KR100647769B1 - Method Of Removing Polarizing Sheet And Apparatus Thereof - Google Patents

Abstract

The present invention relates to a polarizing plate removing method and apparatus for making it suitable for removing a polarizing plate from a liquid crystal panel.

The present invention maintains the interval between the clamp portion to which the polarizing plate is fixed and the male portion to which the liquid crystal panel is seated at a predetermined interval so that the peeling angle between the liquid crystal panel and the polarizing plate adhered to the liquid crystal panel is 10 to 15 °. The polarizing plate is removed from the liquid crystal panel by linearly moving in the direction.

According to the present invention, the polarizing plate removing method and apparatus according to the present invention by setting the distance (ΔG) between the clamp portion and the water column so that the peel angle (ψ) to a predetermined value to minimize the stress applied to the liquid crystal panel When the polarizing plate is peeled off, it is possible to prevent scratches, unevenness or damage on the liquid crystal panel.

Description

Method and apparatus for removing polarizing plate {Method Of Removing Polarizing Sheet And Apparatus Thereof}             

1 is a cross-sectional view showing a conventional polarizing plate removing device.

2 is a cross-sectional view showing another conventional polarizer removing device.

3 is a front view, a plan view and a side view of a polarizer removing apparatus according to an embodiment of the present invention.

4 is a view for explaining the operation of the polarizing plate removing apparatus according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

2: liquid crystal panel 3: polarizing plate

10,20,30: water part 11,31: clamp part

21: peeling roller 22: pressing roller

31a, 31b: clamper 32: cylinder

33: transfer handle 34: hood

35: Robot 36: Control Box

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, and more particularly, to a polarizing plate removing method and apparatus for making it suitable for removing a polarizing plate from a liquid crystal panel.

Liquid crystal displays are being used as notebook PCs, office automation devices, and audio / video devices because of their small size, thinness, and low power consumption. In such a liquid crystal display, polarizers having polarization directions perpendicular to each other are bonded to two substrates on which liquid crystals are injected, thereby increasing light efficiency.

In the process of bonding a polarizing plate to a liquid crystal panel, a bubble or a foreign material tends to mix. In this case, the bonded polarizing plate must be removed and then bonded again. In addition, when the adhesion is poor, the polarizing plate removal process and the bonding process are repeated to eliminate bubbles or foreign matter between the polarizing plate and the liquid crystal panel, and the polarizing plate can be adhered to the liquid crystal panel with a strong adhesive force.

Here, since the polarizing plate removing step removes the polarizing plate adhered on the thin liquid crystal panel by using the polarizing plate removing device, the liquid crystal panel may be damaged or cracked by the peeling polarizing plate.

1 and 2 schematically illustrate conventional polarizer removing devices.

Referring to FIG. 1, the polarizing plate removing apparatus of KNC Co., Ltd. has a predetermined inclination angle θ of the polarizing plate 3 with respect to the liquid crystal panel 2. The clamp part 11 for holding and peeling is provided. The receiver 10 serves to fix the liquid crystal panel 2 by a vacuum suction method when the liquid crystal panel 2 is seated. When the liquid crystal panel 2 is fixed on the male portion 10, the end of the polarizing plate 3 is fixed to the clamp portion 11 by hand. The clamp unit 11 is installed to be inclined on a guide rail (not shown) installed to be inclined at a predetermined inclination angle θ with respect to the liquid crystal panel 2. The clamp portion 11 is driven by a robot (not shown) to peel the polarizing plate 3 from the liquid crystal panel 2. At this time, the polarizing plate 3 that is peeled off by the relative movement of the clamp portion 11 and the receiving portion 10 is peeled off by a speed proportional control method and an angle proportional method proportional to the cross-sectional area of the polarizing plate 3. That is, the polarizing plate 3 is peeled off at an angle so that the peeling inclination angle θ is maintained.

However, the polarizing plate removing apparatus as shown in FIG. 1 gives stress to the liquid crystal panel 2 due to an increase in the angle of the peeling end point rather than the peeling start point. Accordingly, scratches or stains may occur or damage the liquid crystal panel 2. In fact, the polarizer removal apparatus as shown in FIG. 1 has a yield of approximately 87% or less.

Referring to FIG. 2, the polarizing plate removing apparatus of Seoksan Corporation includes a horizontal portion receiving part 20, a pressing roller 22 for fixing the liquid crystal panel 2 on the receiving part 20, and a polarizing plate. A peeling roller 21 for winding (3) is provided. The receiver 20 is mounted on the liquid crystal panel 2, and is horizontally moved by a robot (not shown). The pressing roller 22 serves to fix the liquid crystal panel 2 on the large portion 20. The end of the polarizing plate 3 is fitted to the peeling roller 21 by hand. When the polarizing plate 3 is fixed to the peeling roller 21, the peeling roller 21 starts to rotate forward, and the receiving part 20 starts to move. Then, the polarizing plate 3 starts to peel off from the liquid crystal panel 2 by the rotational movement of the peeling roller 21 and the linear movement of the receiver 20.

However, in the polarizing plate removing apparatus as shown in FIG. 2, since the polarizing plate 3 is almost vertically peeled off from the liquid crystal panel 2 when the polarizing plate is peeled off, the stress applied to the liquid crystal panel 2 increases. The yield of this polarizing plate removing device is much lower than that of the polarizing plate removing device in the same manner as in FIG.

Accordingly, an object of the present invention is to provide a method and apparatus for removing a polarizing plate which can prevent scratches, stains or damage of a liquid crystal panel when the polarizing plate is peeled off.

In order to achieve the above objects, the polarizing plate removing method according to the present invention is between the clamp portion is a polarizing plate fixed so that the peeling angle between the liquid crystal panel and the polarizing plate adhered to the liquid crystal panel 10-15 ° between the liquid crystal panel is mounted Maintaining the interval of the at a predetermined interval, and removing the polarizing plate from the liquid crystal panel by linearly moving the clamp portion in the horizontal direction.

The polarizing plate removing device according to the present invention is spaced apart by a predetermined interval with respect to the clamp portion for fixing the polarizing plate in a linear direction in the horizontal direction, and the peeling angle between the liquid crystal panel and the polarizing plate to which the polarizing plate is bonded is 10 to 15 ° It is provided so as to have a water support for adsorbing and fixing the liquid crystal panel.

Other objects and features of the present invention in addition to the above objects will become apparent from the description of the embodiments with reference to the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described with reference to FIGS. 3 and 4.

Referring to FIG. 3, the polarizing plate removing apparatus according to the present invention fixes the polarizing plate 3 at a predetermined interval (ΔG) with a receiving part 30 for adsorbing and fixing the liquid crystal panel 2. And a clamp portion 31 for horizontal movement. The receiver 30 fixes the liquid crystal panel 2 by a vacuum suction method. This water receiver 30 may be manually transferred by the transfer handle 33. The clamp unit 31 is composed of an upper clamper 31a and a lower clamper 31b, and is driven in a vertical direction by a cylinder 32 and in a horizontal direction by a robot 35 to horizontally hold the liquid crystal panel 2. Will be moved. The upper clamper 31a is fastened to the driving shaft of the cylinder 32 to compress the polarizing plate 3 on the lower clamper 31a as the cylinder 32 is driven. The gap between the upper clamper 31a and the lower clamper 31b is set narrowly to about 10 mm so as not to narrow the operator's finger. In addition, the stroke of the cylinder 32 is also set to approximately 10 mm. The lower clamper 31b is processed into a rounding type so that the polarizing plate fixing area may be gradually increased when the polarizing plate is peeled off. As such, the concentrated clamping load is dispersed by the lower clamper 31b of the rounding type to reduce the stress applied to the liquid crystal panel 2. The spacing ΔG between these large portions 30 and the clamp portion 31 is maintained such that the peeling angle ψ formed by the peeling surface of the liquid crystal panel 2 and the polarizing plate 3 is minimized. For this purpose, the interval ΔG between the water basal portion 30 and the clamp portion 31 is set within the range of 5 to 15 mm, and the peel angle ψ is within the range of 10 to 15 degrees.

The polarizer removing apparatus according to the present invention further includes a hood 34 installed above the work space, and a control box 36 installed below the water basin 30. The hood 34 serves to minimize contamination when the polarizer is peeled off by sucking dust or foreign matter. The control box 36 controls the robot 35 and the cylinder 32.

Polarizer removal will be described in detail with reference to FIG. 4. First, the polarizing plate 3 is fixed to the clamp portion 31 by hand. The spacing ΔG between the clamp portion 31 and the male portion 30 is set within the range of 5 to 15 mm so that the peel angle ψ can be minimized as described above. When the gap ΔG between the clamp portion 31 and the water receiving portion 30 is 5 mm or less, the radius of curvature r of the peeled portion in which the polarizing plate 3 is curved becomes small, so that the peeling angle φ becomes large. The stress applied to (2) is increased by that much. While the clamp portion 31 to which the polarizing plate 3 is fixed is driven by the robot 35, the receiving portion 30 is in a fixed state after absorbing the liquid crystal panel 2. Then, the polarizing plate 3 is peeled from the liquid crystal panel 2 while the peeling angle φ is kept constant. During the peeling process, isopropyl alcohol (hereinafter referred to as "IPA") is sprayed between the polarizing plate 3 and the liquid crystal panel 2 to reduce the adhesive force. When the IPA is sprayed on the peeling surface as described above, the peeling force required to remove the polarizing plate 3 in the initial state in which the polarizing plate 3 is attached on the liquid crystal panel 2 is 7 kgf. Peel force is reduced to 3.5 kgf. In addition, the peeling force of 10 days after the polarizer 3 was attached to the liquid crystal panel 2 was 12.5 kgf. However, when the IPA was sprayed at this time, the peeling force was reduced to 5 kgf.

As described above, in the polarizing plate removing method and apparatus according to the present invention, the gap ΔG between the clamp portion and the male portion is set so that the peel angle ψ is 10 to 15 ° so that the stress applied to the liquid crystal panel is reduced. By minimizing it, it is possible to prevent scratches, stains or damage on the liquid crystal panel when the polarizer is peeled off. As a result of applying the polarizer removing apparatus according to the present invention, the yield was found to increase to 99% or more.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. For example, in the embodiment, the polarizer 3 is peeled off from the liquid crystal panel 2 as the clamp unit 31 is horizontally moved while the receiver 30 is fixed to the liquid crystal panel 2. In the state in which 31 is fixed to the polarizing plate 3, the polarizing plate 3 may be peeled off while the male portion 30 is horizontally moved. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (5)

Maintaining an interval between the clamp portion to which the polarizing plate is fixed and the male portion to which the liquid crystal panel is seated so that the peeling angle between the liquid crystal panel and the polarizing plate adhered to the liquid crystal panel is 10 to 15 °; And removing the polarizer from the liquid crystal panel by linearly moving the clamp portion in a horizontal direction. The method of claim 1, And a gap between the clamp portion and the male portion is set to 5 to 15 mm. The method of claim 1, Spraying iso-propyl alcohol (Iso-ProPyl Alcohol) between the liquid crystal panel and the polarizing plate to reduce the adhesion between the liquid crystal panel and the polarizing plate. A clamp portion for linearly moving the polarizing plate in a fixed and horizontal direction; The polarizing plate is provided so as to be separated from the clamp portion by a predetermined interval so that the peeling angle between the liquid crystal panel and the polarizing plate to which the polarizing plate is adhered by a predetermined interval to have a liquid crystal panel adsorbed and fixed. Removal device. The method of claim 4, wherein And the gap between the clamp portion and the male portion is set to 5 to 15 mm.

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