wire in parallel around one axis several times. It may be formed in the longitudinal direction.

In the present invention, the first straight line groove portion and the second linear line groove portion may be positioned in a direction in which a winding direction of the first coil pattern and a winding direction of the second coil pattern are opposite to each other.

An embodiment of the method for manufacturing a double light guide plate structure according to the present invention provides a first light guide plate member in which a plurality of first straight line grooves are spaced apart from each other on one surface and a first light guide plate member in which a plurality of second straight line grooves are spaced apart from each other on one surface. A light guide plate preparation step of preparing a second light guide plate member, a light guide plate laminating step of laminating the first light guide plate member and the second light guide plate member prepared in the light guide plate preparation step, and stacking the plurality of first straight line grooves and the plurality of second straight line grooves to be crossed It is characterized in that it includes.

In the present invention, the step of preparing the light guide plate includes a first straight line groove machining process of processing the first straight line groove portion to be spaced apart from each other with a machining blade on one surface of the first light guide plate member, and a machining blade on one surface of the second light guide plate member. It may include a second straight line groove machining process of processing the two straight line grooves to be spaced apart.

In the present invention, in the first straight line groove machining process, the machining blade is moved linearly or the height of the machining blade is adjusted while moving the first light guide plate member in a straight line, so as to be machined from one end side of the first light guide plate member, but gradually to the center portion. The machining depth is deepened, and the first straight line groove portion is machined so that the machining depth gradually decreases from the central portion to the other end of the first light guide plate member. While moving the second light guide plate member in a straight line, the height of the machining blade is adjusted to process from one end side of the second light guide plate member to a gradually deeper processing depth to the central portion, and from the central portion to the second light guide plate member The second straight line groove may be machined so that the machining depth is gradually lowered to the end.

In the present invention, the first straight line groove machining process is performed from one end of the first light guide plate member by moving the machining blade or adjusting the height of the machining blade while moving the first light guide plate member in a straight line. The light guide plate member or the processing blade is processed while rotating in any one of the clockwise and counterclockwise directions. The height may be adjusted and the processing may be performed from one end of the second light guide plate member while rotating the second light guide plate member or the processing blade in the other one of a clockwise direction and a counterclockwise direction.

In the present invention, the light guide plate preparation step includes a first dot engraved pattern processing process of forming a plurality of first hemispherical grooves on the other surface of the first light guide plate member to be spaced apart from each other, and a plurality of second hemispherical grooves on the other surface of the second light guide plate member. It may further include a second dot engraved pattern processing process to be spaced apart.

In the present invention, in the process of processing the first dot engraved pattern, the first hemispherical groove is irregularly processed so that the first hemispherical groove is positioned between the first straight line grooves on the plane of the first light guide plate member, and the second dot In the engraved pattern processing process, the second hemispherical grooves may be irregularly processed so that the second hemispherical grooves are positioned between the second straight line grooves on the plane of the second light guide plate member.

In the present invention, in the first dot engraved pattern processing process and the second dot engraved pattern processing process, the first light guide plate member and the second light guide plate member are stacked to form the first straight line groove part and the second straight line groove part on a plane The first hemispherical groove portion and the second hemispherical groove portion are located on the other surface of the first light guide plate member and the other surface of the second light guide plate member so that the first hemispherical groove portion or the second hemispherical groove portion is located in the grid formed by being orthogonal to each other can be processed

According to the present invention, light from a light source on the side can be evenly emitted to the front side by using a light guide plate instead of a light diffusion plate, thereby reducing manufacturing cost and securing economic feasibility.

The present invention uses a light guide plate made of a transparent material instead of a light diffusion plate made of an opaque material to evenly emit light from a light source on the side to the front, so that when applied to an LED billboard, various advertising effects can be produced, such as letters or patterns. It has the effect of improving the versatility of the surface light emitting device as it can be widely applied to various products using the LED lighting device.

1 is an exploded perspective view showing an embodiment of a double light guide plate structure according to the present invention;
2 and 3 are plan views of a double light guide plate structure according to the present invention.
4 and 5 are cross-sectional views of a double light guide plate structure according to the present invention.

The present invention will be described in more detail.

A preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings as follows. Prior to the detailed description of the present invention, the terms or words used in the present specification and claims described below should not be construed as being limited to conventional or dictionary meanings. Therefore, the configuration shown in the embodiments and drawings described in the present specification is only the most preferred embodiment of the present invention and does not represent all the technical spirit of the present invention, so at the time of the present application, various It should be understood that there may be equivalents and variations.

1 is an exploded perspective view illustrating an embodiment of a double light guide plate structure according to the present invention, FIGS. 2 and 3 are plan views of the double light guide plate structure according to the present invention, and FIGS. 4 and 5 are a double light guide plate according to the present invention A cross-sectional view of the structure.

In more detail, FIG. 2 is a plan view showing an example in which the first light guide plate member 100 and the second light guide plate member 200 are stacked in the double light guide plate structure according to the present invention, and FIG. 3A is the first light guide plate member A plan view of FIG. 3B is a plan view of the second light guide plate member 200 .

4 is a cross-sectional view illustrating an example in which the first light guide plate member 100 and the second light guide plate member 200 are stacked in the double light guide plate structure according to the present invention, and FIG. 5(a) is FIG. 3(a) is a cross-sectional view AA′ of FIG. 5 (b) is a cross-sectional view BB′ of FIG. 3 (b).

An embodiment of the dual light guide plate structure according to the present invention will be described in detail below with reference to FIGS. 1 to 5 .

An embodiment of the double light guide plate structure according to the present invention includes a first light guide plate member 100 in which a plurality of first straight line grooves 110 are spaced apart from each other.

In addition, the second light guide plate member 200 is stacked on the first light guide plate member 100 , and the second light guide plate member 200 has a plurality of second straight line grooves 210 intersecting the first straight line grooves 110 . are spaced apart

Each of the plurality of first straight line grooves 110 is a line groove that is cut in a straight line on the plane of the first light guide plate member 100 , and is positioned in parallel with each other as an example.

In addition, each of the plurality of second straight line grooves 210 is a line groove that is cut in a straight line on the plane of the second light guide plate member 200 , and is positioned in parallel with each other as an example.

For example, the first light guide plate member 100 and the second light guide plate member 200 are made of a material of polymethyl methacrylate (PMMA). make it clear that you can

As an example, an optical adhesive layer 300 is positioned between the first light guide plate member 100 and the second light guide plate member 200 and is adhered to each other to be integrated.

It should be noted that the optical adhesive layer 300 may be variously modified and implemented using a known optical adhesive such as Optically Clear Adhesive (OCA) or epoxy.

The plurality of first straight line grooves 110 are spaced apart from each other at the same distance, and the plurality of second straight line grooves 210 are spaced apart from each other at the same distance, and formed to be the same as the spacing of the first straight line grooves 110 . become an example.

For example, the first straight line groove part 110 and the second straight line groove part 210 cross each other perpendicularly to form a grid pattern.

For example, the plurality of first straight line grooves 110 and the plurality of second straight line grooves 210 are formed in parallel with each other at the same distance and are orthogonal to each other to form a square grid pattern.

As an example, the first straight line groove part 110 and the second straight line groove part 210 have the deepest central portion in the longitudinal direction and gradually decrease in depth from the central portion toward both ends. .

The first straight line groove part 110 and the second straight line groove part 210 are each formed in such a shape that the depth of the central part is the deepest in the longitudinal direction, and the depth gradually decreases from the central part toward both end sides, and in a vertical direction to each other. intersect to form a lattice pattern.

In addition, the first straight line groove part 110 and the second straight line groove part 210 are respectively located on the light exit surface from which light is emitted from the first light guide plate member 100 and the second light guide plate member 200 , respectively.

The first light guide plate member 100 has a plurality of first hemispherical grooves 120 positioned on the opposite surface of the light exit surface, and the second light guide plate member 200 has a plurality of second hemispherical grooves 220 on the opposite surface of the light exit surface. is located

For example, the plurality of first hemispherical grooves 120 and the plurality of second hemispherical grooves 220 each have an engraved clay pattern.

In addition, the plurality of first hemispherical grooves 120 are irregularly positioned on the surface opposite to the light exit surface of the first light guide plate member 100 , and the plurality of second hemispherical grooves 220 exit from the second light guide plate member 200 . It is irregularly positioned on the opposite side of the light plane.

In addition, the plurality of first hemispherical grooves 120 are irregularly positioned on the surface opposite to the light exit surface of the first light guide plate member 100 , and the plurality of second hemispherical grooves 220 exit from the second light guide plate member 200 . It is irregularly positioned on the opposite side of the light plane.

In addition, the first hemispherical groove portion 120 is irregularly positioned on the surface opposite to the light exit surface of the first light guide plate member 100 , and the first straight line groove portion 110 and the second straight line groove portion 210 are orthogonal on a plane. The second hemispherical groove part 220 is irregularly positioned on the opposite surface of the light exit surface of the second light guide plate member 200, and the first straight line groove part 110 and the second straight line on a plane. The grooves 210 are positioned in a grid formed orthogonally.

That is, the first hemispherical groove part 120 and the second hemispherical groove part 220 do not overlap the first straight line groove part 110 and the second straight line groove part 210 on a plane, and the first straight line groove part 110 . And the second straight line groove portion 210 is positioned in the grid formed to be orthogonal, but positioned so as not to overlap each other.

On the other hand, the first straight line groove part 110 and the second straight line groove part 210 have a first coil pattern 130 and a second coil having a cylindrical shape by winding an annular conductive wire in parallel around one axis several times. Patterns 230 are respectively formed on the bottom surface in the longitudinal direction.

The first straight line groove part 110 and the second straight line groove part 210 are formed by winding a ring-shaped wire part side by side about one axis several times in parallel to form a coil pattern having a cylindrical shape on the bottom surface in the longitudinal direction to emit light. As the diffusion efficiency is increased, the stacking of the first light guide plate member 100 and the second light guide plate member 200 can replace the conventional light guide plate structure including the light guide plate and the light diffusion plate stacked on the light guide plate.

In addition, the first straight line groove part 110 and the second straight line groove part 210 have the winding directions of the first coil pattern 130 and the second coil pattern 230 positioned in opposite directions to diffuse light. Efficiency can be further improved.

That is, the first coil pattern 130 of the first straight line groove part 110 is wound in a clockwise direction, and the second coil pattern 230 of the second straight line groove part 210 is wound in a counterclockwise direction. can

Alternatively, the first coil pattern 130 of the first straight line groove part 110 is wound in a counterclockwise direction, and the second coil pattern 230 of the second straight line groove part 210 is wound in a clockwise direction. can

In summary, in the double light guide plate structure according to the present invention, the first light guide plate member 100 in which the plurality of first straight line grooves 110 are spaced apart and the plurality of second straight line groove portions 210 are spaced apart from each other. The second light guide plate members 200 are stacked so that the first straight line groove part 110 and the second straight line groove part 210 are crossed to form a plurality of grids, and a plurality of first hemispherical groove portions ( 120 and a plurality of second hemispherical grooves 220 are positioned.

In addition, the first straight line groove part 110 and the second straight line groove part 210 have a coil pattern having a cylindrical shape formed by winding a ring-shaped conductive wire side by side around one axis several times in the longitudinal direction on the bottom surface. have a structure

Thus, the double light guide plate structure according to the present invention has a structure in which two transparent first light guide plate members 100 and second light guide plate members 200 are laminated. It is possible to evenly emit light on the plane of the light guide plate member.

On the other hand, although the surface light emitting device including the double light guide plate structure according to the present invention is not shown, the reflector (not shown) on which the first light guide plate member 100 of the double light guide plate structure according to the present invention is seated, the double light guide plate structure according to the present invention It may include a light source (not shown) positioned on one side.

It should be noted that the light source is an LED lamp as an example, and can be variously modified and implemented using a known light source used in a surface light emitting device.

On the other hand, an embodiment of the method of manufacturing a double light guide plate structure according to the present invention is a first light guide plate member 100 in which a plurality of first straight line grooves 110 are spaced apart from each other on one surface and a plurality of second straight lines on one surface. The first light guide plate member 100 and the second light guide plate member 200 prepared in the light guide plate preparation step and the light guide plate preparation step of preparing the second light guide plate member 200 in which the line grooves 210 are spaced apart are laminated, but a plurality of and a light guide plate laminating step in which one straight line groove part 110 and a plurality of second straight line groove parts 210 are laminated to cross each other.

The light guide plate preparation step is a first straight line groove processing process in which the first straight line groove part 110 is processed to be spaced apart from one surface of the first light guide plate member 100 with a processing blade, and the second light guide plate member 200 is made with a processing blade on one surface. It includes a second straight line groove machining process of processing the two straight line groove portions 210 to be spaced apart.

The first straight line groove processing process is an example of machining the plurality of first straight line groove parts 110 to have a predetermined interval in parallel, and the second light guide plate processing process includes the plurality of second straight line groove parts 210 . As an example, processing to have a predetermined interval side by side.

In addition, in the first straight line groove machining process, the first straight line groove part 110 is machined so that the depth of the central portion is the deepest in the longitudinal direction and the depth gradually decreases toward both end sides in the longitudinal direction.

In the second light guide plate processing process, the second straight line groove portion 210 is machined so that the depth of the central portion is the deepest in the longitudinal direction and the depth gradually decreases toward both ends in the longitudinal direction.

That is, in the first straight line groove processing process, the first straight line groove portion 110 is machined from one end side of the first light guide plate member 100 with a machining blade, and the processing depth is gradually increased to the central portion, and from the central portion The machining depth is gradually reduced to the other end of the first light guide plate member 100 .

In the second straight line groove machining process, the second straight line groove part is machined from one end side of the second light guide plate member 200 with a machining blade, and the machining depth is gradually increased to the central part, and the second light guide plate member at the center part The processing depth is gradually lowered to the other end of (200).

In the first straight line groove machining process, the machining blade is moved linearly or the height of the machining blade is adjusted while linearly moving the first light guide plate member 100 to process from one end side of the first light guide plate member 100 to the central part. The machining depth is gradually increased, and the first straight line groove portion 110 is machined so that the machining depth gradually decreases from the central portion to the other end of the first light guide plate member 100 .

In the second straight line groove machining process, the machining blade is moved linearly or the height of the machining blade is adjusted while linearly moving the second light guide plate member 200 to process from one end side of the second light guide plate member 200, but the center The processing depth is gradually increased to the portion, and the second straight line groove portion 210 is processed so that the processing depth gradually decreases from the central portion to the other end of the second light guide plate member 200 .

On the other hand, in the first straight line groove machining process, the machining blade is moved linearly or the height of the machining blade is adjusted while linearly moving the first light guide plate member 100 to process from one end side of the first light guide plate member 100 . 1 The light guide plate member 100 or the processing blade is processed while rotating at a constant radius so that the first coil pattern 130 having a cylindrical shape is formed on the bottom surface in the longitudinal direction by winding the conducting wire several times in parallel around one axis. .

In addition, in the second straight line groove machining process, the machining blade is moved linearly or the height of the machining blade is adjusted while linearly moving the second light guide plate member 200 to process from one end side of the second light guide plate member 200 . The second light guide plate member 200 or the processing blade is processed while rotating at a constant radius so that the conductive wire is wound several times in parallel around one axis so that the second coil pattern 230 having a cylindrical shape is formed on the bottom surface in the longitudinal direction. .

The first straight line groove machining process is performed from one end of the first light guide plate member 100 by adjusting the height of the machining blade while linearly moving the machining blade or moving the first light guide plate member 100 in a straight line. The member 100 or the machining blade is processed while rotating in one of the clockwise and counterclockwise directions, and the second straight line groove machining process is performed by moving the machining blade in a straight line or moving the second light guide plate member 200 in a straight line. The height of the processing blade is adjusted and processing is performed from one end side of the second light guide plate member 200 while rotating the second light guide plate member 200 or the processing blade in the other one of the clockwise and counterclockwise directions.

That is, in the first straight line groove processing process and the second straight line groove processing process, the bottom surface of the first straight line groove part 110 and the second straight line groove part 210 rotate the light guide plate or the processing blade in opposite directions. A coil pattern that is wound in opposite directions in the longitudinal direction is processed on the bottom surface.

In addition, the light guide plate preparation step includes a first dot engraved pattern processing process of forming a plurality of first hemispherical grooves 120 to be spaced apart from each other on the other surface of the first light guide plate member 100 , and a plurality of It further includes a second dot engraved pattern processing process for forming the second hemispherical groove portion 220 to be spaced apart.

In the first dot engraved pattern processing process, the first hemispherical groove portion 120 is irregularly processed so that the first hemispherical groove portion 120 is positioned between the first straight line groove portions 110 on the plane of the first light guide plate member 100 . In the process of processing the second dot engraved pattern, the second hemispherical groove portion 220 is irregularly positioned so that the second hemispherical groove portion 220 is positioned between the second straight line groove portions 210 on the plane of the second light guide plate member 200 . to process

In the first dot engraved pattern processing process and the second dot engraved pattern processing process, the first light guide plate member 100 and the second light guide plate member 200 are stacked to form a first straight line groove part 110 and a second straight line groove part on a plane. The first hemispherical groove part 120 and the second hemispherical groove part 220 are connected to the first light guide plate member 100 so that the first hemispherical groove part 120 or the second hemispherical groove part 220 is located in the grid in which 210 is orthogonal to each other. ) and the other surface of the second light guide plate member 200 are processed, respectively.

In addition, in the step of laminating the light guide plate, the other surface of the second light guide plate member 200 is seated on one surface of the first light guide plate member 100 and optically bonded with an optical adhesive is an example.

It should be noted that the optical adhesive may be variously modified and implemented using a known optical adhesive such as OCA (Optically Clear Adhesive) or epoxy.

The present invention uses a light guide plate instead of a light diffusion plate to evenly emit light from a light source on the side to the front, thereby reducing manufacturing cost and securing economic feasibility.

The present invention uses a light guide plate made of a transparent material instead of a light diffusion plate made of an opaque material to evenly emit light from a light source on the side to the front, so that when applied to an LED billboard, various advertising effects can be produced, such as letters or patterns. The versatility of the surface light emitting device can be improved as it can be widely applied to various products using LED lighting devices.

It should be noted that the present invention is not limited to the above-described embodiment, and can be implemented with various modifications without departing from the gist of the present invention, which is included in the configuration of the present invention.

100: first light guide plate member
110: first straight line groove part
120: first hemispherical groove portion
130: first coil pattern
200: second light guide plate member
210: second straight line groove portion
220: second hemispherical groove portion
230: second coil pattern
300: optical adhesive layer

Claims (13)

a first light guide plate member in which a plurality of first straight line grooves are spaced apart; and
and a second light guide plate member laminated on the first light guide plate member, wherein a plurality of second straight line groove portions intersecting the first straight line groove portion are spaced apart from each other;
The first straight line groove part and the second straight line groove part are respectively positioned on the light exit surface from which light is emitted from the first light guide plate member and the second light guide plate member,
The first light guide plate member has a plurality of first hemispherical grooves positioned on a surface opposite to the light exit surface, and the second light guide plate member has a plurality of second hemispherical grooves positioned on a surface opposite to the light exit surface,
A plurality of the first straight line groove portions are positioned in parallel with each other,
A plurality of the second straight line groove portions are positioned in parallel with each other,
The first straight line groove part and the second straight line groove part vertically cross each other to form a lattice pattern,
The first hemispherical groove portion is irregularly positioned on the surface opposite to the light exit surface of the first light guide plate member, and is positioned in a grid in which the first straight line groove portion and the second straight line groove portion are orthogonal to each other on a plane. The two hemispherical grooves are irregularly positioned on the opposite surface of the light exit surface of the second light guide plate member, and are positioned in a grid in which the first straight line groove and the second straight line groove are orthogonal to each other on a plane. light guide plate structure.
The method according to claim 1,
The double light guide plate structure, characterized in that the first straight line groove portion and the second straight line groove portion are each formed in a shape in which the depth of the central portion is the deepest in the longitudinal direction, and the depth gradually decreases from the central portion toward both ends.
delete delete a first light guide plate member in which a plurality of first straight line grooves are spaced apart; and
and a second light guide plate member laminated on the first light guide plate member, wherein a plurality of second straight line groove portions intersecting the first straight line groove portion are spaced apart from each other;
The first straight line groove part and the second straight line groove part have a first coil pattern and a second coil pattern each having a cylindrical shape by winding an annular conductor several times side by side about one axis, respectively, on the bottom surface in the longitudinal direction. A double light guide plate structure, characterized in that it is formed.
6. The method of claim 5,
The double light guide plate structure, wherein the first straight line groove portion and the second straight line groove portion are positioned in opposite directions to a winding direction of the first coil pattern and a winding direction of the second coil pattern.
a light guide plate preparation step of preparing a first light guide plate member in which a plurality of first straight line grooves are spaced apart from each other on one surface and a second light guide plate member in which a plurality of second straight line grooves are spaced apart on one surface; and
A light guide plate lamination step of laminating the first light guide plate member and the second light guide plate member prepared in the light guide plate preparation step, and stacking the plurality of first straight line grooves and the plurality of second straight line grooves to cross each other;
The light guide plate preparation step,
a first straight line groove machining process of processing the first straight line groove part to be spaced apart from each other with a machining blade on one surface of the first light guide plate member;
a second straight line groove processing process of processing the second straight line groove part to be spaced apart from each other with a machining blade on one surface of the second light guide plate member;
a first dot engraved pattern processing process of forming a plurality of first hemispherical grooves spaced apart from each other on the other surface of the first light guide plate member; and
a second dot engraved pattern processing process of forming a plurality of second hemispherical grooves spaced apart from each other on the other surface of the second light guide plate member;
In the first dot engraved pattern processing process, the first hemispherical groove is irregularly processed so that the first hemispherical groove is positioned between the first straight line grooves on the plane of the first light guide plate member,
In the second dot engraved pattern processing process, the second hemispherical groove is irregularly processed so that the second hemispherical groove is positioned between the second straight line grooves on the plane of the second light guide plate member,
In the first dot engraved pattern processing process and the second dot engraved pattern processing process, the first light guide plate member and the second light guide plate member are stacked so that the first straight line groove part and the second straight line groove part are perpendicular to each other on a plane. Processing the first hemispherical groove portion and the second hemispherical groove portion on the other surface of the first light guide plate member and the other surface of the second light guide plate member so that the first hemispherical groove portion or the second hemispherical groove portion is positioned in the grid to be formed Method of manufacturing a double light guide plate structure, characterized in that.
delete 8. The method of claim 7,
In the first straight line groove machining process, the machining depth is gradually increased from one end side of the first light guide plate member to the center by adjusting the height of the machining blade while linearly moving the machining blade or moving the first light guide plate member in a straight line. Process to deepen, and process the first straight line groove from the central portion to the other end of the first light guide plate member so that the depth of processing gradually decreases,
In the second straight line groove machining process, the machining blade is moved linearly or the height of the machining blade is adjusted while linearly moving the second light guide plate member to process from one end side of the second light guide plate member, but gradually to the center of the machining depth A method of manufacturing a double light guide plate structure, characterized in that the second straight line groove portion is machined so that the machining depth is gradually decreased from the central portion to the other end of the second light guide plate member.
10. The method of claim 9,
In the first straight line groove machining process, the machining blade is moved linearly or the height of the machining blade is adjusted while linearly moving the first light guide plate member to process from one end side of the first light guide plate member, but the first light guide plate member or The machining blade is processed while rotating in one of the clockwise and counterclockwise directions, and the second straight line groove machining process adjusts the height of the machining blade while linearly moving the machining blade or moving the second light guide plate member in a straight line. to process from one end side of the second light guide plate member, and process the second light guide plate member or processing blade while rotating in the other one of clockwise and counterclockwise directions.
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