KR100500044B1 - Method for processing of an internal pattern of a light guide panel and light guide panel manufactured therefrom - Google Patents

Abstract

The present invention focuses and irradiates a laser beam to the inside of the light guide plate instead of the surface thereof so that thermal collapse and fine cracks are generated uniformly to form a three-dimensional light scattering pattern having a predetermined shape, and a light guide plate manufactured by the method. It is to provide.

In one embodiment of the present invention, a method of processing an inner pattern of a light guide plate is performed by focusing a laser beam oscillating from a yag laser or another type of solid state laser at a point inside the surface of the light guide plate of transparent plastic material. Comprising a light scattering pattern that causes light scattering in the dimensional orientation, another embodiment of the present invention is to provide a light guide plate having a light scattering pattern of the shape of a star uniformly distributed in the medium by the above-described method. .

Description

Method for processing of an internal pattern of a light guide panel and light guide panel manufactured therefrom}

The present invention relates to a method of processing an internal pattern of a light guide plate and a light guide plate produced by the method. More specifically, a method of focusing and irradiating a laser beam to the inside of the light guide plate instead of the surface thereof to uniformly generate thermal collapse and fine cracks to form a three-dimensional light scattering pattern having a predetermined shape, and the light guide plate manufactured by the method It is about.

In the TFT-LCD, since there is no self-generating light source, a light source is required, and a back light unit (BLU) is used as a back light source behind the TFT-LCD panel. The light guide panel, a thin plate that transmits light, which is a main component of BLU, diffuses the line light source of the lamp in the form of a surface light source by forming a light reflection pattern, and the material is polymethyl methacrylate. (Polymethylmethacrylate: PMMA) resin is mainly used.

Currently, manufacturing methods applied for optical pattern formation of the light guide plate include screen printing, mold processing, V-cutting, and scatterer mixing.

Although the printing process has a long history and is stable, the printing process is complicated and causes many defects in the printing process. In consideration of the cost loss, a non-printed LGP manufactured by a mechanical processing method has been developed and applied to mass production.

The mold processing method is a method of directly injecting a light guide plate by manufacturing a shape having a light scattering function, and progress is being made in a substantial part, and it can be classified into laser processing, sand blast, corrosion, and electric pole according to the method of carving the shape on the mold. . Although it is suitable for mass production, there are many defects due to heat deformation of the light guide plate, and the cost and time required for manufacturing a mold are disadvantages.

Recently, V-cutting is in the spotlight to shorten the time required for designing and developing patterns, molds, and stampers when changing models, but it has a long processing time. V-cutting is a method of forming a V-shaped groove pattern using a diamond tool on the surface of the light guide plate.

The scatterer mixing method is a method of injecting a light guide plate by mixing a light guide plate material and a scatterer by inserting a scatterer into the light guide plate. Small samples are being made in Korea, but further research is still required until practical use.

The application of laser in the light guide plate pattern production is applied to the manufacturing of the above-mentioned mold, stamper production using the holographic principle. When a groove pattern is formed by directly applying a CO ₂ laser beam to the surface of the light guide plate resin, craters are formed in the processing part, and smoke is generated due to the acrylic resin material removed, thereby degrading workability.

1 is a cross-sectional view of a backlight unit having a light guide plate including a pattern of a groove-shaped light scattering structure manufactured by a conventional uneven processing method.

Referring to FIG. 1, the backlight unit includes a light guide plate 1, a fluorescent lamp 2, a lamp reflector 3, and a reflection sheet 4, as well as optical functional films such as a prism sheet and a diffusion sheet. When the light rays 5 introduced from the side surface are transmitted to the inside of the light guide plate 1 through total reflection, total reflection of visible light through the medium of the light guide plate 1 is performed by the V-shaped scattering pattern 6 at the rear of the light guide plate 1. Will be raised.

As described above, the light guide plate is manufactured in a variety of ways, but since most of the light guide plate is processed and printed on the surface of the light guide plate to form a two-dimensional pattern, it is necessary to perform post-treatment processes such as washing, aging and drying. I need it.

Therefore, the workpiece processed by such a processing method increases the defect rate such as dropping or staining of the light guide pattern part during inflow and post-treatment of dust and foreign matters generated during the manufacturing of the surface, thereby acting as an increase factor of manufacturing cost. Has come.

The present invention has been invented to overcome the problems of the conventional light guide plate manufacturing technique as described above, by arranging the pattern of the light scattering structure by irradiating a laser beam to the basic idea of forming a light scattering structure in the interior of the light guide plate rather than the surface thereof This is to solve the technical problem.

That is, an object of the present invention is to focus the laser beam on the inside of the transparent acrylic resin and not to irradiate it so that thermal collapse and fine cracks are generated uniformly, thereby forming a light scattering pattern in which light reflection in three-dimensional orientation occurs. It is for providing a processing method of the inner pattern.

In addition, an object of the present invention is to provide a light guide plate having a light scattering pattern having a star-like shape uniformly distributed in a medium by the above method.

One embodiment of the present invention is a method of processing the inner pattern of the light guide plate, an improvement in the method is that a laser beam having a wavelength of 632.8 nm of light emitted from a yag laser or other solid state laser is made of a transparent plastic material. The light scattering pattern may be formed by focusing at a very high intensity at an internal point instead of the surface of the light guide plate so that light reflection of three-dimensional orientation occurs.

In addition, another embodiment of the present invention is a light guide plate manufactured by the above method, the improvement is that the light scattering pattern of a star-like shape uniformly in the inside of the medium superimposed two-dimensional arrangement or three-dimensional of a single structure It is characterized in that the arrangement.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings, and the same reference numerals will be used for the same parts.

The yag laser used in one embodiment of the present invention refers to a laser using a jewel shaped like a garnet as a name obtained after yttrium (Y), aluminum (A) and garnet (G). Because of its high efficiency and simple oscillation, it is commonly used for coagulation of tissues requiring high power.

As described above, YAG lasers or other types of solid state lasers may be used in transparent plastics such as acrylics, polycarbonates, epoxies, polymethylmethacrylates, and the like in a very high intensity inside a plastic material having high light transmittance. When focused and irradiated, non-linear absorption causes laser beam absorption, which does not occur at low energy, to the inside of the plastic, resulting in micro-melting or micro cracks. You lose.

In this manner, the stars-like dots uniformly distributed in the medium serve as the light scattering pattern structure in the light guide plate.

2 of the accompanying drawings shows a cross section of a backlight unit having a light guide plate manufactured by an internal pattern forming method, which is an embodiment of the present invention. According to this drawing, a star-shaped dot 7 serving as a light reflecting structure is shown. It can be seen that is formed inside, visible light (5) emitted from the fluorescent lamp (2) as a light source passes through the dot (7), the light reflection of the three-dimensional orientation occurs.

As described above, the star-shaped structure is composed of thermally decay structure and fine cracks generated by absorbing the energy of the high-density focused laser beam inside the light guide plate 1.

In particular, the transparent plastic material is more likely to generate cracks than transparent media such as glass and crystal, and this structure is suitable as a light scattering structure of a light guide pattern compared to an internal structure generated only by thermal action.

3 is a cross-sectional view of a backlight unit including a light guide plate in which a star-shaped light scattering pattern is configured in a two-dimensional arrangement of a single structure according to the present invention. As shown in Fig. 3, it is preferable to continuously arrange the light scattering structures that are the star-shaped dots 7.

In addition, the light scattering pattern according to an embodiment of the present invention is non-linear compared to the light reflection pattern formed on the surface of the lower part of the conventional light guide plate, and as shown in FIG. The efficiency may not be high.

4 is a cross-sectional view of a backlight unit including a light guide plate in which star-shaped light scattering patterns overlap three-dimensionally arranged according to the present invention, wherein the backlight unit includes a reflective sheet 4 as shown in the drawing. Equipped with may be able to guide the light reflection to the front, but in order to maximize the brightness performance of the light guide plate, it may be more preferable to have a three-dimensional superimposed arrangement as shown in FIG.

On the other hand, Figure 5 of the accompanying drawings is a schematic view showing a device for forming a three-dimensional light guide pattern as described above of the present invention, according to Figure 5, the light guide plate 1 is mounted on the machining table 13 It can be seen that. The machining table 13 performs z-axis vertical movement in addition to the mounting of the light guide plate 1, which is a workpiece.

The scanning head 12 including the reflection mirror 10 and the objective lens 11 is mounted on the upper part of the workpiece to serve to focus and reflect the laser beam 9 emitted from the laser oscillator 8. The scanning head 12 moves in the x-y axis and serves to irradiate the light guide plate 1 with the laser beam 9.

The machining table 13, the scanning head 12 and the laser oscillator 8 are connected to the controller 14 to be operated by the processing of the three-dimensional machining data 16 input to the PC 15.

The light guide plate inner pattern processing method according to the present invention can obtain the following effects.

First, the productivity is improved by the high-speed processing characteristics of the laser, and the three-dimensional formation of the light scattering pattern can be expected to improve the product performance such as brightness and light uniformity.

Second, the non-contact processing by the laser beam can prevent sensitive defects in the backlight unit such as foreign matter inflow and scratches generated during the manufacturing process.

Third, there is no processing by-products such as slug or burr as the internal focusing of the laser beam, and unlike the plastic surface processing by laser, no smoke is generated and no post-treatment process is required.

Fourth, the light guide plate is not warped or warped due to heat deformation by using a laser beam focused at a high density.

Fifth, by directly processing on the acrylic plate that is the material of the light guide plate can reduce the cost required for mold development and manufacturing.

1 is a cross-sectional view of a backlight unit including a light guide plate manufactured by a conventional uneven processing method.

2 is a cross-sectional view of a backlight unit including a light guide plate having a star-shaped light scattering pattern formed therein according to the present invention.

3 is a cross-sectional view of a backlight unit including a light guide plate in which a star-shaped light scattering pattern is configured in a two-dimensional arrangement of a single structure according to the present invention.

4 is a cross-sectional view of a backlight unit including a light guide plate in which star-shaped light scattering patterns overlap three-dimensionally arranged according to the present invention.

5 is a schematic diagram of an apparatus for processing a backlight unit including a light guide plate according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1 ---- light guide plate 2 ---- fluorescent lamp

3 ---- Lamp Reflector 4 ---- Reflective Sheet

5 ---- rays 6 ---- scattering pattern

7 ---- Dot 8 ---- Laser Oscillator

9 ---- laser beam 10 ---- reflecting mirror

11 ---- objective 12 ---- scanning head

13 ---- Machine table 14 ---- Controller

15 ---- PC 16 ---- Processing data

Claims (3)

In the method of processing the internal pattern of the light guide plate, the laser beam oscillated from a yag laser or another type of solid state laser is focused at a point inside the light guide plate made of a transparent plastic material so as to light scatter in three-dimensional orientation. A light guide plate inner pattern processing method, characterized by forming a light scattering pattern that causes. The method of claim 1, wherein the wavelength of the laser beam is 632.8 nm. A laser beam oscillating from a YAG laser or another type of solid state laser is focused at a point inside the light guide plate of transparent plastic material so that a light scattering pattern having a uniform star shape inside the medium is uniform. A light guide plate, characterized in that the two-dimensional arrangement or three-dimensional overlapping arrangement of the structure.