KR20200052769A - Separation system between flexible display and driver module - Google Patents

Abstract

According to the present invention, a device for separating a flexible display and a driver module includes: a main body unit having a concave part formed in a top surface of the main body unit and in which the flexible display, a drive IC, and a FPCB, which are to be separated from each other, are arranged, and including a cover which covers the top surface; a suction unit for fixing the flexible display, the drive IC, and the FPCB to the concave part by a vacuum pressure formed at suction ports of the concave part; a heating unit for heating and softening anisotropic conductive film (ACF) connection parts of the flexible display and the drive IC and ACF connection parts of the drive IC and the FPCB; an electrically-driven wire driving unit for separating the softened ACF connection parts of the drive IC and the FPCB from each other; an electrically-driven pusher driving unit for separating the drive IC from the softened ACF connection parts of the flexible display and the drive IC; and a control unit having a plurality of switches disposed on a front surface of the main body unit, configured to control a suction operation of the suction unit through operating the switches, configured to control a heating operation of the heating unit, and configured to adjust an operation of the wire driving unit and the pusher driving unit, so that the drive IC and the FPCB are automatically separated from the flexible display without directly using a hand of an operator. According to the present invention, work efficiency is significantly improved, and a recycling rate of normal components is significantly increased.

Description

Separation system between flexible display and driver module {Separation system between flexible display and driver module}

The present invention relates to a device for separating a drive IC and an FPCB from a flexible display, for example, an OLED panel for a mobile phone, and more specifically, by not separating component parts using a hand directly by an operator, the electrostatic furnace To prevent damage to the component parts caused by, and to easily separate the driver module, that is, the drive IC and / or the FPCB from the OLED panel, to the flexible display and driver module separation device that can greatly increase the recycling rate of normal components. It is about.

In general, a flexible display device refers to a display device capable of displaying visual information even when folded or bent as a display is formed on a flexible substrate rather than a thick glass substrate.

Examples of the flexible substrate applied to the flexible display device include a plastic substrate made of an organic material, a substrate having a stacked structure of organic and inorganic materials, and a substrate including a metal such as thin stainless steel or aluminum.

[0004] A flexible display applied to the flexible display device includes a Cholesteric LCD,

Examples include PDLC (Polymer Dispersed Liquid Crystal), Electrophorectic device, and organic light emitting device (OLED).

For example, OLED panels have been recently used as flexible displays in mobile phones.

[0006] As an example of such a flexible display device, “Flexible display device and manufacturing method thereof” of Korean Patent Publication No. 10-2007-0071442 is proposed.

In addition, the "flexible display device" of Republic of Korea Patent Publication No. 10-2008-0065738 is also proposed.

Such flexible display devices, in the case of a mobile phone, have, for example, an OLED panel and a driver IC and an FPCB that are driver modules connected thereto.

The structures of the conventional OLED panel 10, the drive IC 20, and the FPCB 30 related thereto are exemplarily illustrated in FIGS. 1A and 1B.

The flexible display device 1 is installed on one side of the FPCB 30 and the FPCB 30 connecting the OLED panel 10 and a controller (not shown), and the controller (not shown) By converting and transmitting the control signal applied from the pixel signal, the drive IC 20 is configured to include a screen on the OLED panel 10.

In addition, in such a flexible display device 1, between the OLED panel 10 and the drive IC 20, and between the drive IC 20 and the FPCB 30, ACF made of an anisotropic conductive adhesive film, respectively (Anisotropic Conductive Film) The connecting parts (40, 50) are interposed to connect the components with electricity.

Therefore, the ACF connection portion 40, 50 is electrically connected between the OLED panel 10 and the drive IC 20, and between the drive IC 20 and the FPCB 30, respectively, It is configured to soften when heat is applied to separate between the OLED panel 10 and the drive IC 20 and between the drive IC 20 and the FPCB 30.

The flexible display device 1 may have a failure in the driver module, that is, the drive IC 20, or the FPCB 30 during use of the product. When a failure occurs in this way, the damaged driver Since only the module cannot be replaced and the entire flexible display device 1 is discarded, there is a problem in that the cost of repairing the flexible display device 1 cannot be reduced.

In order to solve this problem, by separating the OLED panel 10, the drive IC 20, and the FPCB (30) from each other, to reuse the available OLED panel 10 and / or FPCB (30) I was trying

However, these components are very weak in structural strength and are very electrically sensitive, so the operator cannot handle the product by hand, and only uses the vacuum inhaler to drive the corresponding OLED panel 10, After fixing the IC 20 and the FPCBs 30 firmly, the process was performed by applying heat to separate each other without generating static electricity by hand.

Therefore, by the conventional manual operation, the working speed is lowered, and a problem in that the recycling rate of normal components is lowered.

The object of the present invention is to solve the conventional problems as described above, by preventing the separation of the component parts by using the operator's hands directly to separate the component parts due to static electricity, it is easy to drive from the OLED panel By providing an automatic separation of the IC and / or FPCB, the present invention provides a separation device for a flexible display and a driver module that greatly improves work efficiency and greatly increases the recycling rate of normal components.

In order to achieve the above object, the present invention, in the device for separating the drive IC and FPCB from the flexible display, made of a hollow box-shaped structure, the flexible display, drive IC and FPCB to be separated on the upper surface Is disposed, the main body portion is formed with a cover covering the upper surface; A plurality of suction ports are formed on the upper surface of the main body, and suction pressure is formed on the suction ports to fix the flexible display, the drive IC, and the FPCB with vacuum pressure; A heating unit having a heater block for heating and softening the ACF connection portion of the flexible display and the drive IC and the ACF connection portion of the drive IC and FPCB; A wire driving unit separating the drive IC in the softened state by the heating unit and the ACF connecting portions of the FPCB from each other; And a pusher driver for separating the drive IC from the flexible display in the softened state and the ACF connection portion of the drive IC.

According to another embodiment of the present invention, in the device for separating the drive IC from the flexible display, made of a hollow box-shaped structure, the flexible display and the drive IC to be separated is disposed on the upper surface, A body part having a cover covering the upper surface; A plurality of suction ports are formed on the upper surface of the main body, and suction pressure is formed on the suction ports to fix the flexible display and the drive IC to vacuum pressure; heating the ACF connecting portions of the flexible display and the drive IC, respectively. A heating unit having a heater block for softening; a pusher driving unit for separating the drive IC from the ACF connection portion of the flexible display and the drive IC in the softened state; And the pusher driving unit is configured to push the drive IC from the ACF connection portion of the flexible display and the drive IC in the softened state while the pusher moves, to roll and separate the drive IC.

According to another embodiment of the present invention, in the device for separating the FPCB from the flexible display and drive IC, made of a hollow box-shaped structure, the flexible display, drive IC and the upper surface to be separated FPCB is disposed, the body portion is formed with a cover covering the upper surface; A plurality of suction ports are formed on the upper surface of the main body, and suction pressure is formed on the suction ports to fix the flexible display, the drive IC, and the FPCB with vacuum pressure; A heating unit having a heater block for heating and softening the ACF connecting portion of the drive IC and the FPCB; And a wire driving unit separating the drive IC in the softened state by the heating unit and the ACF connecting portions of the FPCB from each other.

According to the present invention, the flexible display (OLED panel) fixed to the main body by vacuum adsorption, softens the drive IC and the FPCB into a plurality of heater blocks, and automatically drives through the electrically driven wire drive in the softened state. Separate the ACF connections of the IC and the FPCB from each other, and after separating the FPCB from the drive IC, separate the drive IC from the ACF connection of the soft display and the flexible display in the softened state by using an electric-driven pusher driver. do.

Therefore, according to the present invention, the operator does not directly separate components using hands, thereby preventing damage to components due to static electricity, and easily separating drive ICs and FPCBs automatically from flexible displays. By being able to, the working efficiency is greatly improved, and an improved effect can be obtained that can significantly increase the recycling rate of normal components.

Or, according to the present invention, the operator can selectively and easily separate the drive IC and / or FPCB from the OLED panel, and can be used for various separation operations and uses of the flexible display device.

1A is a plan view schematically showing a combined structure of an OLED panel, a drive IC, and an FPCB to which the present invention is applied.
1B is a side cross-sectional view taken along line AA schematically showing a combined structure of an OLED panel, a drive IC, and an FPCB to which the present invention is applied.
Figure 2 is an external perspective view showing the entire separation device of the flexible display and the driver module of the present invention.
3A shows that the upper heater blocks move toward the lower heater block in the heating unit provided in the separation device of the flexible display and driver module of the present invention, and the ACF connection portion of the OLED panel and the drive IC, and ACF connection of the drive IC and FPCB. It is an operation explanatory diagram showing a state where each part is matched and positioned.
3B is an operation explanatory diagram showing an upward movement state in which the upper heater blocks are separated from the lower heater block in the heating unit provided in the separation device of the flexible display and driver module of the present invention.
4 is an external perspective view showing an exemplary schematic configuration of a wire driver provided in a separation device of a flexible display and a driver module of the present invention.
5 is an operation explanatory diagram showing a state in which the wire of the wire driving unit provided in the separation device of the flexible display and driver module of the present invention passes through the ACF connecting portion of the drive IC and the FPCB.
6 is an external perspective view showing an exemplary schematic configuration of a pusher driving unit provided in a separation device of a flexible display and a driver module of the present invention.
7 is an operation explanatory diagram showing a state in which the pusher of the pusher driving unit provided in the separation device of the flexible display and driver module of the present invention separates the drive IC from the OLED panel while moving forward.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the drawings.

The separation device 100 of the flexible display and the driver module of the present invention is for separating the drive IC 20 and the FPCB 30 from the flexible display (hereinafter simply referred to as "OLED panel") 10. Device.

The separation device 100 of the flexible display and the driver module of the present invention includes a body portion 110 made of a hollow box-like structure, as shown in whole in FIG. 2.

The body portion 110, such as the OLED panel 10, the drive IC 20 and the FPCB 30 to be separated on the upper surface is formed with a concave portion 112 is formed, the upper surface Cover 120 is provided.

That is, such a body portion 110 is provided with a hinge 114 on one side of the rear to rotatably fix one edge of the cover 120, the cover 120 is the top surface of the body portion 110 The hinge 114 is rotated around to cover the concave portion 112 of the upper surface.

And, such a body portion 110 is provided with a pair of LM guides (116a, 116b) on one side of the upper surface thereof, a pair of wire support rods of the wire drive unit 150 described in more detail later Guides 158a and 158b move linearly left and right.

In addition, the main body portion 110 is formed with a guide groove 118 in the front-rear direction in the center thereof, the guide groove 118 is a pusher (P) of the pusher driving unit 160 described in more detail later Is guided to move back and forth in a straight line, and the cover 120 is also provided with an incision groove 124 in parallel with the guide groove 118 so that the pusher P of the pusher driving unit 160 moves back and forth linearly. It is supposed to.

And, the separation device 100 of the flexible display and the driver module of the present invention, the adsorption unit for fixing the OLED panel 10, the drive IC 20 and the FPCB 30 to the recess 112 ( 130, the suction port 130 is a plurality of suction ports 132 are formed in the concave portion 112, the vacuum pressure is formed in the suction port 132, respectively.

That is, the adsorption unit 130 is a vacuum tube (not shown) is connected to each suction port 132 from a suction pump (not shown) or a vacuum tank (not shown), the control unit described later ( Vacuum pressure is applied to each suction port 132 through the operation of the switch 182 of the 180).

If the OLED panel 10, the drive IC 20 and the FPCB 30 are placed on the concave portion 112 of the main body 110 and vacuum pressure is applied, the OLED panel 10, the drive The IC 20 and the FPCB 30 are fixed in close contact with the recess 112 and can be freely separated by releasing the vacuum pressure.

And, the present invention is the ACF connection portion 40 of the OLED panel 10 and the drive IC 20 fixed to the recess 112 of the body portion 110, and the drive IC 20 and FPCB Each of the ACF connecting parts 50 of 30 is provided with heating parts 140 for heating and softening each through electricity supply.

This heating unit 140 is provided with a plurality of heater blocks (142a, 142b), as shown in Figure 2, a certain distance from each other inside the concave portion 112 of the body portion 110 And a pair of lower heater blocks 142b separated from each other, and a pair of upper heater blocks 142a formed on the cover 120 at positions corresponding to the pair of lower heater blocks 142b, respectively.

The upper and lower heater blocks 142a and 142b are ACF connection of the OLED panel 10 and the drive IC 20 by pairing the upper and lower pairs, respectively, as shown in FIGS. 3A and 3B. Located in portions 40, and ACF connection portions 50 of drive IC 20 and FPCB 30, respectively.

Upper and lower heater blocks (142a, 142b) as such, the upper heater block 142a is moved to the lower heater block 142b by the downward rotation operation of the cover 120, the cover 120 is the main body 3A, the ACF connection portion 40 of the OLED panel 10 and the drive IC 20 and the ACF connection portion of the drive IC 20 and the FPCB 30, as shown in FIG. 3A. It is located in accordance with each of 50.

In this state, when electricity is applied to the upper and lower heater blocks 142a and 142b to generate heat, the ACF connecting portions 40 and 50 are warmed to a softened state that can be separated from each other.

And, after such a warming operation, if the cover 120 is lifted from the main body 110, as shown in Figure 3b, the upper heater block (142a) are lower heater block (142b) to the upper side Can be heard and separated.

As described above, the present invention, the upper and lower heater blocks (142a, 142b) are each paired with the OLED panel 10 and the ACF connection portion 40 of the drive IC 20, and the drive IC 20 and Since it heats the ACF connecting portion 50 of the FPCB 30, it is also suitable for various purposes in the structure of the OLED panel 10, drive IC 20, and FPCB 30 of different sizes or sizes. The heat transfer is easy from the bottom, so the ACF connection parts 40 and 50 can be softened easily.

In addition, the present invention is provided with an electric-driven wire driving unit 150 for separating the ACF connecting portion 50 of the drive IC 20 and the FPCB 30 in the softened state.

2, the wire driving unit 150 is configured to be able to move left and right within the L-M guides 116a, 116b of the main body 110, and the drive IC in a softened state ( 20) is provided with a wire (W) passing through the ACF connection portion 50 of the FPCB 30 to separate the drive IC 20 and the ACF connection portion 50 of the FPCB 30 from each other.

Such a wire drive unit 150, as illustrated in FIG. 4 by way of example, is provided with a first motor 152 capable of forward and reverse rotation inside the main body 110, such as A first drive screw 154 is mounted on the rotation shaft of the first motor 152, and a pair of wire support rods 158a and 158b are connected to the first drive screw 154 through a first nut part 156. do.

In addition, the pair of wire support rods (158a, 158b) is connected to the wire (W) from the outside of the body portion 110, the upper end extending to the upper surface of the body portion 110, the wire (W) is, as shown in Figure 5, the upper surface of the main body 110, the drive IC 20 and the FPCB 30 of the ACF connecting portion 50 through the height to be able to move left and right to be possible Is placed. Such a wire (W) is preferably a tungsten wire having high heat resistance and corrosion resistance and high strength.

And, the present invention is provided with an electrically driven pusher driver 160 for separating the drive IC 20 from the ACF connecting portion 40 of the OLED panel 10 and the drive IC 20 in a softened state. .

As shown in FIG. 2, the pusher driving unit 160 may move back and forth within the central guide groove 118 of the main body 110 and the cutting groove 124 of the cover 120. It is provided with a configured pusher (P), by pushing the drive IC 20 from the OLED panel 10 to separate.

In addition, the pusher driving unit 160 is provided with a second motor 162 capable of forward and reverse rotation in the interior of the main body portion 110, as exemplarily shown in FIG. 2 A second drive screw 164 is mounted on the rotation shaft of the motor 162.

And, the second drive screw 164 is connected to the pusher (P) of the bending lever shape through the second nut portion 166, the upper end of the pusher (P) of the body portion 110 Extending to the upper surface, as shown in FIG. 7, by being located on the side of the drive IC 20 on the upper surface of the main body 110, pushing the drive IC 20 from the OLED panel 10 forward and backward to separate it do.

The pusher driving unit 160 is separated from the drive IC 20 from the OLED panel 10 after the FPCB 30 is separated from the drive IC 20 by the wire driving unit 150. Order.

That is, the pusher driving unit 160 separates and removes the FPCB 30 from the drive IC 20, and then removes the IC (not shown) from the film of the drive IC 20 to separate and then pusher ( As P) moves, the drive IC 20 in the form of a film is pushed from the OLED panel 10 and rolled to separate it (see FIG. 7).

Meanwhile, the present invention includes a control unit 180 disposed on the front surface of the main body unit 110.

This control unit 180 is provided with a plurality of switches 182 on the front of the body portion 110, such switches 182 are suction operation of the suction unit 130 through the user's pressing operation , And controls the heating operation of the heating unit 140, and controls the operation of the wire driving unit 150 and the pusher driving unit 160.

That is, the control unit 180 controls the vacuum pressure of the suction port 132 of the suction unit 130 through the operation of the switch 182, respectively.

In addition, the control unit 180 controls the heating temperature by controlling the power supply to the heater blocks 142a, 142b of the heating unit 140, and the first motor 152 of the wire driving unit 150 By controlling the forward and reverse rotation, the tungsten wire W is moved to the left and right to control the ACF connecting portion 50 of the drive IC 20 and the FPCB 30 to be separated.

Alternatively, the control unit 180 controls the forward and reverse rotation of the second motor 162 of the pusher driving unit 160 while the pusher P moves forward and backward, driving IC from the OLED panel 10 ( 20) is controlled by pushing the separation in the front-rear direction.

The separation device 100 of the flexible display and the driver module of the present invention configured as described above, without an operator directly using the hand, automatically drives IC 20 and FPCB 30 from the OLED panel 10 ).

First, the operator opens the cover 120 from the main body 110 to the upper side, and then uses a separate vacuum adsorber (not shown) to separate the OLED panel 10, drive IC 20 and The FPCB 30 is placed on the concave portion 112 on the body portion 110.

And, in this state, when applying a vacuum pressure to the suction port 132 of the adsorption unit 130 through the operation of the switch 182 of the control unit 180, the OLED panel 10 to be separated, drive The IC 20 and the FPCB 30 are firmly fixed to the recess 112.

In this state, when the cover 120 is covered over the body portion 110, as shown in Figure 3a, the upper heater block (142a) is moved downward to the lower heater block (142b) therebetween The ACF connection portion 40 of the OLED panel 10 and the drive IC 20 and the ACF connection portion 50 of the drive IC 20 and the FPCB 30 are positioned.

In this state, when the user operates the switch 182 of the control unit 180, electricity is applied to the upper and lower heater blocks 142a and 142b to generate heat, and the ACF connection part 40 , 50) are heated in a softened state that can be separated from each other.

And, in this state, the user operates the switch 182 of the control unit 180 to operate the wire driving unit 150.

Therefore, the wire drive unit 150 is a pair of wire support rods 158a, 158b and tungsten wires W moving from side to side by operation of the first motor 152, as shown in FIG. 5, The drive IC 20 in the softened state and the ACF connecting portion 50 of the FPCB 30 pass through, and the drive IC 20 and the FPCB 30 are completely separated from each other.

When the drive IC 20 and the FPCB 30 are separated from each other in this way, the cover 120 is lifted to lift the separated FPCB 30, and in this state, the IC is removed from the film of the drive IC 20 After separation, the user operates the pusher driving unit 160 through the operation of the switch 182 of the control unit 180.

Therefore, the pusher driving unit 160, as shown in Figure 7, pusher (P) while moving forward to push the drive IC 20 in the form of a film from the OLED panel 10 to be separated by rolling in a circle do.

At this time, since the OLED panel 10 is in a state in which vacuum pressure is applied to the suction port 132, it is maintained in close contact with the concave portion 112 of the main body portion 110, and the drive is separated by rolling in a circle. When the IC 20 is lifted, only the OLED panel 10 remains.

And, in this state, the vacuum pressure is released from the suction port 132, and the OLED panel 10 is collected from the main body 110.

According to the present invention as described above, the operator can easily and easily separate the drive IC 20 and the FPCB 30 from the OLED panel 10 without manually separating the component parts using the hand. .

Therefore, according to the present invention, the work efficiency of separating the drive IC 20 and the FPCB 30 from the OLED panel 10 is greatly improved, as well as significantly increasing the recycling rate of normal components without damage due to static electricity. It is possible to obtain an excellent effect.

The present invention has been described in detail with reference to the drawings with reference to the specific embodiments, but the present invention is not limited to such specific structures. Those of ordinary skill in the art will be able to variously modify or change the present invention without departing from the technical spirit and scope of the present invention as set forth in the claims below. For example, the first and second motors 152 and 162, the first and second driving screws 154 and 164, and the first and second nut portions 156 and 166 may be driven by other driving means, for example. For example, it can be replaced by other linear moving means such as a pneumatic cylinder (not shown). In addition, the upper and lower heater blocks 142a and 142b may be configured one by one only with the upper heater block 142a or the lower heater block 142b. However, it is intended to clarify in advance that all such simple design modification or modification structures fall within the scope of the present invention.

1: Flexible display device 10: OLED panel
20: drive IC 30: FPCB
40, 50: ACF connection
100: flexible display and driver module separation device
110: body portion 112: recessed portion
114: hinge 116a, 116b: LM guide
118: guide groove 120: cover
124: incision groove 130: adsorption unit
132: suction port 140: heating unit
142a, 142b: heater block 150: wire drive
152: first motor 154: first drive screw
156: first nut portion 158a, 158b: wire support rod
160: pusher drive unit 162: second motor
164: 2nd drive screw 166: 2nd nut part
180: control unit 182: switch
P: Pusher W: Wire

Claims (1)

Claim 1
In the device for separating the drive IC and FPCB from the flexible display,
It is made of a hollow box-shaped structure, a flexible display, a drive IC, and an FPCB to be separated are disposed on an upper surface, and a body portion having a cover covering the upper surface is formed;
A plurality of suction ports are formed on the upper surface of the main body, and suction pressure is formed on the suction ports to fix the flexible display, the drive IC, and the FPCB with vacuum pressure;
A heating unit having a heater block for heating and softening the ACF connection portion of the flexible display and the drive IC and the ACF connection portion of the drive IC and FPCB; And a wire driving unit separating the ACF connecting portions of the drive IC and the FPCB softened by the heating unit from each other, wherein the wire driving unit includes a first motor capable of forward and reverse rotation inside the main body unit. , A first drive screw is mounted on the rotation shaft of the first motor, a pair of wire support rods are connected to the first drive screw through a first nut part, and an upper surface of the pair of wire support rods is an upper surface of the main body part. The wire is connected to the outside of the body portion by extending to the wire, the wire is arranged to be able to move left and right to the height passing through the ACF connecting portion of the drive IC and the FPCB from the upper surface of the body portion, the drive IC in the softened state and A flexible display and a driver module separation device characterized by separating the ACF connection of the FPCB.
Claim 2
In the device for separating the drive IC and FPCB from the flexible display,
It is made of a hollow box-shaped structure, a flexible display, a drive IC, and an FPCB to be separated are disposed on an upper surface, and a body portion having a cover covering the upper surface is formed;
A plurality of suction ports are formed on the upper surface of the main body, and suction pressure is formed on the suction ports to fix the flexible display, the drive IC, and the FPCB with vacuum pressure;
A heating unit having a heater block for heating and softening the ACF connection portion of the flexible display and the drive IC and the ACF connection portion of the drive IC and FPCB; And a pusher driver separating the drive IC from the ACF connection portion of the flexible display and the drive IC in the softened state.
The pusher driving unit is provided with a second motor capable of forward and reverse rotation inside the main body, a second drive screw is mounted on the rotation shaft of the second motor, and a lever shape is formed on the second drive screw through a second nut. The pusher of is connected, and the upper end of the pusher extends to the upper surface of the body portion and is located on the side of the drive IC of the upper surface of the body portion, so that after separating the FPCB from the drive IC, the flexible display and drive in the softened state A separation device for a flexible display and a driver module, which is arranged to separate the drive IC from the flexible display by pushing the drive IC forward and backward from the ACF connection portion of the IC.
Claim 3
The separation device of a flexible display and a driver module according to claim 2, wherein the pusher driving unit separates the IC from the film of the drive IC and then separates the IC by pushing the drive IC from the flexible display while the pusher moves.

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