KR101633001B1 - Light Guide Plate And Manufacturing Method Thereof - Google Patents

Abstract

More particularly, the present invention relates to a double-sided imprinting light guide plate capable of mass-processing a base material of a light guide plate by a roll stamping method using a roll stamp transferred on both sides of a pattern, and a light- And a manufacturing method thereof.

Description

TECHNICAL FIELD [0001] The present invention relates to a double-sided imprinting light guide plate,

More particularly, the present invention relates to a double-sided imprinting light guide plate capable of mass-processing a base material of a light guide plate by a roll stamping method using a roll stamp transferred on both sides of a pattern, and a light- And a manufacturing method thereof.

The light guide plate is configured to guide upward the light emitted from a light source such as an LED, and is classified into a direct-type and an edge type according to the arrangement of LEDs.

The light guide plate should be designed so as to maximize the light extraction efficiency by guiding the light emitted from the light source without loss.

Therefore, it is very important to design a pattern on the surface of the light guide plate so that the light emitted from the light source is not lost by diffused reflection, light leakage, or the like by imprinting a pattern such as a prism or dot according to an optical design.

In general, a light guide plate is widely manufactured by cross-section imprinting which directly forms a pattern on an upper surface guiding light upward. However, in order to reduce the number of light sources and maximize the light incident on the lower portion of the light guide plate for maximum light efficiency A double-sided imprinting light guide plate for forming a pattern is also spreading.

However, since the double-sided imprinting light guide plate must include a process of imprinting a pattern separately from the upper surface, the imprinting process is very troublesome because the light guide plate must be processed in a single unit, and the productivity is very low due to the increase of the process .

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method of manufacturing a double-sided imprinting light guide plate capable of mass-processing a base material of a light guide plate by a two-side roll stamping method using a roll stamp transferred on both sides of a pattern have.

In order to accomplish the above object, a double-sided imprinting light guide plate according to the present invention includes a base substrate, an upper resin layer having an upper pattern formed on the upper surface of the base substrate, and a lower resin layer having a lower pattern formed on a lower surface of the base substrate. .

The upper resin layer or the lower resin layer has a refractive index higher or lower than that of the base substrate.

Meanwhile, a method for imprinting both surfaces of a light guide plate according to the present invention comprises the steps of: fabricating a lower master mold having an upper master mold and a lower pattern formed with an upper pattern; transferring the upper pattern of the upper master mold to an upper surface of the soft master; Transferring the lower pattern of the master mold to a soft master, thereby fabricating a soft master having an upper pattern and a lower pattern both-side pattern; transferring the upper pattern of the soft master onto the upper surface of the base substrate, And transferring the pattern to the lower portion of the substrate to imprint the double-sided pattern.

The upper master mold may be prepared by preparing an upper master mold preform and processing the upper pattern by a bite process to process the upper master mold preform in the same shape as the shape of the light guide plate to be actually imprinted or by plating nickel on the upper master mold preform The lower master mold is prepared by preparing a lower master mold preform and processing the lower pattern by a bite process to form the same shape as that of the light guide plate to be actually imprinted, A lower master mold base material is coated with nickel on the lower master mold base material to form a nickel plating layer, and the nickel plating layer is subjected to a bike processing to form a lower pattern.

The step of fabricating the soft master may include applying an upper master resin on a first substrate, positioning an upper master mold on a first substrate coated with the upper master resin, pressing the roll on the master mold, The upper master resin is UV cured to integrally adhere the upper master resin and the first substrate integrally formed with the upper pattern, and the upper and lower faces of the first substrate are turned upside down so as to face upward, Applying the lower master resin on the lower surface of the substrate and then pressing the lower master mold onto the lower surface of the first substrate coated with the lower master resin to UV cure the lower master resin to form a lower master resin, The method of manufacturing a semiconductor device according to claim 1, It characterized in that the unit patterns are formed in a lower manufacturing a master resin of soft mast attached to each other in this integral.

Imprinting the double-sided pattern comprises: preparing a roll stamper formed by winding a roll master so that an upper surface formed with an upper surface pattern of the soft master is exposed to the outside; applying an upper resin to the base substrate; A step of forming an upper resin layer having an upper pattern formed on the base substrate by UV curing while press-bonding the base substrate coated with the resin, and separating the soft master from the roll stamper, A step of preparing a roll stamper by winding the soft master on the roll to be exposed and a step of winding the soft master on the roll so as to expose the base substrate with the upper resin layer being exposed on the lower surface thereof and applying the lower resin on the lower surface of the base substrate, When the lower stamper is mounted on the base substrate coated with the lower resin, To UV cured while pressing the compression bonding is characterized in that it comprises a step in which the lower resin layer when the base substrate is formed on the lower pattern integrally formed.

The upper resin layer or the lower resin layer has a refractive index higher or lower than that of the base substrate.

Here, the refractive index of the upper resin layer, the base substrate, and the lower resin layer are increased in this order.

As described above, the method of manufacturing a double-sided imprinting light guide plate according to the present invention is capable of mass-processing a base plate of a light guide plate by a double-sided roll stamping method using a roll stamp transferred on both sides of a pattern, Effect occurs.

1 is a cross-sectional view schematically showing a double-side imprinting light guide plate according to a preferred embodiment of the present invention.
2 is a flowchart schematically showing a method of manufacturing a light guide plate according to a preferred embodiment of the present invention.
3 (a) and 3 (b) illustrate a method of manufacturing an upper master mold by bending a master mold preform to form an upper pattern, and FIG. 3 (b) shows a method of manufacturing an upper master mold by plating nickel on a master mold base material and then subjecting the nickel plating layer to a bite processing to form an upper pattern.
4A and 4B schematically illustrate a process of manufacturing a lower master mold. FIG. 4A illustrates a method of manufacturing a lower master mold by forming a lower pattern by cutting a master mold preform, and FIG. (b) shows a method of manufacturing a lower master mold by plating nickel on a master mold base material and then subjecting the nickel plating layer to a bite processing to form a lower pattern.
Figure 5 schematically illustrates the fabrication of a soft master having a top surface pattern formed in accordance with a preferred embodiment of the present invention.
FIG. 6 schematically illustrates the manufacture of a soft master in which a top surface pattern and a bottom surface pattern are formed according to a preferred embodiment of the present invention.
FIG. 7 schematically illustrates forming an upper resin layer using a top roll stamp according to a preferred embodiment of the present invention.
8 shows the soft master mounted on the roll stamper.
FIG. 7 schematically illustrates formation of a lower resin layer using a lower roll stamp according to a preferred embodiment of the present invention.

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

1 is a cross-sectional view schematically showing a double-side imprinting light guide plate according to a preferred embodiment of the present invention.

Referring to FIG. 1, the double-sided imprinting light guide plate according to the present invention includes a base substrate 10, an upper resin layer 20 having an upper pattern formed on the upper surface of the base substrate, and a lower pattern And a lower resin layer (30).

The stepped light guide plate according to the present invention is not formed of a single synthetic resin such as polycarbonate (PC), PMMA, MS, PS, PET, or the like, And a lower resin layer formed integrally with each other.

Hereinafter, a method of manufacturing a stepped light guide plate according to the present invention will be described.

2 is a flowchart schematically showing a method of manufacturing a light guide plate according to a preferred embodiment of the present invention.

3 (a) and 3 (b) illustrate a method of manufacturing an upper master mold by bending a master mold preform to form an upper pattern, and FIG. 3 (b) shows a method of manufacturing an upper master mold by plating nickel on a master mold base material and then subjecting the nickel plating layer to a bite processing to form an upper pattern.

 3 (a), the upper master mold 310 is prepared by preparing the master mold base material 311, processing the upper pattern into a bite process, and forming the master mold base material 311 in the same shape as that of the light- .

Then, nickel is plated on the master mold preform 311 to form a nickel plated layer 312. The nickel plated layer 312 is nickel plated to replicate the soft master to increase the transferability and releasability.

3 (b), nickel plating is performed on the master mold preform 311 of the same thickness to form a nickel plating layer 312, and the nickel plating layer 312 is subjected to a cutting process to form an upper pattern So that the upper light guide plate mold 310 can be manufactured.

3 (a) is a method in which a nickel plating layer is formed after the upper pattern is processed on the master mold base material itself, whereas FIG. 3 (b) shows a method of forming a nickel plating layer on the master mold base material, And a method of manufacturing a master mold in which a nickel plating layer is processed by bite to form an upper pattern.

In general, since the master mold base material is made of STAVAX or NAK, it is difficult to directly process the bite. Therefore, it is more preferable to prepare the master mold by plating nickel and then bending nickel as shown in FIG. 3B.

4A and 4B schematically illustrate a process of manufacturing a lower master mold. FIG. 4A illustrates a method of manufacturing a lower master mold by forming a lower pattern by cutting a master mold preform, and FIG. (b) shows a method of manufacturing a lower master mold by plating nickel on a master mold base material and then subjecting the nickel plating layer to a bite processing to form a lower pattern.

Here, the manufacture of the lower master mold is the same as the manufacture of the upper master mold of FIG. 3 except that it is a lower pattern, and thus a detailed description thereof will be omitted.

In this embodiment, the upper pattern is formed in a prism shape and the lower pattern is formed in a dot shape. However, it should be understood that the upper pattern and the lower pattern may be formed in various shapes such as a prism or a lattice shape, will be.

Figure 5 schematically illustrates the fabrication of a soft master having a top surface pattern formed in accordance with a preferred embodiment of the present invention.

 When the upper and lower master molds 310 and 320 are manufactured as described above, the soft master 410 having the double-sided pattern is manufactured by sequentially using the upper master mold 310 and the lower master mold 210.

More specifically, an upper master resin 412 is first applied on a first substrate 411 made of plastic synthetic resin such as PC (polycarbonate), PET, PS, MS, etc., and the upper master resin 412 is applied After the upper master mold 310 is placed on the first substrate 411 and the upper master resin 412 is UV-cured while pressing the roll on the master mold 30, the upper master resin is cured, The upper master resin and the first substrate are integrally joined together. Thereby, a soft master 410 having an opposite shape pattern to the upper pattern of the upper master mold 30 is manufactured.

 FIG. 6 schematically illustrates the manufacture of a soft master in which a top surface pattern and a bottom surface pattern are formed according to a preferred embodiment of the present invention.

When the upper surface pattern is formed on the soft master, the upper surface and the lower surface of the soft master are turned upside down so that the lower surface of the soft master is facing up, and the lower master resin 413 is placed on the lower surface of the first substrate 411 facing upward. And then the lower master mold 320 is UV-cured while being pressed onto the lower surface of the first substrate coated with the master resin to form a lower pattern. Thus, an upper pattern is formed on the upper master resin, and a soft master 410 on which a lower pattern is formed on the lower master resin.

Thereby, the soft master 410 having the shapes opposite to the upper and lower patterns of the upper and lower master molds 310 and 320 is manufactured.

Here, the upper and lower master resins 412 and 413 are UV curable resins, and when they are UV-cured, they are integrally bonded to the first substrate, but they can be easily separated from the master mold to ensure releasability.

The upper and lower master resins 412 and 413 are made of a resin for exclusive use in a soft mold, and can be produced mainly from oligomers, monomers, molders (silicones) and photoinitiators, and the release properties depend on the proportion of the silicon. The higher the releasability is. And, as the content of the monomer increases, the hardness decreases.

Here, the oligomer may be composed of urethane acrylate, epoxy acrylate, and polyester acrylate.

Thus, the upper and lower master resins 412 and 413 are UV-cured, and the upper and lower master resins 412 and 413 and the first substrate 411 are integrally joined together, The soft master 410 in the form of a mold is completed.

The soft masters may be formed to have a size capable of winding rolls. The unit light guide plate patterns included in the soft master may be formed of a plurality of units according to the size of the light guide plate, ≪ / RTI >

FIG. 7 schematically illustrates forming an upper resin layer using a top roll stamp according to a preferred embodiment of the present invention.

Referring to FIG. 7, the soft master 410 may be manufactured in such a manner that the shape of the soft master is repeated by continuously pressing the master mold at regular intervals.

When the soft master 410 is manufactured as described above, the roll stamper 40 is formed by winding the soft master 410 on the roll 420 so that the upper surface of the soft master 410 is exposed.

Since the soft master 410 has a flexible characteristic, the soft master 410 can be wound around the outer periphery of the roll 420 to manufacture the upper surface roll stamper 40.

8 shows the soft master mounted on the roll stamper.

Referring to FIG. 8, the soft master 410 may include a plurality of masters corresponding to the size of the light guide plate, and may be formed in a plurality of rows according to the size of the light guide plate, so that a plurality of light guide plates can be manufactured in a single process.

When the roll stamper 40 is prepared, the upper resin 20 is applied to the base substrate 10, and the roll stamper is UV-cured while pressing the base substrate 10 on which the upper resin 210 is applied, An upper resin layer 20 having an upper pattern formed on the base substrate 10 is formed.

Here, the base substrate 10 is wound around a roll, continuously fed to the roll stamper, and wound back on the winding roll past the roll stamper. Roll stamping is performed until the base substrate 10 is completely wound on the winding roll.

More specifically, a base substrate 10 serving as a base of a light guide plate is prepared, and polycarbonate (PC), which is generally used as a light guide plate material, is prepared as a base substrate.

Then, the base substrate 10 is unwound from the roll, and the upper resin 20 is coated on the base substrate. When the upper resin 210 is UV-cured with a hard-coating-exclusive resin, the physical properties of the upper resin 210 are similar to those of a polycarbonate as a base substrate.

When the upper resin 210 is coated on the base substrate 10, the roll stamper 40 is placed on the base substrate 10 coated with the upper resin 210, The upper resin layer 210 has a shape opposite to that of the soft master 410 of the roll stamper or the same shape as the master mold 30 and the upper resin layer 20 and the base substrate 10 are integrally formed And a light guide plate having a stepped portion formed on the light-incident portion.

FIG. 9 schematically illustrates forming a top resin layer using a bottom roll stamp according to a preferred embodiment of the present invention.

Then, the soft master is separated from the roll stamper 40, and the soft master is turned upside down to be exposed to the outside so that the bottom surface of the lower pattern is exposed to the roll 420, thereby preparing the roll stamper 40A.

The lower resin 310 is coated on the base substrate 10 and the lower surface of the lower roll stamper 40A is coated with the upper resin layer 20, The lower resin layer 30 having the lower pattern formed on the base substrate 10 is formed by UV curing while press-bonding the base substrate 10 on which the lower resin 310 is applied.

The upper resin layer 20 and the lower resin layer 30 may be formed of the same material as the upper and lower master resins 411 and 413. The upper resin layer 20 and the lower resin layer 30 include oligomers, monomers, photoinitiators, and silicon as main components, and may be classified into soft resin and hard resin depending on the content of silicon and monomer. The soft coating and the hard coating according to the present invention are classified according to the hardness characteristics of the resin and all of the same resins may be applied.

Since the upper resin layer 20 and the lower resin layer 30 are integrally bonded to a base substrate made of a PC material and function as a light guide plate, a hard coating is required. Therefore, if the content of silicon and the monomer is decreased, hard coating is possible.

The upper resin layer 20 and the lower resin layer 30 are made of a transparent material and have a refractive index lower or higher than that of the base substrate 10.

The light guide plate according to the present invention may have an influence on the optical characteristics because the base plate 10, the upper resin layer 20 and the lower resin layer 30 are integrally joined together instead of a single material. However, When the refractive index of the step resin 20 formed on the substrate 10 is different from that of the base substrate 10, the light of the base substrate 10 can be emitted to the top without being trapped in the inside, Effect occurs.

Since the transmittance of the resin can be controlled by selecting oligomers and monomers, oligomers and monomers prepared with different transmittances can be easily purchased. Therefore, when oligomers and monomers having a refractive index higher or lower than that of PC are used as the resin, Can be obtained.

The refractive index of the upper resin layer 20 and the refractive index of the lower resin layer 30 may be different from each other. In this case, the refractive indexes of the upper resin layer 20, the base substrate 10, Thereby preventing interference or scattering of light.

Preferably, the refractive index of the lower resin layer 30> the base substrate 10> the upper resin 20 is designed so that the light emitted from the light source is guided upward.

As described above, when the double-side imprinted light guide plate is cut according to the size of the light guide plate, the double-side imprinted light guide plate is cut.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

10: base substrate 20: upper resin layer
30: Lower resin layer

Claims (8)

delete delete A method of manufacturing a light guide plate having a stepped portion, comprising:
Forming an upper master mold having an upper pattern and a lower master mold having a lower pattern;
Transferring the upper pattern of the upper master mold to the upper surface of the soft master and transferring the lower pattern of the lower master mold to the lower surface of the soft master to manufacture a soft master having the upper and lower patterns of both surfaces;
Transferring the upper pattern of the soft master onto the upper surface of the base substrate, and transferring the lower pattern to the lower portion of the base substrate to imprint the both-side pattern.
The method of claim 3,
The upper master mold
The upper master mold preform is prepared and the upper pattern is processed into a bite process to process the upper master mold preform in the same shape as the shape of the light guide plate to be actually imprinted or nickel plating is formed on the upper master mold preform to form a nickel plated layer Bicking the nickel plated layer to form an upper pattern;
The lower master mold
The lower master mold preform is prepared and the lower pattern is processed into a bite process so that the lower master mold preform is processed in the same shape as the shape of the light guide plate to be actually imprinted or nickel is plated on the lower master mold preform to form a nickel plated layer And bake the nickel plated layer to form a lower pattern. ≪ RTI ID = 0.0 > 15. < / RTI >
The method of claim 3,
The step of fabricating the soft master
Applying the upper master resin on the first substrate, locating the upper master mold on the first substrate coated with the upper master resin, and UV-curing the upper master resin while pressing the roll on the master mold, The upper master resin and the first substrate are integrally joined together;
The upper and lower surfaces of the first substrate are turned upside down so that the lower surface of the first substrate faces upward and the lower master resin is coated on the lower surface of the first substrate facing upward, Curing the lower master resin by pressurizing the lower master resin on the lower surface of the substrate so that the lower master resin and the first substrate are integrally joined together;
Wherein the upper master resin, the first substrate, and the lower master resin having the lower pattern are integrally joined together to produce a soft mast.
The method of claim 3,
The step of imprinting the double-
Preparing a roll stamper formed by winding an upper surface of the soft master on which a top surface is formed so as to be exposed to the outside;
Applying an upper resin to a base substrate, UV-curing the roll stamper while press-bonding the base substrate coated with the upper resin to form an upper resin layer having an upper pattern on the base substrate;
Separating the soft master from the roll stamper, turning the soft master upside down so as to expose the lower surface formed with the lower pattern, and preparing a roll stamper;
The base substrate on which the upper resin layer is formed is turned upside down so as to expose the upper surface of the base substrate, the lower resin is coated on the lower surface of the base substrate, and the lower roll stamper is pressed on the lower surface of the base substrate coated with the lower resin And a lower resin layer having a lower pattern formed on the lower surface of the base substrate by UV curing to form a single body.
The method according to claim 6,
The upper or lower resin layer
Wherein the refractive index of the light guide plate is higher or lower than that of the base substrate.
8. The method of claim 7,
Wherein the refractive index of the upper resin layer, the base substrate, and the lower resin layer are increased in the order of the upper resin layer, the base substrate, and the lower resin layer.

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