KR101114925B1 - Apparatus and method for forming galaxy pattern to light guide plate using diamond - Google Patents

Abstract

The present invention relates to a light guide plate pattern forming apparatus for forming a pattern of a light guide plate, and more particularly, to form a pattern of the light guide plate by using fine diamond powder having irregular crystals, thereby increasing the diffuse reflectance of light incident into the light guide plate, thereby improving illuminance. The present invention relates to a milky way pattern forming apparatus for a light guide plate using diamond which can be made.
The present invention is a light guide plate pattern generating device, characterized in that it comprises a pattern forming unit including a pattern tool formed with a plurality of milky way pattern forming parts to form a milky way pattern having an irregular pattern surface on the light guide plate by the diamond powder is bonded to the end It is done.

Description

Apparatus and method for forming a milky way pattern of a light guide plate using diamonds {APPARATUS AND METHOD FOR FORMING GALAXY PATTERN TO LIGHT GUIDE PLATE USING DIAMOND}

The present invention relates to a light guide plate pattern forming apparatus for forming a pattern of the light guide plate, and more particularly, to form a pattern of the light guide plate by fine diamonds having irregular crystals, thereby improving the illuminance of light incident on the light guide plate to improve illuminance. The present invention relates to an apparatus and a method for forming a milky way pattern of a light guide plate using diamond.

In recent years, display devices most commonly applied to electronic devices may include liquid crystal displays (hereinafter referred to as "LCDs") and portable communication terminal devices. LCDs require light in order to visualize the information displayed on the liquid crystal, and portable communication terminal devices require light in order to facilitate key manipulation even in the middle of the night because the portability is strong. The backlight unit (BLU) is used to supply light from the LCD to the liquid crystal, or to supply a light to a keypad of a mobile communication terminal device having a plurality of keys.

The backlight unit has an edge method having only a light source on the side and a direct method including a light source over the entire liquid crystal surface. In general, the edge method that can reduce the thickness of the LCD and the portable communication terminal device while lowering the manufacturing cost of the LCD and keypad is applied a lot, especially the edge method is applied to small electronic devices such as a portable communication terminal device. The edge-type backlight has a light source such as a light emitting diode or a cold cathode fluorescent lamp on the side to form a thin thickness thereof, and a light guide plate to allow the light incident from the side to enter the liquid crystal or the keypad vertically.

Typically, the edge type backlight unit includes a reflector, a light guide plate, a light source, a diffusion sheet, and the like. The light source is provided on the side of the light guide plate to irradiate light into the light guide plate. The irradiated light is diffusely reflected by the patterns formed on the light guide plate. Some of the diffusely reflected light is transmitted downward and some is transmitted upward. The light transmitted downward is reflected by the reflecting plate and is incident again into the light guide plate. On the other hand, the light incident to the inner upper surface within a specific angle of incidence is emitted upwards and diffused by the diffusion sheet is emitted upwards. Illuminance will vary depending on the diffuse reflectance of light hit by the patterns in the light guide plate.

Usually, the pattern formed under the light guide plate is composed of irregularities or printed with a diffusion material to have an arbitrary shape. The planar shape of the uneven pattern and the printed pattern may be formed in various shapes such as square or triangular or right triangle.

As a method of forming a pattern on the light guide plate, there is a dot printing method of forming an unevenness by printing a pattern on the upper or lower part of the light guide plate, a laser method of forming an unevenness with a laser, a V-CUT method, an etching method and an injection method. And dot print methods. A dot printing method and a laser / V-CUT method having good dual luminance uniformity are widely used.

However, the dot printing method and the laser / V-CUT method may improve luminance uniformity emitted from the light guide plate, but have a problem in that illuminance is lowered due to a low scattering ratio of light inside the light guide plate.

In addition, the general V-CUT method has a problem that it takes a relatively long time to form a pattern for one light guide plate by forming a pattern several times.

Therefore, the light guide plate is important because the brightness of the light guide plate determines the brightness of the light guide plate while improving the luminance and outputting the light in a direction perpendicular to the liquid crystal or the keypad without losing light incident from the side surface. That is, the diffuse reflectance in the light guide plate is an important factor in determining the illuminance of the backlight. To this end, the pattern formed on the lower portion of the light guide plate is constantly required to develop a technology that can increase the scattering rate of light so that many of the incident light is emitted in a direction perpendicular to the liquid crystal.

SUMMARY OF THE INVENTION An object of the present invention is to provide an apparatus and method for forming a Milky Way pattern of a light guide plate using diamond, which may form a pattern of the light guide plate using irregular diamond powders, thereby improving illuminance by increasing diffuse reflectance of light incident into the light guide plate. .

In addition, another object of the present invention is to provide an apparatus and method for forming a milky way pattern of a light guide plate using diamond which can shorten the time for forming a pattern on the light guide plate.

The apparatus for forming a milky way pattern of a light guide plate using diamond for achieving the object of the present invention; The light guide plate pattern forming apparatus, characterized in that it comprises a pattern forming unit including a pattern tool formed with a plurality of milky way pattern forming portions to form a milky way pattern having an irregular pattern surface on the light guide plate by the diamond powder is bonded to the end.

The apparatus; The light guide plate may further include a transfer unit configured to transfer the lower portion of the pattern forming unit.

The pattern forming unit further comprises a press unit for vertically moving the pattern tool.

The pattern tool may be formed in a plate shape and connected to an end portion of the press part, and include a plate part to which the plurality of milky way pattern forming parts are bonded.

The size of the diamond powder of the Milky Way pattern forming unit is characterized in that the larger the pattern forming unit forming a pattern away from the light incident side of the light guide plate.

The milky way pattern forming unit is characterized in that it comprises a stamper constituted by the plate portion and the milky way pattern portion formed by the diamond powder to form a pattern adhered to the stamper and having the irregular pattern surface.

The milky way pattern forming unit, characterized in that the larger the further away from the light source so that the larger the pattern is formed from the light source.

The apparatus; The pattern forming unit may further include a second pattern forming unit having a pattern tool having a configuration or a shape different from that of the milky way pattern forming units.

The second pattern forming unit may further include a second pattern forming unit including a pattern tool in which a plurality of milky way pattern forming parts forming a milky way pattern on both sides and ends thereof are formed on the light incident side.

The Milky Way pattern forming parts forming the Milky Way pattern formed on both sides are formed smaller than other Milky Way pattern forming parts.

Method for forming a milky way pattern of a light guide plate using diamond for achieving the object of the present invention; A method of generating a light guide plate pattern using diamond, the method comprising: a transfer process of transferring a light guide plate to a lower portion of a pattern forming unit; and a pattern tool including a plurality of milky way pattern forming units to which diamond powder having an irregular shape is bonded to an end thereof; And a process of forming a milky way pattern which moves the pattern forming part downward to press the light guide plate positioned below.

The method; A second transfer process of transferring the light guide plate on which the Milky Way pattern is formed to a lower portion of the second pattern forming portion, and a second pattern forming portion having a pattern tool having a different configuration or shape than the Milky Way pattern forming portions of the pattern forming portion is moved downward; The method may further include forming a second milky way pattern for pressing the light guide plate.

In the second pattern forming process, the second light guide plate is second pressed to form the Milky Way pattern forming parts forming the Milky Way pattern on both sides and the end of the light incident side, thereby forming the Milky Way patterns on both sides and the end. Characterized in that the process of increasing the density of irregular projections.

According to the present invention, since the pattern surface of the light guide plate can be irregularly formed by diamond crystals, the diffuse reflectance can be increased, thereby improving the roughness.

In addition, the present invention can form a plurality of patterns having a fine and irregular surface by one pressing while improving the roughness, thereby reducing the pattern formation time, thereby improving the light guide plate productivity Has

In addition, the present invention has an effect that can be quickly tuned when changing the design because the stamper is attached to the plate portion, and has the effect of reducing the mold cost.

1 is a view showing a schematic configuration of an apparatus for forming a milky way pattern of a light guide plate using diamond according to the present invention
2 is a view for explaining the configuration of the press portion and the pattern formation method of the light guide plate of the Milky Way pattern forming apparatus of the light guide plate according to the present invention.
3 is a view showing the configuration of a pattern tool of the Milky Way pattern forming apparatus of the light guide plate according to the present invention.
5 is a view showing the configuration of a pattern tool of a second Milky Way pattern forming apparatus of the Milky Way pattern forming apparatus according to the present invention.
6 is a view showing the electronic configuration of the diamond pattern forming apparatus of the light guide plate using a diamond according to the present invention
6 is a cross-sectional view of a light guide plate on which the Milky Way pattern is formed according to the present invention.

Hereinafter, the configuration and operation of the Milky Way pattern forming apparatus of the light guide plate using diamond according to the present invention will be described with reference to the drawings.

1 is a view showing a schematic configuration of an apparatus for forming a milky way pattern of a light guide plate using diamond according to the present invention, and FIG. 3 is a view showing the configuration of the pattern tool of the Milky Way pattern forming apparatus of the light guide plate according to the present invention, and FIG. 6 is a cross-sectional view of the light guide plate formed with the Milky Way pattern according to the present invention. Hereinafter, a description will be given with reference to FIGS. 1 to 3 and 6.

The apparatus for forming a milky way pattern of a light guide plate using diamond according to the present invention includes a transfer part 300, a pattern forming part 100, and a driving part 400. The driving unit will be described with reference to FIG. 5 to be described later, and the transfer unit 300 and the pattern forming unit 100 will be described with reference to FIGS. 1 to 3.

The transfer part 300 sequentially transfers the plurality of light guide plates 200 to be sequentially positioned at the lower end of the pattern forming part 100. The transfer unit 300 may be a conveyor belt or a robot arm to rotate in one direction by a motor or the like as shown in FIG.

The pattern forming part 100 is installed on the upper part of the conveying part 300 including the press part 110 and the pattern tool 120, and is transferred to the light guide plate by the conveying part 300 by a dot method. A pattern 201 having an irregular pattern surface 202 on 200 is created. The term galaxy pattern is used in the present invention because it looks like a galaxy by light diffused by the irregular pattern surface 202.

The press unit 110 is installed on the upper portion of the transfer unit 300 is moved up and down. The vertical movement of the press unit 110 may be a motor method using a motor, a hydraulic method using a hydraulic pressure or a pneumatic method using air.

The pattern tool 120 includes a plate portion 122 and a plurality of milky way pattern forming portions 125. As a method of forming the plurality of Milky Way pattern forming units 125 on the pattern tool 120 may be applied to the adhesive method and the mold insertion method.

The former is a method of bonding the Milky Way pattern forming unit 125 to the end of the plate portion 122 formed in a plate shape coupled to the upper portion of the press portion 110.

The Milky Way pattern forming unit 125 is formed of a number corresponding to the configuration of the patterns 201 to be formed on the light guide plate 200.

The milky way pattern forming unit 125 has a plurality of stampers 123 adhered to the end of the plate portion 122, and an irregular pattern surface 202 bonded to the end of the stamper 123 and attached to the light guide plate 200. It includes a Milky Way pattern portion 124 is formed of diamond powder irregular in shape of the fine diamond to form a pattern 201 having a).

The latter forms the Milky Way pattern by inserting the stamper 140 into the hole 131 of the plate part 130 which is a mold having holes 131 corresponding to the shapes of the patterns formed in the light guide plate 200 as shown in FIG. 7. This is a method of forming the portion 125. At this time, the stamper 140 includes a piece 141 constituting the body and a pin 142 for preventing the piece from being inserted into the hole 131 of the plate 130. The end of the piece 141 forming the pattern is composed of diamond particles, that is, the Milky Way pattern portion 124 that is diamond powder.

 It is preferable to use industrial diamond having an irregular crystal structure as the fine diamond powder.

Therefore, the milky way pattern 201 of the light guide plate 200 formed by the diamond powder is formed as a pattern surface 201 having irregular and myriad fine patterns by crystals of the irregular diamond powder.

In addition, the size of the diamond powder forming the Milky Way pattern portion 124 of the Milky Way pattern forming portion 125 is formed such that the larger the pattern tool forming a pattern away from the light incident side of the light guide plate as shown in FIG. It would be desirable. In addition, it is preferable that the diamond grains of the pattern tool away from the light incident side become small.

In addition, the Milky Way pattern forming unit 125 may also be configured to form a larger size as the Milky Way pattern forming unit 125 further away from the light incident side of the LGP.

In addition, the Milky Way pattern forming apparatus using the diamond of the present invention is a milky way pattern for secondary pressing to the pattern of the entire pattern or some of the patterns formed behind the pattern forming unit 100 with respect to the transfer direction of the light guide plate The second pattern forming unit 500 may further include pressing the pattern tool 520 on which the forming units 125 are formed to form a pattern. This is to improve the roughness by increasing the density of the irregularly shaped projections produced by the diamond powder. However, it may be desirable to configure the Milky Way pattern forming portion of the pattern tool 520 so that densities of protrusions of the patterns are densely formed in the portion where shadowing occurs, rather than performing secondary pressing on the entire patterns. Shading can occur remote to the light incident side, i.e. at the ends and both sides. Therefore, as shown in FIG. 4, it may be preferable to configure the Milky Way pattern forming portions at the ends and both sides which are far from the light incident side to perform the secondary pressing. The milky way pattern forming unit of the pattern tool 520 (hereinafter referred to as “second milky way pattern forming unit”) may be formed differently from the configuration of the milky way pattern forming unit of the pattern tool 120 as shown in FIG. 4, and the second milky way The shape of the pattern forming unit may also be configured differently from the shape of the milky way pattern forming unit of the pattern tool 120.

5 is a diagram illustrating an electronic configuration of a diamond pattern forming apparatus of a light guide plate using diamond according to the present invention.

The driving unit 400 controls the transfer unit to transfer the light guide plate, and when the light guide plate is disposed below the pattern forming unit 100, moves the press unit 110 up and down and moves downward to move the light guide plate 200 into a pattern tool. The substrate 120 is processed to form a plurality of patterns having an irregular pattern surface on the light guide plate 200.

Specifically, the driving unit 400 includes a control unit 210, a transfer driving unit 220, and a press moving unit 230.

The controller 210 controls the overall operation of the driver 400 according to the present invention.

The transfer driver 220 controls the transfer unit 300 to move under the control of the controller 210. As described above, when the transfer unit 300 applies the conveyor belt method, the transfer drive unit 220 may include a motor to control the conveyor belt to be transferred at a predetermined distance interval in one direction. On the other hand, if the transfer unit 300 is a robot arm, the transfer driver 220 also includes a motor to control the robot arm to move the light guide plate 200 to be placed under the pattern forming unit 100.

The press moving unit 230 moves the pattern forming unit 100 up and down under the control of the control unit 210.

In addition, when the second pattern forming part 500 is formed, the driving part 400 moves the second pattern forming part 500 up and down to move the second press moving part 230 for secondary pressing the light guide plate 200. Should include more.

On the other hand, the present invention is not limited to the above-described typical preferred embodiment, it can be carried out in various ways without departing from the gist of the present invention various modifications, changes, substitutions or additions in the art Anyone who has this can easily understand it. If the implementation by such improvement, change, replacement or addition falls within the scope of the appended claims, the technical idea should also be regarded as belonging to the present invention.

100: pattern forming section 110: press section
120: pattern tool 122: plate portion
123 and 140: stamper 124: Milky Way pattern portion
125: milky way pattern forming unit 200: light guide plate
201: Pattern 202: Pattern Face
210: control unit 220: feed drive unit
230: press drive unit
250: power supply unit 300: transfer unit
400: driving unit 500: second pattern forming unit

Claims (13)

In the light guide plate pattern forming apparatus,
Diamond pattern is bonded to the end of the light guide plate to form a milky way pattern having an irregular pattern surface, characterized in that it comprises a pattern forming unit including a pattern tool having a plurality of milky way pattern forming parts,
The size of the diamond powder of the milky way pattern forming unit,
The Milky Way pattern forming apparatus of the light guide plate using a diamond, characterized in that the larger the Milky Way pattern forming unit forming a pattern away from the light incident side of the light guide plate.
The method of claim 1,
The apparatus for forming a milky way of a light guide plate using diamonds, further comprising a transfer unit for transferring the light guide plate to a lower portion of the pattern forming unit.
The method of claim 1,
The pattern forming unit,
The milky way pattern forming apparatus of the light guide plate using diamond further comprising the press part which moves the said pattern tool up and down.
The method of claim 3,
The pattern tool,
And a plate portion formed in a plate shape and connected to an end portion of the press portion and to which the plurality of milky way pattern forming portions are bonded.
delete The method of claim 1,
The milky way pattern forming unit,
A stamper provided at the plate portion,
And a milky way pattern portion formed by the diamond powder to form a pattern having the irregular pattern surface adhered to the stamper.
In the light guide plate pattern forming apparatus,
Diamond pattern is bonded to the end of the light guide plate to form a milky way pattern having an irregular pattern surface, characterized in that it comprises a pattern forming unit including a pattern tool having a plurality of milky way pattern forming parts,
The milky way pattern forming unit,
The pattern of the Milky Way pattern of the light guide plate using a diamond, characterized in that the larger the distance from the light source so that the pattern is formed larger as the distance from the light source.
In the light guide plate pattern forming apparatus,
Diamond pattern is bonded to the end of the light guide plate to form a milky way pattern having an irregular pattern surface, characterized in that it comprises a pattern forming unit including a pattern tool having a plurality of milky way pattern forming parts,
And a second pattern forming unit in which pattern tools are formed to have a different configuration or shape than the Milky Way pattern forming units of the pattern forming unit.
The method of claim 8,
The pattern tools,
The Milky Way pattern forming apparatus of the light guide plate using a diamond, characterized in that to form a Milky Way pattern on both sides and the end of the second pattern forming portion with respect to the light incident side.
10. The method of claim 9,
The Milky Way pattern forming apparatus of claim 1, wherein the Milky Way pattern forming units forming the Milky Way pattern formed on both sides are smaller than other Milky Way pattern forming units.
In the method of generating a milky way pattern of a light guide plate using diamond,
A transfer process of transferring the light guide plate to the lower portion of the pattern forming unit;
A milky way pattern forming process of pressing a light guide plate positioned below by moving a pattern forming part including a pattern tool having a plurality of milky way pattern forming parts to which diamond powder having an irregular shape is bonded;
A second transfer process of transferring the light guide plate on which the Milky Way pattern is formed to a lower portion of the second pattern forming unit;
And a second milky way pattern forming process of pressing the light guide plate by moving the second pattern forming part having a pattern tool having a configuration or a shape different from the milky way pattern forming parts of the second pattern forming part.
delete The method of claim 11,
The second milky way pattern forming process,
To increase the density of irregular projections of the Milky Way patterns on both sides and the end by pressing the second light guide plate by the second pattern forming part having the Milky Way pattern forming parts forming the Milky Way pattern on both sides and the end of the light incident side. Process characterized in that the process.

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