KR102575775B1 - Method of separating layers of flexible display - Google Patents

Abstract

The present invention relates to a method of separating layers of a flexible display, in which the upper surface of the display panel 11 is bonded to the glass substrate 12 through the OCA film 13, and the lower surface of the display panel 11 is connected to the carrier. In the step of bonding to the film 20 (S110) and the process of bonding the display panel 11 to the carrier film 20 and transporting it by the carrier film 20, an excimer laser beam is emitted from the excimer laser device 40. A step of separating the glass substrate 12 from the display panel 11 by irradiating (41) and ablating the lower surface of the OCA film 13 interposed between the glass substrate 11 and the display panel 12. It is characterized by including (S120).

Description

{METHOD OF SEPARATING LAYERS OF FLEXIBLE DISPLAY}

The present invention relates to a method of separating layers of a flexible display, and more specifically, to bonding a display panel to a carrier film and then ablating the lower or upper surface of the OCA film sandwiched between the display panel and the glass substrate with an excimer laser. This relates to a layer separation method of a flexible display that can separate the glass substrate from the display panel by (ablation; removal).

Republic of Korea Patent Publication No. 10-2022-0003692 (published on January 11, 2022) introduces “a display device, a method of reworking the display device, and a device for separating the display device.”

The method of reworking the display device includes disassembling a display panel including a display panel for displaying an image and a heat dissipation carrier adhered to the back of the display panel, and a window bonded to the front of the display panel; cleaning the window and the display panel; attaching an adhesive film to the front of the display panel; bonding the display panel and the window; and separating the heat dissipation carrier from the display panel unit.

However, in the method of reworking the display device, in the step of separating the display panel and the window, the display panel and the window are separated while cooling to a temperature where the adhesion of the adhesive film is reduced. However, this cooling method is used for AMOLED, OLED, etc. When applied to a flexible display, there is a problem that the organic thin film layer is damaged by daisy at low temperatures.

Therefore, the object of the present invention is to bond the display panel to the carrier film and then ablate the lower or upper surface of the OCA film interposed between the display panel and the glass substrate with an excimer laser, thereby forming flexible glass. The aim is to provide a layer separation method for flexible displays that separates the glass substrate from the display panel so that the substrate and flexible display panel can be reused.

An example of a method of separating layers of a flexible display according to the present invention to achieve the above object is,

Bonding the lower surface of the display panel to a carrier film while the upper surface of the display panel is bonded to a glass substrate through an OCA film;

When the display panel is bonded to the carrier film and transported by the carrier film, an excimer laser beam is radiated from an excimer laser device to ablate the lower surface of the OCA film sandwiched between the glass substrate and the display panel, thereby forming a glass substrate. Characterized in that it includes the step of separating from the display panel.

Another example of the layer separation method of a flexible display according to the present invention is

Bonding the lower surface of the display panel to a carrier film while the upper surface of the display panel is bonded to a glass substrate through an OCA film;

When the display panel is bonded to the carrier film and transported by the carrier film, an excimer laser beam is irradiated from an excimer laser device to ablate the upper surface of the OCA film sandwiched between the glass substrate and the display panel, thereby forming a glass substrate. Characterized in that it includes the step of separating from the display panel.

In the two examples described above, the layer separation method of the flexible display according to the present invention is characterized in that the glass substrate separated from the display panel is transferred to a tray, and the display panel from which the glass substrate is separated is wound on a winding roll by a carrier film. do.

In the step of separating the glass substrate from the display panel by ablating the lower surface of the OCA film, the OCA film remains on the lower surface of the glass substrate.

In the step of separating the glass substrate from the display panel by ablating the upper surface of the OCA film with an excimer laser beam, the OCA film remains on the upper surface of the display panel.

As a result, the layer separation method of a flexible display according to the present invention can reuse not only the separated glass substrate but also the display panel, which has the effect of reducing the manufacturing cost of the flexible display.

Figure 1 is a cross-sectional view schematically showing a flexible display.
Figure 2 is a perspective view schematically showing a device for separating a display panel and a glass substrate of a flexible display to explain a method of separating layers of a flexible display according to the present invention.
Figure 3 is a cross-sectional view showing an example in which the lower surface of the OCA is ablated by an excimer laser, thereby separating the glass substrate and the display panel.
Figure 4 is a flowchart showing a method of separating layers of a flexible display according to the first embodiment of the present invention.
Figure 5 is a cross-sectional view showing an example in which the upper surface of the OCA is ablated by an excimer laser, thereby separating the glass substrate and the display panel.
Figure 6 is a flowchart showing a method of separating layers of a flexible display according to a second embodiment of the present invention.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the attached drawings. This description is not intended to limit the present invention to specific embodiments, but should be understood to include all changes, equivalents, and substitutes included in the spirit and technical scope of the present invention. Unless otherwise defined, all terms used in this specification, including technical or scientific terms, have the same meaning as generally understood by a person of ordinary skill in the technical field to which the present invention pertains.

In this document, when a part "includes" a certain component, this means that it may further include other components rather than excluding other components, unless specifically stated to the contrary.

Referring to FIG. 1, in general, the flexible display 10 includes a display panel 11 and a glass substrate 12 made of a material with flexible characteristics, and the display panel 11 and the glass substrate 12 ) With the optically transparent adhesive film 13 interposed between them, the display panel 11 and the glass substrate 12 are bonded by a lining method.

The optically transparent adhesive film may be OCA (Optical Clear Adhesive) or OCR (Optical Clear Resin; OCR).

Referring to FIGS. 2 to 4, the present invention is a method for separating the display panel and the glass substrate to rework a product in which a defect occurs when a lighting inspection is performed after the flexible display is manufactured. The layer separation method of the flexible display according to the first embodiment is as follows.

(1) With the upper surface 11b of the display panel 11 bonded to the glass substrate 12 through the OCA film 13, the lower surface 11a of the display panel 11 is attached to the carrier film 20. Connect to (S110).

At this time, as shown in FIG. 2, the supply roll 21 is disposed on the left side of the work table 30, and the winding roll 22 is disposed on the right side of the work table 30, so that the carrier film 20 is supplied. The lower surface 11a of the display panel 11 is bonded to the carrier film 20 in the process of being pulled out from the roll 21 and passing through the work table 30 in the direction of the arrow 25.

In this way, attaching the flexible display panel 11 to the carrier film 20 is to prevent the flexible display panel 11 from curling up after being separated from the flexible glass substrate 12.

(2) In the process of the display panel 11 being bonded to the carrier film 20 and transported by the carrier film 20, the excimer laser beam 41 is radiated from the excimer laser device 40 (Excimer Laser), As shown in FIG. 3, the glass substrate 12 is displayed by ablating the lower surface 13a of the OCA film 13 sandwiched between the glass substrate 11 and the display panel 12. Separate from the panel 11 (S120).

At this time, the excimer laser beam 41 is irradiated to the lower surface of the OCA film 13 through the glass substrate 11 to ablate the lower surface of the OCA film 13.

As a result, as shown in FIG. 3, the OCA film 13 remains on the lower surface of the glass substrate 11, and the lower surface 11a of the display panel 11 is attached to the carrier film 20. , preventing it from curling up.

In this way, when the glass substrate 12 is separated from the display panel 11 using the excimer laser beam 41, the organic layer (not shown) of the display panel 11 is formed by the short wavelength of the excimer laser beam. ) can be prevented from being damaged by damage.

Since the excimer laser device 40 is already well known, detailed description will be omitted here.

(3) Afterwards, the glass substrate 12 separated from the display panel 11 is transferred to the tray 50, and the display panel 11 from which the glass substrate is separated is wrapped around the roll 22 by the carrier film 20. It is wound on (S130).

As such, the layer separation method of a flexible display according to the present invention can reuse not only the separated glass substrate but also the display panel, which has the effect of reducing the manufacturing cost of the flexible display.

Referring to Figures 5 and 6, the layer separation method of the flexible display according to the second embodiment of the present invention is (2) irradiating an excimer laser beam 41 from an excimer laser device 40 (Excimer Laser), as shown in Figure 5 As shown, the glass substrate 12 is attached to the display panel 11 by ablating the upper surface 13b of the OCA film 13 sandwiched between the glass substrate 11 and the display panel 12. Except for the separation (S220), it is the same as the layer separation method of the flexible display according to the second embodiment of the present invention.

As a result, the OCA film 13 remains on the upper surface 11b of the display panel 11.

In the above description, ablating the lower surface 13a or upper surface 13b of the OCA film 13 by irradiating the excimer laser beam 41 from the excimer laser device 40 (Excimer Laser) is performed using the excimer laser beam ( This can be easily solved by adjusting the focus of 41).

As described above, the present invention has been described in terms of specific details such as specific components and limited embodiments, but this is only provided to facilitate a more general understanding of the present invention, and the present invention is not limited to the above embodiments. Anyone with ordinary knowledge in the field to which the invention pertains can make various modifications and variations from this description.

Accordingly, the spirit of the present invention should not be limited to the described embodiments, and the scope of the patent claims described below as well as all modifications that are equivalent or equivalent to the scope of this patent claim shall fall within the scope of the spirit of the present invention. .

10: Flexible display 11: Display panel
12: Glass substrate 13: OCA film
20: carrier film 30: work table
40: excimer laser device

Claims (5)

In a state where the upper surface 11b of the display panel 11 is bonded to the glass substrate 12 through the OCA film 13, the lower surface 11a of the display panel 11 is bonded to the carrier film 20. Step S110 and,
In the process of the display panel 11 being bonded to the carrier film 20 and transported by the carrier film 20, the excimer laser device 40 irradiates the excimer laser beam 41 to form the glass substrate 11 and Comprising a step (S120) of separating the glass substrate 12 from the display panel 11 by ablating the lower surface 13a of the OCA film 13 interposed between the display panels 12. Featured layer separation method of flexible display.
In a state where the upper surface 11b of the display panel 11 is bonded to the glass substrate 12 through the OCA film 13, the lower surface 11a of the display panel 11 is bonded to the carrier film 20. Step (S210) and,
In the process of the display panel 11 being bonded to the carrier film 20 and transported by the carrier film 20, the excimer laser device 40 irradiates the excimer laser beam 41 to form the glass substrate 11 and Characterized by comprising a step (S220) of separating the glass substrate 12 from the display panel 11 by ablating the upper surface 13b of the OCA film 13 interposed between the display panels 12. How to separate layers of a flexible display.
The method of claim 1 or 2,
The glass substrate 12 separated from the display panel 11 is transferred to the tray 50, and the display panel 11 from which the glass substrate is separated is wound on the winding roll 22 by the carrier film 20. A method of separating layers of a flexible display.
According to claim 1,
In the step (S120) of separating the glass substrate 12 from the display panel 11 by ablating the lower surface of the OCA film 13 with the excimer laser beam 41,
A layer separation method for a flexible display, characterized in that the OCA film (13) remains on the lower surface of the glass substrate (11).
According to claim 2,
In the step (S220) of separating the glass substrate 12 from the display panel 11 by ablating the upper surface of the OCA film 13 with the excimer laser beam 41,
A layer separation method for a flexible display, characterized in that the OCA film (13) remains on the upper surface of the display panel (11).

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