KR20150079093A - Sealing apparatus of display panel - Google Patents

Abstract

A sealing apparatus for a display panel according to an embodiment includes a sealing unit which includes a coating part and a hardening part, a first driving unit which drives the sealing unit in an X-axis direction, a second driving unit which is connected to the first driving unit and drives the sealing unit in a Y direction, and a third driving unit which is installed to the Y-axis driving unit and drives the sealing unit in a Z-axis direction. The sealing unit may include a rotation part which rotates around the coating part, and a driving part which is arranged on a side of the rotation part and drives the hardening part regardless of the coating part. According to an embodiment, a coating part and a hardening part are separately driven so that a sealing solution can be stably hardened on the curved surface of a display panel. Thereby, the defect of the display panel can be prevented.

Description

[0001] SEALING APPARATUS OF DISPLAY PANEL [0002]

An embodiment relates to a side sealing apparatus, and more particularly, to a side sealing apparatus for improving a coating quality.

In general, a flat panel display is an organic material made by using a luminous phenomenon that emits light when a current flows through a fluorescent organic compound, and the image quality reaction rate is 1,000 times faster than that of an LCD. OLED (Organic Light Emitting Diode) and a TFT (Thin Film Transistor) substrate. The white light emitted from the backlight passes through the liquid crystal cell, (Liquid Crystal Display) panel in which the color of the color screen is formed through the color mixing of light transmitted through the color of green (G) / green (B).

In order to reduce the thickness of the flat display, the polishing operation is performed. In order to prevent light leakage that may occur in the side, sealing and curing of the edge (side) of the upper and lower glass substrates precedes have.

Conventionally, the conventional side sealing apparatus moves along the edge of the glass substrate in a non-contact manner, but the coating unit and the curing unit are fixed to one bracket, and coating is performed mainly with the coating unit as a reference point.

However, when the curved portion of the substrate is coated, the coating is performed on the basis of the coating unit. Therefore, when the curved portion of the substrate is cured, the curved portion of the substrate has a non-cured portion.

In order to solve the above-mentioned problems, it is an object of the present invention to provide a side sealing device for preventing an uncured section from being generated when a corner portion of a substrate is coated.

In order to achieve the above-mentioned object, a side sealing apparatus for a display panel according to an embodiment includes a sealing unit including a coating unit and a curing unit, a first driving unit for driving the sealing unit in the X axis direction, A second driving unit connected between the units to drive the sealing unit in the Y axis direction and a third driving unit installed in the Y axis driving unit and driving the sealing unit in the Z axis direction, And a driving unit that is disposed on one side of the rotating unit and drives the hardened unit separately from the coated unit.

The embodiment can prevent the display panel from being defective by curing the sealing liquid stably on the curved surface portion of the display panel by driving the hardened portion separately from the application portion.

1 is a perspective view showing a side sealing apparatus according to an embodiment.
2 is a perspective view showing a sealing unit of the side sealing apparatus according to the embodiment.
3 and 4 are views showing the operation of the side sealing apparatus according to the embodiment.

Hereinafter, embodiments will be described in detail with reference to the drawings.

2 is a perspective view showing a sealing unit of the side sealing apparatus according to the embodiment, and Figs. 3 and 4 are views showing the operation of the side sealing apparatus according to the embodiment FIG.

1, the side sealing apparatus according to the embodiment includes a sealing unit 100, a pair of first driving units 200 for driving the sealing unit 100 in the X axis direction, A second driving unit 300 connected between the units 200 to drive the sealing unit 100 in the Y axis direction and a second driving unit 300 installed in the second driving unit 300 to drive the sealing unit in the Z axis direction 3 driving unit (400).

The sealing unit 100 serves to apply the sealing liquid to the side of the display panel. In addition, the sealing unit 100 may serve to cure the sealing liquid applied to the side of the display panel. The sealing unit 100 can cure the sealing liquid using ultraviolet rays or ultrasonic waves. The sealing unit 100 can move in a non-contact manner along the side of the display panel. The sealing unit 100 will be described later in detail with reference to the drawings.

The first drive unit 200 serves to drive the sealing unit 100 in the X-axis direction. The first drive unit 200 may be formed in a bar shape of a linear type. The first drive unit 200 may be arranged such that a pair of bars are spaced apart. The first rail 220 may be formed on the first driving unit 200. The first rail 220 may have a structure protruding upward.

The second driving unit 300 serves to drive the sealing unit 100 in the Y axis direction. The second drive unit 300 may be arranged to connect between the first drive units 200. The second drive unit 300 may be disposed in the vertical direction of the first drive unit 200. Both ends of the second drive unit 300 can be supported by the first drive unit 200.

The second drive unit 300 can be moved along the first drive unit 200 in the X-axis direction. The second drive unit 300 may be moved along the second rail 320 formed in the first drive unit 200 in the X axis direction. The second driving unit 300 may include a second rail 320 for moving the sealing unit 100 in the Y-axis direction. A driving motor 340 for providing a driving force to the sealing unit 100 may further be disposed on one side of the second driving unit 300. The driving motor 340 may be a servo motor.

The third drive unit 400 serves to drive the sealing unit 100 in the Z-axis direction. The third drive unit 400 may be disposed on one side of the second drive unit 300. The third drive unit 400 can move the sealing unit 100 in the Z axis direction while supporting the sealing unit 100. [ The third driving unit 400 includes a first coupling part 420 which moves along the second rail 320 of the second driving unit 300 and a second coupling part 420 which is coupled to the front surface of the first coupling part 420, And may include a movable second coupling portion 440.

The second engaging portion 440 may be movable along a rail formed on the first engaging portion 420. A separate servo motor (not shown) for driving the second coupling portion 440 up and down may further be disposed at the rear of the first coupling portion 420.

2, the sealing unit 100 may include a coating unit 110 and a hardening unit 120. [ The application unit 110 and the curing unit 120 may be supported by the support unit 130. The support 130 may be in the form of a square plate. The application portion 110 and the hardened portion 120 may be disposed on the lower surface of the support portion 130. The application portion 110 and the hardened portion 120 may be spaced apart from the lower portion of the support portion 130.

The rotation part 140 may be disposed on the support part 130. The rotation unit 140 may be disposed at a position corresponding to the application unit 110. The rotation unit 140 can rotate the support unit 130 about the application unit 110. The rotating part 140 can rotate the supporting part 130 about the applying part 110 as an axis.

A driving unit 150 for driving the hardening unit 120 may be disposed at one side of the rotation unit 140. The driving unit 150 may drive only the curing unit 120 separately from the application unit 110. [ The driving unit 150 may include a first driving unit 152 and a second driving unit 154.

The first driving unit 152 moves the coin 120 in the X-axis direction. The first driving unit 152 may move the curing unit 120 forward or backward toward the display panel. The first driving unit 152 may be disposed on one side of the support unit 130. The first driving part 152 may be disposed on the upper part of the support part 130. The second driving unit 154 serves to rotate the hardening unit 120. The second driving unit 154 may be disposed above the supporting unit 130 corresponding to the hardening unit 120. The second driving unit 154 can rotate the hardening unit 120 about the axis. The first driving unit 152 and the second driving unit 154 may drive the hardened unit 120 separately from the applying unit 110. [

3, when the sealing unit 100 is disposed on one side of the display panel P, the sealing unit 100 is moved along the side surface of the display panel P. As shown in FIG. As the sealing unit 100 moves, the application unit 110 sprays the sealing liquid in a noncontact manner on the side of the display panel P. [ The hardening unit 120 disposed on one side of the application unit 110 hardens the sealing liquid sealed by ultraviolet rays or ultrasonic waves. At this time, the curing unit 120 is not driven separately.

4, when the sealing unit 100 reaches the curved portion of the display panel P, the application portion 110 is rotated toward the display panel in the rotation portion 140. As shown in FIG. At the same time, the driving unit 150 connected to the hardening unit 120 is driven to have the same center point as the application unit 110.

The first driving unit 152 advances the hardening unit 120 toward the X-axis direction, that is, toward the display panel P. The distance L1 between the display panel P and the curing unit 120 may be equal to the distance L2 between the display panel P and the application unit 110. [ Particularly, the distance L1 between the display panel P and the hardened portion 120 has the same distance as when passing through the side straight portion of the display panel P.

At the same time, the second driving unit 152 rotates the hardened unit 120 toward the display panel P. The second driving unit 152 may rotate the hardened unit 120 so as to have the same center point as that of the application unit 110. Therefore, the sealing unit 100 can stably perform coating and curing along the curved portion of the display panel P.

When the sealing unit 100 passes the curved portion of the display panel P as described above, the operation of the driving unit 150 for driving the hardening unit 120 is stopped, Coating and curing are performed along the side surface.

As described above, in the embodiment, by driving the hardened portion separately from the application portion, it is possible to stably seal the sealing liquid on the curved portion of the display panel, thereby preventing the display panel from being defective.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the following claims. It will be possible.

100: sealing unit 110:
120: hardened portion 130:
140: rotating part 150:
200: first driving unit 300: second driving unit
400: third drive unit P: display panel

Claims (5)

A sealing unit including a coating portion and a hardening portion;
A pair of first driving units for driving the sealing unit in the X axis direction;
A second driving unit connected between the first driving unit and driving the sealing unit in the Y axis direction; And
And a third driving unit installed in the second driving unit and driving the sealing unit in the Z axis direction,
Wherein the sealing unit includes a rotating part for rotating the coating part around the coating part and a driving part disposed on one side of the rotation part for driving the curing part separately from the coating part. The method according to claim 1,
Wherein the sealing unit includes a support portion for supporting the application portion and the hardened portion, the rotation portion rotates the support portion, and the drive portion is disposed on one side of the support portion. 3. The method of claim 2,
Wherein the driving unit includes a first driving unit that drives the hardened unit in the X axis direction, and a second driving unit that rotates the hardened unit. The method of claim 3,
Wherein the first driving unit drives the hardened unit to maintain a certain distance from the side surface of the display panel when the hardened unit moves along the curved portion of the substrate. The method of claim 3,
Wherein the second driving unit drives the hardened unit so that the hardened unit has the same center point as that of the coated unit when the hardened unit moves along the curved part of the substrate.

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