KR20100110501A - Apparatus and method for pre-bonding of the drive integrated circuit - Google Patents

Abstract

PURPOSE: A device and a method for pre-bonding a drive IC(Integrated Circuit) are provided to align a drive IC after checking a location of the drive IC, thereby preventing error about a state of the liquid crystal display panel. CONSTITUTION: A conveyor(11) transfers an LCD(Liquid Crystal Display) panel to a stage(10) in the first direction. A mount head(20) pre-bonds a drive IC of the liquid crystal display panel. A transfer unit(30) transfers the mount head. A camera unit(50) recognizes a location by photographing the drive IC and the LCD panel. The mount head moves between the photographing location and the pre-bonded position.

Description

Apparatus and method for pre-bonding of the drive integrated circuit

The present invention relates to a pressing device for pressing the driving IC to a liquid crystal display panel and a pressing method using the same.

In general, a liquid crystal display device is composed of two display panels on which a field generating electrode is formed and a liquid crystal layer interposed therebetween. Light passing through the liquid crystal layer by rearranging the liquid crystal molecules of the liquid crystal layer by applying a voltage to the electrode is applied. A display device for controlling the transmittance of

The liquid crystal display device includes a liquid crystal display panel in which pixels are arranged to form an image display area, and a driving IC mounted on the liquid crystal display panel to input a driving signal. In this case, in order to mount the driving IC on the liquid crystal display panel, the driving IC may be directly mounted in the gate area and the data area of the liquid crystal display panel or may be mounted through a tape carrier package (TCP) in which the driving IC is mounted.

In the process of mounting the driving IC in the liquid crystal display, anisotropic conductive film (ACF) is attached to the liquid crystal display panel at regular intervals, and the driving IC is pressed against the electrode of the liquid crystal display panel with the anisotropic conductive film. Perform the attachment. Then, the main operation of the driving IC on which the pressing is performed using the thermocompression process is completed.

At this time, the process of press-fitting the driving IC to the liquid crystal display panel first transfers the liquid crystal display panel to the stage, picks up the driving IC using the mount head, and then transfers the driving IC to the upper side of the position attached to the liquid crystal display panel.

When the mount head is moved to the upper side of the liquid crystal display panel, the position of the reference mark of the liquid crystal display panel and the driving IC are checked using the camera unit. Thereafter, the liquid crystal display panel is aligned to an appropriate position according to the result value confirmed by the camera unit.

When the drive IC is positioned in the upper position where the drive IC is to be attached by appropriate position shift of the liquid crystal display panel, the mount head is lowered and the backup unit is raised to attach and drive the drive IC pressed by the mount head to the liquid crystal display panel.

However, in the pressing device of the driving IC which presses the driving IC to the liquid crystal display panel through the above process, after confirming the position of the reference mark and the driving IC of the liquid crystal display panel using the camera unit, the liquid crystal display panel is moved and aligned. As the liquid crystal display panel moves, the state of the liquid crystal display panel during imaging by the camera and the state of the liquid crystal display panel when the driving IC is pressed may cause an error.

One aspect of the present invention is to provide a pressing device of a driving IC which does not generate an error between the state of the liquid crystal display panel during imaging by the camera unit and the state of the liquid crystal display panel when pressing the driving IC.

The pressurizing apparatus of the driving IC includes a stage for supporting a liquid crystal display panel, a conveyor for transporting the liquid crystal display panel toward the stage in a first direction, a mount head for pressing the driving IC to the liquid crystal display panel, A transfer unit for transferring the mount head, and a camera unit for sensing a position of the liquid crystal display panel and the driving IC,

The mount head may be moved between an imaging position captured by the camera unit and a pressing position for pressing the driving IC to the liquid crystal display panel.

The mount head may be moved in a direction parallel to the first direction according to the result recognized by the camera unit when the mount head is moved to the pressing position of the liquid crystal display panel.

The liquid crystal display panel is fixed to the stage during imaging by the camera unit and when pressing the driving IC by the mount head.

The method may further include a pressing member which presses the liquid crystal display panel when the liquid crystal display panel is picked up.

And a backup unit which supports the liquid crystal display panel when the camera unit is picked up and when the driving IC is pressed by the mount head.

The backup unit may be moved from a position captured by the camera unit to a position at which the driving IC is pressed against the liquid crystal display panel.

In the pressing method using the pressing device of the driving IC, the liquid crystal display panel is transferred to the stage by a conveyor, the driving IC is transferred to the imaging position, and the liquid crystal display panel and the driving IC are picked up by the camera unit. Confirm the positions of the liquid crystal display panel and the driving IC, and press the driving IC to the liquid crystal display panel at the imaging position according to the positions of the liquid crystal display panel and the driving IC identified by the camera unit. The driving IC may be aligned to move to the position where the driving IC is aligned, and the aligned driving IC may be pressed onto the LCD panel.

The mount head may be moved in a direction parallel to a direction in which the liquid crystal display panel is transferred to the conveyor in the process of moving the mount head to the position where the driving IC is pressed against the liquid crystal display panel.

The liquid crystal display panel is fixed to the stage during the imaging by the camera unit and the process of pressing the driving IC to the liquid crystal display panel.

As described above, the pressing device of the driving IC does not generate an error in the state of the liquid crystal display panel by moving and aligning the driving IC after the position of the liquid crystal display panel and the driving IC by the camera unit.

Hereinafter, the pressing device of the driving IC will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, the pressing device of the driving IC includes a stage 10 supporting the liquid crystal display panel 110 and an integrated circuit driven on the liquid crystal display panel 110 (see FIG. 2) supported by the stage 10. , The integrated circuit 20 (see FIG. 2).

Conveyors 11 are disposed in the front and rear directions of the stage 10 to transfer the liquid crystal display panel 110 to the pressing operation position of the driving IC 120. In addition, the stage 10 serves to fix the liquid crystal display panel 110 transferred by the conveyor 11 until the pressing operation is completed.

To this end, the stage 10 may be provided with a plurality of vacuum holes (not shown) for adsorbing and fixing the liquid crystal display panel 110. In addition, the stage 10 may be provided with a pre-alignment unit (not shown) for pre-aligning the liquid crystal display panel 110 before fixing the liquid crystal display panel 110 to press-fit.

The pressing part includes at least one mount head 20 for pressing the driving IC 120 to the liquid crystal display panel 110 and a transfer unit 30 for transferring the mount head 20.

The mount head 20 has an adsorption member (not shown) and a drive IC transferred to the press-fitting work position by the transfer unit 30 so as to suck the drive IC 120 supplied from the drive IC supply unit (not shown). An elevating member is provided to elevate and press the 120 to the liquid crystal display panel 110.

The transfer unit 30 may include a linear motor (not shown) and an encoder (not shown) for detecting and feeding back the position of the mount head 20 so as to independently transfer each of the at least one mount head 20. It may be configured to include).

The transfer unit 30 is a liquid crystal display panel by the conveyor 11 to each of the mounting heads 20 at the position of imaging the drive IC 120 by the camera unit 50 (see FIG. 2), which will be described later. It is conveyed in the direction orthogonal to the direction in which 110 is conveyed horizontally, ie, X-axis direction.

In addition, the transfer unit 30 aligns the driving IC 120 by moving the driving IC 120 to a position where the driving IC 120 is pressed against the liquid crystal display panel 110 after the imaging of the driving IC 120 by the camera unit 50. In order to achieve this, the mount head 20 is moved in a direction parallel to the direction in which the liquid crystal display panel 110 is transferred by the conveyor 11, that is, in the Y-axis direction. At this time, the transfer unit 30 moves the mount head 20 in the Y-axis direction using a conventional driving device (not shown).

In addition, the pressure bonding device of the driving IC includes a backup unit 40 supporting the portion pressed by the mount head 20 when the driving IC 120 is attached to the liquid crystal display panel 110, and the liquid crystal display panel 110. It further comprises a camera unit 50 for recognizing the position of the reference mark and the recognition mark of the driving IC (120).

As described above, the backup unit 40 supports the portion pressed by the mount head 20 when the driving IC 120 is pressed onto the liquid crystal display panel 110, and is supported by the camera unit 50. The liquid crystal display panel 110 and the driver IC 120 support the liquid crystal display panel 110 during imaging. At this time, the lifting and horizontal movement of the backup unit 40 is made by a conventional driving device (not shown).

In addition, the pressing IC of the driving IC further includes a pressing member 60 that presses the upper side of the liquid crystal display panel 110 during the imaging by the camera unit 50.

As described above, the camera unit 50 recognizes the position of the reference mark of the liquid crystal display panel 110 and the recognition mark of the driving IC 120. In this case, the liquid crystal display panel 110 and the driving IC 120 are disposed to be spaced apart from each other by a certain portion when the image is captured by the camera unit 50. This is to allow both the reference mark of the liquid crystal display panel 110 and the recognition mark of the driving IC 120 to be recognized by the camera unit 50.

The overall process in which the driving IC is attached to the liquid crystal display panel by the pressing device of the driving IC having the above structure will be described.

First, the liquid crystal display panel 110 is moved to the stage 10 using the conveyor 11. The liquid crystal display panel 110 moved to the stage 10 is pre-aligned by a pre-alignment unit (not shown) and then fixed on the stage 10 by a vacuum hole (not shown).

After that, as shown in FIG. 2, the pressing member 60 is lowered to press the liquid crystal display panel 110, and the backup unit 40 is raised to support a lower portion of the liquid crystal display panel 110 to drive the IC 120. ) Is set in an environment similar to that of press-bonding the liquid crystal display panel 110.

In the process of supporting the liquid crystal display panel 110 using the pressing member 60 and the backup unit 40 as described above, the mount head 20 uses the driving IC 120 supplied from the driving IC supply unit (not shown). The adsorption and transfer unit 30 transfers the mount head 20 on which the driving IC 120 is adsorbed to the position photographed by the camera unit 50, that is, in the X-axis direction.

At this time, the mount head 20 is the liquid crystal display panel by the transfer unit 30 so that both the reference mark of the liquid crystal display panel 110 and the recognition mark of the driving IC 120 can be recognized by the camera unit 50. It is transported to a position spaced apart from the 110.

Next, after confirming the positions of the liquid crystal display panel 110 and the driving IC 120 by the camera unit 50 as shown in FIG. The mount head 20 to which the 120 is adsorbed is transferred to the pressing operation position of the liquid crystal display panel 110. At this time, the mount head 20 is moved upward in the Y-axis direction as shown above.

At the same time, the backup unit 40 is transferred to the position corresponding to the mount head 20 so as to support the portion where the driving IC 120 is attached to the liquid crystal display panel 110. At this time, the backup unit 40 is moved horizontally in the direction in which the mount head 20 is located after being moved downward as shown.

In addition, as shown in FIG. 4, the mount head 20 and the backup unit 40 lower the mount head 20 after the driving IC 120 is moved to the pressing position of the liquid crystal display panel 110. Then, the backup unit 40 is raised to press the driving IC 120 to the liquid crystal display panel 110.

Accordingly, the pressing device of the driving IC includes the reference mark of the liquid crystal display panel 110 and the driving IC 120 by the camera unit 50 in the process of pressing the driving IC 120 to the liquid crystal display panel 110. After checking the recognition mark of the liquid crystal display panel 110 and the driving IC 120 when the camera unit 50 captures the image by transferring and aligning the mount head 20 that absorbs the driving IC 120. When the pressure is fixed, the state of the liquid crystal display panel 110 is the same, so that no error occurs.

In addition, the pressing device of the driving IC presses the upper portion of the liquid crystal display panel 110 by the pressing member 60 in the process of capturing by the camera unit 50 and the liquid crystal display panel by the backup unit 40. As the lower portion of the lower portion 110 is supported, the driving IC 120 is formed in an environment similar to the environment in which the driving IC 120 is pressed against the liquid crystal display panel 110.

1 is a perspective view showing the appearance of the pressing device of the drive IC of the present invention.

2 to 4 are diagrams for explaining the operation of the pressing device shown in FIG.

 <Description of Signs of Major Parts of Drawings>

10: stage 20: mount head

30: transfer unit 40: backup unit

50: camera portion 60: pressing member

110: liquid crystal display panel 120: driver IC

Claims (8)

A stage supporting the liquid crystal display panel, A conveyor for transferring the liquid crystal display panel toward the stage in a first direction; A mount head for pressing and attaching a driving IC to the liquid crystal display panel; A transfer unit for transferring the mount head; A camera unit for sensing a position of the liquid crystal display panel and the driving IC; And the mount head is moved between an imaging position picked up by the camera unit and a pressing operation position for pressing the driving IC to the liquid crystal display panel. The method of claim 1, And the mount head is moved in a direction parallel to the first direction according to a result recognized by the camera unit when the mount head is moved to a pressing position of the liquid crystal display panel. The method of claim 1, And the liquid crystal display panel is fixed to the stage during imaging by the camera unit and upon pressing of the driving IC by the mount head. The method of claim 1, And a pressing member which presses the liquid crystal display panel when the liquid crystal display panel is picked up. The method of claim 1, And a backup unit which supports the liquid crystal display panel when the camera unit is picked up and when the driving IC is pressed by the mount head. And the backup unit is moved from the position picked up by the camera unit to a position at which the driving IC is pressed against the liquid crystal display panel. The liquid crystal display panel is transferred to the stage in the first direction, Transfer the drive IC to the imaging position, The liquid crystal display panel and the driving IC are picked up by a camera unit to check positions of the liquid crystal display panel and the driving IC, According to the positions of the liquid crystal display panel and the driving IC identified by the camera unit, the mount head is moved from an image pickup position to a pressing position where the driving IC is pressed against the liquid crystal display panel. Sort it, And press-fitting the aligned drive IC to the liquid crystal display panel. The method of claim 6, And the mount head is moved in a direction parallel to the first direction in the process of moving the mount head to the pressing operation position on the liquid crystal display panel. The method of claim 6, And the liquid crystal display panel is fixed to the stage during the imaging by the camera unit and the process of pressing the driving IC to the liquid crystal display panel.

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