KR101235557B1 - Apparatus for manufacturing light guide plate using laser - Google Patents

Abstract

The present invention relates to a light guide plate processing apparatus for forming a groove pattern using a laser on a light guide plate used in a liquid crystal display device, and more particularly, a plurality of laser oscillation apparatuses for generating a laser beam; And a laser head including a plurality of focus lenses corresponding to the plurality of laser oscillators to receive the laser beam oscillated from the laser oscillator and irradiate the light guide plate. It comprises a, wherein the plurality of focus lenses are coupled to each other in parallel to the laser head, the laser beam is passed through the focus lens for processing a light guide plate using a plurality of laser, characterized in that for processing a light guide plate will be.
According to the present invention, since a plurality of optical systems can be used to form a pattern on a light guide plate without stitching at a high scan speed, the light guide plate can be produced at low cost and high efficiency.
In addition, since the spacing and length of the pattern can be independently controlled by the independent control of the laser head, the entire substrate can be scanned two or more times staggered to minimize mura such as stripes.

Description

Light guide plate processing apparatus using multiple lasers {APPARATUS FOR MANUFACTURING LIGHT GUIDE PLATE USING LASER}

The present invention relates to a processing apparatus for forming a groove pattern using a laser on a light guide plate used in a liquid crystal display device, and more particularly, a plurality of lasers that can improve the pattern productivity of the light guide plate using a plurality of lasers. The light guide plate processing apparatus used.

BACKGROUND ART In general, a backlight unit used in a liquid crystal display (LCD) is changed to a light emitting diode (LED) according to a recent trend toward thinner and lighter weight, and a light guide plate processing method is also mainly processed using a laser.

Herein, the light guide plate refers to an acrylic injection product which is assembled in a backlight unit that guides light to the liquid crystal in the liquid crystal display device, and uniformly transmits the light emitted from the cold cathode fluorescent lamp or the light emitting diode to the entire surface of the liquid crystal display device. It is one of the plastic molding lenses which plays a role.

A method for forming a pattern on a light guide plate using a conventional laser is placed on a stage where the focus lens unit including one focus lens can move at high speed on the x axis, and the substrate is scanned in a manner of stepping on the y axis. There was a method of forming (Patent No. 0814008).

However, this method has a problem that the productivity is low because the processing time is long because the stage must move all the sections using one focus lens.

In addition, although there is a light guide plate processing apparatus including a plurality of focus lens portions, each focus lens portion is not controlled separately to form a pattern for processing one light guide plate, thereby limiting the pattern formation of the light guide plate. (Registration No. 0809583).

In order to solve the above problems, the present invention is to construct a plurality of optical system to form a pattern on the light guide plate without stitching at a high scanning speed, the light guide plate processing apparatus using a plurality of lasers to improve productivity at low cost To provide.

In addition, the present invention by independently controlling the spacing and length of the pattern by the independent control of each laser head, it is possible to scan the entire substrate more than once by staggering multiple to minimize the mura (mura) such as stripes To provide a light guide plate processing apparatus using a laser.

The present invention provides a plurality of laser oscillation apparatus for generating a laser beam; And a laser head including a plurality of focus lenses corresponding to the plurality of laser oscillators to receive the laser beam oscillated from the laser oscillator and irradiate the light guide plate. It comprises a, wherein the plurality of focus lenses are coupled to each other in parallel to the laser head, the laser beam provides a light guide plate processing apparatus using a plurality of lasers, characterized in that for processing one light guide plate through the focus lens. do.

In addition, in the present invention, the plurality of laser oscillator is characterized in that each is controlled separately by the associated trigger board, the trigger board is characterized in that the synchronization by the synchronization board and the synchronization board is controlled by the controller It features.

In addition, the present invention is installed on the movement path of the laser beam oscillated in the laser generating device shutter unit for determining whether to block the laser beam; A phase delay mirror installed on a movement path of the laser beam oscillated by the laser generator to change a phase of the laser beam passing through the shutter unit; And a beam magnifier installed on a movement path of the laser beam oscillated by the laser generator to enlarge the size of the laser beam passing through the phase delay mirror. It is configurable, including; an aperture installed on the focus lens; It can be configured to include.

According to the present invention as described above it is possible to form a pattern in multiple focus on the light guide plate without stitching at a high scan speed using a plurality of optical system, it is possible to produce a light guide plate of low cost and high efficiency.

In addition, since the spacing and length of the pattern can be independently controlled by the independent control of the laser head, the entire substrate can be scanned two or more times staggered to minimize mura such as stripes.

1 is a perspective view showing a light guide plate processing apparatus using a plurality of lasers of the present invention.
2 is a configuration diagram of a light guide plate processing apparatus using a plurality of lasers of the present invention.
3 is a plan view showing a pattern formed on a light guide plate using a light guide plate processing apparatus using a plurality of lasers of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments.

1 is a perspective view showing a light guide plate processing apparatus using a plurality of lasers of the present invention, Figure 2 is a block diagram of a light guide plate processing apparatus using a plurality of lasers of the present invention.

1 and 2, the light guide plate processing apparatus using a plurality of lasers of the present invention comprises a plurality of laser oscillation apparatus 10 for generating a laser beam; And a laser head including a plurality of focus lenses 20 corresponding to the plurality of laser oscillators 10 to receive the laser beam oscillated from the laser oscillator 10 and irradiate the light guide plate 50. The plurality of focus lenses 20 are coupled to each other in parallel to a laser head, and the laser beam passes through the focus lens 20 to process one light guide plate 50.

The laser oscillation apparatus 10 is provided with a plurality of apparatuses for oscillating a laser beam to the outside, and is controlled by a separate controller.

When the acrylic resin light guide plate 50 is used as an embodiment of the laser beam, excellent processing characteristics can be obtained in a 10.6 mm region, which is a wavelength of a carbon dioxide laser, and when a stainless or PCB (polychlorinated biphenyl) light guide plate 50 is used. Excellent processing properties can be obtained at 355 nm or 532 nm.

In addition, when using a substrate of a different material, all pulses having a wavelength of 300 nm or more and lasers for continuous oscillation are used.

The laser head is a portion installed on the light guide plate 50 to irradiate the laser beam to the light guide plate 50. In order to receive the laser beam oscillated from the laser oscillation apparatus 10 and to irradiate the light guide plate 50, a plurality of laser heads are provided. It is configured to include a plurality of focus lenses 20 to configure a plurality of optical systems corresponding to the laser oscillation apparatus 10 of the.

That is, two or more laser oscillation apparatuses 10 and focus lenses 20 are installed, and are installed in pairs.

The plurality of focus lenses 20 are coupled to each other in parallel to a laser head, and the laser beam passes through the focus lens 20 to process one light guide plate 50.

In FIG. 1, the laser head moves along the guide rail 54 in the X-axis direction, and the focus lens 20 is coupled in parallel to the transfer means 58 for moving the laser head along the guide rail.

On the other hand, the light guide plate 50 is movable in the y-axis direction by a separate moving means for moving the light guide plate 50 in the y-axis direction.

Next, the light guide plate processing apparatus using a plurality of laser of the present invention is provided on the movement path of the laser beam oscillated by the laser generating device shutter portion 30 to determine whether to block the laser beam; A phase delay mirror (32) installed on the movement path of the laser beam oscillated by the laser generator to change the phase of the laser beam passing through the shutter unit; And a beam expander (34) installed on the movement path of the laser beam oscillated by the laser generator to enlarge the size of the laser beam passing through the phase delay mirror (32). And a control unit.

The shutter unit 30 is installed on the movement path of the laser beam oscillated by the laser generator to determine whether to block the laser beam.

In addition, the phase delay mirror 32 is installed on the movement path of the laser beam oscillated by the laser generator to change the polarization state by changing the phase of the laser beam passing through the shutter.

Therefore, the phase delay mirror 32 converts the linearly polarized laser beam into circularly polarized light, thereby making the pattern formation characteristics in the horizontal and vertical directions the same during processing, and serves to change the path of the laser beam.

To this end, the phase delay mirror 32 may be configured as a polarization filter installed on the surface of the mirror in order to make the mirror and the light polarized, and may use a phase delay film coated on the surface of the mirror instead of the polarization filter.

The beam expander 34 is installed on the movement path of the laser beam oscillated by the laser generator to enlarge the size of the laser beam passing through the phase delay mirror 32 to parallel light having a predetermined diameter.

To this end, the beam magnifier 34 overlaps the convex lens and the concave lens to sufficiently transmit the laser beam to the focus lens 20, and contributes to adjusting the size of the pattern processed on the light guide plate 50.

In addition, the light guide plate processing apparatus using a plurality of lasers of the present invention can be configured to include an aperture 36 installed on the focus lens 20.

The aperture 36 adjusts the shape of the pattern processed on the light guide plate 50 by adjusting the shape or amount of light passing through the lens by adjusting the shape or size of the hole.

In FIG. 1, the laser beam, which has traveled in the horizontal direction through the three reflection mirrors, is converted into the vertical direction, and then converted into the horizontal direction and the vertical direction, and then transferred to the aperture 36.

In FIG. 1, the light guide plate 50 is positioned above the base plate 52, and the light guide plate 50 moves in the y-axis direction along a guide rail 56 in the y-axis direction provided on the base plate 52. The lens 20 moves in the x-axis direction along the guide rail 54 provided in the x-axis direction.

In the light guide plate processing apparatus using a plurality of lasers of the present invention, the plurality of laser oscillators 10 may be separately controlled by an associated trigger board 40.

The trigger board 40 is synchronized by the synchronization board 42, and the synchronization board 42 is controlled by the controller 44.

In FIG. 2, a configuration for independently controlling a plurality of lasers is illustrated.

As shown in Fig. 2, in the present invention, the use of a trigger board 40 capable of independently controlling a plurality of laser outputs is essential, and such trigger board 40 is desired by synchronizing on the basis of a stage encoder signal. You can freely arrange the patterns.

3 is a plan view showing laser patterns P 1 and P 2 formed in the light guide plate 50 using the light guide plate processing apparatus using the plurality of lasers of the present invention.

As shown in FIG. 3, when the LED lighting unit 70 is located on both sides of the light guide plate 50 in the longitudinal direction, the pattern density of the center side of the light guide plate 50 is equal to that in FIG. It should be designed as compact as

For this purpose, it is important that a plurality of lasers are independently controlled, and the pitch, size, and intensity of the laser light source of each pattern may be adjusted using each trigger board 40.

In order to arrange the two patterns in combination, the synchronization board 42 independently adjusts and arranges the start and end points of the pattern.

As a result, as shown in FIG. 3, different CAD files may be independently arranged to form one laser pattern P 1 and P 2 on the light guide plate 50.

Although not shown in the drawing, in order to transfer the laser beam between the respective components on the movement path of the laser beam, there is, of course, a laser beam transmission path having both ends coupled to each adjacent component.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

10: laser oscillator 20: focus lens
30: shutter unit 32: phase delay mirror
34: beam magnifier 36: aperture
40: trigger board 42: synchronization board
44: control unit 50: light guide plate
52: base plate 54, 56: guide rail
58: transfer means 70: LED lighting unit
P 1, P 2: laser pattern

Claims (6)

A plurality of laser oscillators 10 for generating a laser beam; And
A laser head including a plurality of focus lenses 20 corresponding to the plurality of laser oscillators 10 to receive the laser beams oscillated from the plurality of laser oscillators 10 and irradiate the light guide plate 50. Is configured to,
The plurality of focus lenses 20 are coupled to each other in parallel to the laser head, the laser beam passes through the focus lens 20 to process one light guide plate 50,
On the movement path of the laser beam oscillated by the plurality of laser generators 10, the shutter unit 30 for determining whether to block the laser beam or the phase of the laser beam passing through the shutter unit 30 is changed. And a phase delay mirror (32), and a beam expander (34) for enlarging the size of the laser beam passing through the phase delay mirror (32).
In claim 1,
The plurality of laser oscillation apparatus 10 is a light guide plate processing apparatus using a plurality of laser, characterized in that separately controlled by the associated trigger board (40).
In claim 2,
The trigger board 40 is a light guide plate processing apparatus using a plurality of laser, characterized in that the synchronization board 42 is synchronized.
4. The method of claim 3,
The synchronization board 42 is a light guide plate processing apparatus using a plurality of laser, characterized in that controlled by the control unit.
delete In claim 1,
Light guide plate processing apparatus using a plurality of laser, characterized in that it comprises an aperture (36) on the upper portion of the focus lens (20).

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