KR101959216B1 - Apparatus for back lighting alignment mark for thaw of COF flexible display panel - Google Patents

Abstract

The present invention relates to a flexible display panel for facilitating identification of an alignment mark by irradiating a backlight when photographed through a camera so that an alignment mark for aligning a position of the flexible display panel with a COF can be clearly displayed, (COF), comprising: a backlight irradiating part formed on a side of a laser irradiating part for fusing a flexible display panel and a COF (Chip On Flexible Printed Circuit) to irradiate a back light to the laser irradiating part side; And a mirror portion formed diagonally on one side of the COF to reflect the backlight of the backlight irradiating portion in the vertical direction and irradiate the COF with the flexible display panel when the flexible display panel and the COF are fused via the laser irradiating portion, Laser And the alignment mark is illuminated through the backlight so that the camera formed on the lower side of the irradiating unit can easily match when the photographing is confirmed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a COF flexible display panel and a COF flexible alignment display backlight device,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a flexible display panel and a COF fused alignment mark backlight device, and more particularly, The present invention relates to a flexible display panel and a COF fused alignment marking backlight device which can easily confirm an alignment mark by illuminating a backlight when photographed through a COF.

In general, a display panel control circuit board is connected to one side of a display panel or a flexible display panel, and the circuit board uses a laser to fuse the panel and the circuit board.

At this time, in order to fuse the panel and the circuit board, the alignment marks are formed on both sides, and the image of the camera confirms whether or not the aligned alignment marks are normally crossed.

However, when the conventional alignment mark is photographed, there is a problem that the alignment mark can not be clearly identified due to the foreign matter remaining on the panel or the circuit board, the amount of the surrounding light, or the gas generated when the panel and the circuit board are fused.

The prior art is related to a processing apparatus and a processing method using a laser light source, and describes an ACF bonding process using a line-shaped laser beam or a laser processing apparatus and a processing method using a line beam for cutting a wiring.

However, the prior art has a problem in that the alignment mark is not clearly identified due to the foreign matter remaining on the panel or the circuit board, the light quantity around the panel, or gas generated when the panel and the circuit board are fused.

Prior Patent: Korean Patent Registration No. 10-0887947 (Mar. 03, 2009)

The present invention relates to a flexible display panel for facilitating identification of an alignment mark by irradiating a backlight when photographed through a camera so that an alignment mark for aligning a position of the flexible display panel with a COF can be clearly displayed, And to provide a fused alignment mark backlight device of COF.

According to an aspect of the present invention, there is provided a flexible display panel and a COF fused alignment mark backlight device, which are spaced apart from each other at one side of a laser irradiation unit for fusing a COF (Chip On Flexible Printed Circuit) And a mirror part formed diagonally on one side of the laser irradiation part to reflect the backlight to the irradiation part side and reflect the backlight of the backlight irradiation part in the vertical direction so as to fuse the COF with the flexible display panel through the laser irradiation part The alignment mark formed on the flexible panel and the COF is illuminated through the backlight so that the alignment mark formed on the flexible panel and the COF can be easily matched with the camera formed on the lower side of the laser irradiation unit.

The mirror unit is pivoted according to the angle of the backlight irradiated by the backlight irradiating unit, and is rotated in the left and right direction and the horizontal direction through the pivot body so that the backlight is vertically irradiated. The pivot body is coupled with the driving body, And the angle of the backlight of the backlight irradiating part is adjusted by rotating the pivoting body through the light amount according to the angle so as to irradiate the vertical direction of the alignment mark.

And the backlight irradiating unit converts the color of the backlight irradiated when it is difficult to distinguish the alignment mark from the image photographed through the camera.

The present invention has the effect of facilitating identification of an alignment mark by irradiating a backlight when photographed through a camera so that an alignment mark for aligning positions for alignment of a flexible display panel and a COF can be clearly displayed.

Further, the reflector, which reflects the backlight and is irradiated in the vertical direction near the alignment mark, is rotated through the rotary body to adjust the angle, thereby illuminating the vicinity of the alignment mark.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall configuration diagram of a flexible display panel and a COF fused alignment mark backlight device according to an embodiment of the present invention; FIG.
2 is an enlarged view of a portion "A" in Fig. 1 according to the present invention.
Figure 3 is a view showing a portion "B" according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings. The embodiments of the present invention are intended to illustrate an embodiment of the present invention, and the scope of the present invention is not limited to the illustrated embodiment, and the illustrated drawings are enlarged only for the key contents for clarity of design, And shall not interpret it.

FIG. 1 is an overall view of a flexible display panel and a COF fused alignment mark backlight device according to an embodiment of the present invention. The backlight illumination unit 20 and the laser irradiation unit 20, which are spaced apart from one side of the laser irradiation unit 10, And a mirror unit 30 formed diagonally on one side of the backlight irradiating unit 20 and reflecting the backlight 1 of the backlight irradiating unit 20 in the vertical direction.

FIG. 2 is an enlarged view of a portion "A" of FIG. 1 according to the present invention, and FIG. 3 is a view showing a portion "B" according to the present invention.

1 and 2, the laser irradiation unit 10 fuses a flexible display panel 1 and a chip on flexible printed circuit (COF) 2 and fuses the flexible display panel 1 and the COF 2 The alignment mark j formed on the flexible display panel 1 and the COF 2 is aligned and aligned through the camera 40 on the lower side so as to be aligned in the fixed position at the time of fusion, .

The gas generated when the other flexible display panel 1 and the COF 2 are welded together when the alignment mark is taken by the camera 40, the foreign matter remaining on the surfaces of the flexible display panel 1 and the COF 2, The alignment mark (j) is not clearly visible due to the insufficient amount of light in the periphery, so that the alignment mark (j) can not be matched.

This causes defects in the fusion process of the flexible display panel 1 and the COF (2).

In order to prevent such defects, a backlight irradiating portion 20 is formed on one side of the laser irradiating portion 10 so as to irradiate the backlight 1 with a space therebetween.

The backlight irradiating unit 20 is formed such that the irradiator irradiated with the backlight 1 is spaced apart from the laser irradiating unit of the laser irradiating unit 10 at a predetermined interval and the light quantity of the backlight 1 and the irradiation angle And the operating body 21 can be controlled through the control of the connected control unit or can be manually controlled.

The backlight 1 of the backlight irradiating unit 20 is formed so that the color can be changed and is positioned below the laser irradiation unit 10 to photograph the alignment mark j of the COF 2 and the flexible display panel 1 The camera 40 can illuminate the backlight l by changing the color so that the alignment mark j can be clearly identified without being affected by the surrounding environment.

The mirror unit 30 reflects the backlight 1 irradiated from the backlight irradiating unit 20 and reflects the backlight 1 downward in the vertical direction and the backlight 1 reflected by the reflector 31, and a pivoting body 32 that rotates in the left and right directions and in the horizontal direction through the pivoting body 32 so as to vertically irradiate the light beam I.

The rotary body 32 rotates the rotary body 32 through the amount of light according to the angle of light captured by the camera 40 by the driving body 33 so that the angle of the backlight 1 of the backlight irradiating unit 20 is (J) side in the vertical direction.

3, when the rotary body 32 is driven by the driving body 33, the rotary body 32 is operated by the camera 40, It is confirmed that the angle of the backlight 1 of the backlight irradiating unit 20 is changed in the case where the alignment mark j formed at the fused portion between the flexible display panel 1 and the COF 2 is not clearly visible through the image, And the reflector 31 reflects the backlight 1 to be irradiated in the vertical direction close to the alignment mark.

The control unit is connected to the camera 40, the driving unit 33 and the backlight irradiating unit 20 and controls the backlight irradiating unit 20 through the control signal according to the position of the alignment mark j photographed by the camera 40, And adjusts the angle of the reflector 31 by rotating the rotary body 32 through the driving body 33 when the angle of the backlight 1 is changed and the light amount is insufficient.

If the confirmation of the alignment mark j is not confirmed in the image taken by the camera 40, the control unit changes the backlight 1 color of the backlight irradiating unit 20 to reflect the alignment mark j, ) Is easy to identify.

The present invention configured as described above has an effect of making it easy to confirm the alignment mark by irradiating the backlight when photographed through the camera so that the alignment mark for aligning the position for the fusion of the flexible display panel and the COF can be clearly displayed .

Further, the reflector, which reflects the backlight and is irradiated in the vertical direction near the alignment mark, is rotated through the rotary body to adjust the angle, thereby illuminating the vicinity of the alignment mark.

The flexible display panel and the COF fused alignment mark backlight device are not limited to the configuration and operation of the embodiments described above. The embodiments may be configured so that all or some of the embodiments may be selectively combined so that various modifications may be made.

1: Flexible display panel 2: COF
l: backlight j: alignment mark
10: Laser irradiation part
20: Backlight irradiation part 21:
30: mirror part 31: reflector
32: rotary body 33:
40: camera

Claims (3)

A backlight irradiating portion formed at one side of the laser irradiating portion 10 for fusing the flexible display panel 1 and the chip on flexible printed circuit 2 to irradiate the back light 1 to the laser irradiating portion 10 side 20) and
And a mirror unit 30 formed diagonally on one side of the laser irradiation unit 10 and reflecting the backlight 1 of the backlight irradiating unit 20 in a vertical direction,
The alignment mark j formed on the flexible panel and the COF 2 when the flexible display panel 1 and the COF 2 are fused via the laser irradiation unit 10 is formed on the lower side of the laser irradiation unit 10 The alignment mark j is illuminated through the backlight l so as to easily match when the camera 40 confirms the photographing,
The mirror unit 30 is pivoted according to the angle of the backlight 1 irradiated from the backlight irradiating unit 20 so that the mirror unit 30 is rotated in the left and right directions and the horizontal direction through the pivot member 32 so that the backlight 1 is vertically irradiated The driving unit 33 is coupled to the rotary body 32 so that the rotary body 32 is rotated through the amount of light according to the angle of the light captured by the camera 40 to cause the backlight 1 of the backlight irradiating unit 20 to rotate, Wherein the alignment mark (j) is irradiated in the vertical direction by adjusting the angle of the alignment mark (j).
delete The method according to claim 1,
Wherein the backlight irradiating unit (20) converts the color of the backlight (l) irradiated when it is difficult to distinguish the alignment mark (j) from the image photographed through the camera (40) COF's fused alignment mark backlight unit.

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