KR20080005596U - Laser etching apparatus - Google Patents

Abstract

The present invention relates to a novel laser etching apparatus capable of improving the light guide effect by improving the brightness and brightness of a backlight module component such as a light guide plate applied to a flat panel display device.

 A platform for carrying or moving the backlight module component; A laser light source for generating a laser beam; And a light guide for guiding or emitting the laser beam, wherein the light guide includes a vibration mirror scanning system for adjusting a position at which the laser beam contacts the backlight module component.

Laser light sources, light guides, platforms, backlight module components, vibration mirror scanning systems

Description

Laser etching apparatus

The present invention relates to a laser etching apparatus, and more particularly, to a laser etching apparatus for etching a backlight module component.

Compared with the conventional wet etching process, the process of making an electrode pattern with a laser has advantages such as simpler, high speed, and low cost. Recently, with the market expansion of flat panel display devices, the demand for backlight module components is rapidly expanding. The process of making a light guide plate with a laser can not only improve the brightness and brightness of the light guide plate, but also the effect of the light guide is superior to the wet etching process.

Conventional laser etching apparatus processes the laser light source by moving the XY axis platform by positioning the sample on the XY axis platform and fixing the laser light source when manufacturing a large product. On the other hand, when manufacturing smaller, more precise products, they are rapidly processed to a certain range by telecentric flat-field lens motors.

However, the conventional laser etching apparatus has some drawbacks. For example, the process of machining on the XY-axis platform is a long time-consuming obstacle to manufacturing and producing high-density parts. In addition, the process of processing with a telecentric flat field lens motor has a problem that the size of the product is limited and the precision is not good. In addition, products processed with a telecentric flat-field lens motor have a problem of causing distortion by inclining the angle of incidence of the laser beam. As a result, the conventional laser etching apparatus cannot meet the demand of high density, high precision products as large parts.

In order to solve the above problems, the present invention seeks the following technical means. That is, it aims at providing the laser etching apparatus for etching a backlight module component.

Laser etching apparatus according to the present invention for achieving the above object, the platform for mounting or moving the backlight module components; A laser light source for generating a laser beam; And a light guide for guiding or emitting the laser beam, wherein the light guide includes a vibrating mirror scanning system for adjusting a position at which the laser beam contacts the backlight module component.

In addition, the platform is an XY-axis mechanical platform, the backlight module component is a light guide plate or a module of the light guide plate, the area is 462.25cm 2 or more, the mode of the laser beam is TEM ₀₀ , the light guide is the laser beam to the backlight It characterized in that it comprises a vertical light generating device for vertically touching the module component.

The vertical light generating device is a telecentric flat field lens.

The laser etching apparatus and the light guide of the present invention not only have high efficiency, but also have the advantage that the product size reaches 462.25 cm 2 (215 mm x 215 mm) or more. In addition, instead of the conventional lens used by the conventional vibration mirror scanning system, a vibration mirror system and a telecentric flat field lens are used for the light guide, thereby effectively preventing distortion of the product and component patterns manufactured by the conventional laser etching apparatus. I can solve it.

1 is a view showing the configuration of a first embodiment of a laser etching apparatus of the present invention, wherein the laser etching apparatus 1 generates a laser beam 12, for example, a laser light source comprising a diode-enhanced laser module. (11). In the first embodiment, the mode of the laser beam is TEM ₀₀ . The laser beam 12 is guided and emitted by the light guide 13 and reaches the backlight module component 16. The light guide 13 also includes a vibrating mirror scanning system 17 that adjusts the position at which the laser beam 12 contacts the backlight module component 16, wherein the backlight module component 16 includes a platform 15. The platform 15 moves to determine the position of the backlight module component 16.

2 is a diagram showing a three-dimensional configuration of the light guide 13 and the vibration mirror scanning system 17 of the first embodiment. The vibration mirror scanning system 17 is an XY-axis vibration mirror scanning system, and includes an X-axis vibration mirror 171 and a Y-axis vibration mirror 172 to quickly and precisely emit a laser beam 12 into a flat field lens ( Touch the part through 19).

In the first embodiment, the backlight module component 16 may be a light guide plate or a module of the light guide plate. The platform 15 is an XY axis mechanical platform, which can be moved by a driver, an axis control card and software to determine the position of the backlight module component 16.

The laser etching apparatus of the present invention includes a high-speed and accurate vibration mirror scanning system 17 and an XY-axis platform 15 capable of moving a large component, thereby improving efficiency in etching light guide plates or other backlight module components. Not only can it be improved, but the size of the parts is not limited. In the conventional laser etching apparatus using only a vibration mirror type system, the scanning range is about 100 mm x 100 mm, and the highest is 215 mm x 215 mm. The laser etching apparatus 1 of the present invention is a vibration mirror scanning system ( 17) and the XY-axis platform 15, the size range of the product reaches 462.25 cm 2 (215 mm x 215 mm) or more.

Fig. 3 is a view showing the configuration of the second embodiment of the laser etching apparatus of the present invention, wherein the laser etching apparatus 3 is a laser light source 31 that is formed of, for example, a diode-enhanced laser module for generating a laser beam 32. ). In the second embodiment, the mode of the laser beam is TEM ₀₀ . The laser beam 32 is guided and emitted by the light guide 33 and reaches the component 36. In addition, the light guide 33 is a vibrating mirror scanning system 37 for adjusting the position where the laser beam 32 is in contact with the component 36 and a vertical for allowing the laser beam 32 to be perpendicular to the component 36. A light generating device 39 is included, and the laser etching device 3 includes a platform 35 for carrying and moving the component 36. In the second embodiment, the platform 35 is an XY axis mechanical platform that can be moved by a driver, an axis control card, and software to determine the position of the component 36.

In the second embodiment, the vertical light generating device 39 is a telecentric flat field lens, and the conventional flat field lens 19 (that is, f / e) used by the light guide 13 of the first embodiment is used. Lens), the vertical light generating device 39 used in the second embodiment can effectively solve the problem of distortion caused by the inclination angle of the laser beam. 4 is a view showing a result of comparing light rays generated by the general f / e lens 19 with light rays generated by the telecentric flat field lens 39 used in the second embodiment. As shown in FIG. 4, the general lens 19 has a defect of visual distortion due to the angle of incidence of light rays. However, the vertical light generating device 39 using a telecentric flat field lens can solve the problem of distortion, thereby providing high accuracy. It is possible to meet the demand when etching a product having a laser.

5 is a diagram showing a three-dimensional configuration of the light guide 53 of the laser etching apparatus of the present invention. The light guide 53 is a vibrating mirror scanning system 57 for adjusting the position where the laser beam 52 touches the component 56 and the vertical light for directing the laser beam 52 perpendicular to the component 56. And a generator 59.

In the above embodiment, the mode of the laser beam 52 is TEM ₀₀ . The vibration mirror scanning system 57 is an XY-axis vibration mirror scanning system, and includes an X-axis vibration mirror 571 and a Y-axis vibration mirror 572 so that the laser beam 52 can be quickly and precisely fed to the vertical light generator ( Contact part 56 through 59). The vertical light generator 59 is preferably a telecentric flat field lens.

In the present embodiment, the components 36 and 56 may be light guide plates or molds of the light guide plates, but are not limited to the backlight module components. Products that pursue high density, high accuracy, high efficiency, and low distortion are preferably used with the laser etching apparatus or light guide of the present invention.

The above descriptions are merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention belongs may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the claims below, and all technical ideas within the scope of the present invention should be interpreted as being included in the scope of the present invention.

1 is a view showing the configuration of a first embodiment of a laser etching apparatus of the present invention,

FIG. 2 is a diagram showing a three-dimensional structure of the light guide and the vibration mirror scanning system of the first embodiment;

3 is a view showing the configuration of a second embodiment of a laser etching apparatus of the present invention,

4 is a view showing a result of comparing the light generated by a general lens and the light generated by a telecentric flat field lens,

5 is a view showing a three-dimensional configuration of the light guide of the laser etching apparatus of the present invention.

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

1, 3: laser etching apparatus 11, 31: laser light source

12, 32, 52: laser beam 13, 33, 53: light guide

15, 35: Platform 16: Backlight Module Components

17, 37, 57: vibration mirror scanning system 36, 56: parts

39, 59: vertical light generator

Claims (3)

A laser etching apparatus for etching a backlight module component, A platform for carrying or moving the backlight module component; A laser light source for generating a laser beam; And A light guide for guiding or emitting the laser beam, And the light guide includes a vibrating mirror scanning system for adjusting a position at which the laser beam touches the backlight module component. The method of claim 1, The platform is an XY axis mechanical platform, The backlight module component is a light guide plate or a module of the light guide plate and has an area of 462.25 cm 2 or more. The mode of the laser beam is TEM ₀₀ , And the light guide includes a vertical light generator for vertically directing the laser beam to the backlight module component. The method of claim 2, And said vertical light generating device is a telecentric flat field lens.

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