KR20190059570A - Apparatus for cutting substrate - Google Patents

Abstract

An apparatus for cutting substrate according to an embodiment of the present invention comprises a scribing unit that forms a scribing line on a substrate; a dummy removing unit including a clamp member for holding a dummy portion so as to divide the dummy portion from the substrate along the scribing line formed in the dummy portion of the substrate by the scribing unit; and a cleaning unit for removing foreign matters adhered to the clamp member.

Description

[0001] APPARATUS FOR CUTTING SUBSTRATE [0002]

The present invention relates to a substrate cutting apparatus for cutting a substrate.

In general, a liquid crystal display panel, an organic electroluminescent display panel, an inorganic electroluminescent display panel, a transmissive projector substrate, a reflective projector substrate, and the like used in a flat panel display is a brittle mother glass panel (Hereinafter referred to as "unit substrate") is cut from the substrate 1 to a predetermined size.

The step of cutting the substrate into unit substrates includes a scribing step of forming a scribing line by pressing and moving a scribing wheel made of a diamond-like material along a line along which the substrate is to be cut.

It is necessary to remove a dummy portion (cullet, that is, a non-effective region that is not used as a unit substrate but is discarded after being cut out) that is not included in the unit substrate during the step of cutting the substrate into unit substrates.

For example, in Korean Patent Laid-Open No. 10-2003-0069195, after a scribing line is formed on a glass substrate by using a wheel tip, a cut piece of the liquid crystal mother substrate is held using a chuck provided on a support device, Is separated and discarded.

However, in the conventional configuration, a specific device configuration for removing the dummy portion is not sufficiently presented, and there is a problem that a configuration for effectively controlling the chuck is not presented.

Korean Patent Publication No. 10-2003-0069195

SUMMARY OF THE INVENTION It is an object of the present invention to provide a substrate cutting apparatus capable of efficiently removing a dummy portion from a substrate.

According to an aspect of the present invention, there is provided a substrate cutting apparatus including: a scribing unit that forms a scribing line on a substrate; A dummy removing unit including a clamp member for holding the dummy portion so as to divide the dummy portion from the substrate along the scribing line formed in the dummy portion of the substrate by the scribing unit; And a cleaning unit for removing foreign matter adhered to the clamp member.

The cleaning unit includes: a brush installed so as to be accessible to the clamp member; A brush driver for driving the brush; And a turning module for turning the brush.

The cleaning unit includes: a horizontal drive module for moving the brush in a horizontal direction; And a vertical driving module for moving the brush in the vertical direction.

The cleaning unit comprises: a housing configured to surround the brush and having an opening through which the brush is exposed to the outside; And a gas supply module connected to the housing and supplying gas to the housing.

The cleaning unit comprises: a housing configured to surround the brush and having an opening through which the brush is exposed to the outside; And a vacuum source connected to the housing.

A filter may be provided between the housing and the vacuum source.

The dummy removal unit includes a clamp module including a clamp member; A support for supporting the clamp module; A rotation module for rotating the support about a central axis of the support; A horizontal movement module for moving the support horizontally; And a vertical movement module for vertically moving the support.

A plurality of clamp modules are provided on the support frame and a plurality of clamp modules are installed on the support frame so as to be movable in the longitudinal direction of the support frame so that the interval between the plurality of clamp modules can be adjusted.

The clamp module includes: a base member; A body movably installed with respect to the base member and to which the clamp member is mounted; And a position adjusting unit for moving the body with respect to the base member.

A contact pad may be provided on a surface of the clamp member facing the substrate.

According to the substrate cutting apparatus according to the embodiment of the present invention, when the dummy removing unit removes the dummy portion from the substrate, foreign substances such as debris of the substrate which can be attached to the clamping member can be removed by the cleaning unit. Therefore, it is possible to prevent contamination of the substrate or peripheral parts by foreign substances such as debris of the substrate.

1 and 2 are views schematically showing a substrate cutting apparatus according to an embodiment of the present invention.
3 is a perspective view schematically showing a dummy removing unit of the substrate cutting apparatus according to the embodiment of the present invention.
4 and 5 are views schematically showing a clamp module of a dummy removing unit of a substrate cutting apparatus according to an embodiment of the present invention.
6 is a perspective view schematically showing a clamp module of a dummy removing unit of a substrate cutting apparatus according to an embodiment of the present invention.
7 and 8 are views schematically showing a cleaning unit of a substrate cutting apparatus according to an embodiment of the present invention.
FIGS. 9 to 15 are views sequentially showing operations of the first transfer unit, the scribing unit, the dummy removing unit, and the second transfer unit of the substrate cutting apparatus according to the embodiment of the present invention.

Hereinafter, a substrate cutting apparatus according to an embodiment of the present invention will be described with reference to the accompanying drawings.

The object to be cut by the substrate cutting apparatus according to the embodiment of the present invention may be a bonded substrate having the first substrate and the second substrate bonded together. For example, the first substrate may include a thin film transistor, and the second substrate may include a color filter. Conversely, the first substrate may include a color filter, and the second substrate may include a thin film transistor.

Hereinafter, the adhesion substrate is simply referred to as a substrate, the surface of the first substrate exposed to the outside is referred to as a first surface, and the surface of the second substrate exposed to the outside is referred to as a second surface.

The direction in which the substrate to be cut is to be transported is defined as the Y-axis direction, and the direction perpendicular to the direction in which the substrate is transported (Y-axis direction) is defined as the X-axis direction. A direction perpendicular to the X-Y plane on which the substrate is placed is defined as a Z-axis direction.

1 and 2, a substrate cutting apparatus according to an embodiment of the present invention includes a scribing unit 30, a first feed unit 30 for feeding the substrate S to the scribing unit 30, A second transfer unit 20 for transferring the substrate S from the scribing unit 30 to a subsequent process and a dummy removing unit 40 disposed adjacent to the scribing unit 30, ) And a control unit 90 (see Figs. 4 and 5) for controlling the operation of the components of the substrate cutting apparatus.

The scribing unit 30 is configured to form scribing lines in the X-axis direction on the first and second surfaces of the substrate S, respectively.

The scribing unit 30 includes a first frame 31 extending in the X axis direction, a first scribing head 32 provided movably in the X axis direction on the first frame 31, A second frame 33 extending under the first frame 31 in parallel with the first frame 31 in the X axis direction and a second frame 33 provided movably in the X axis direction on the second frame 33. [ And may include a crybing head 34.

A plurality of first scribing heads 32 may be mounted on the first frame 31 in the X axis direction and a plurality of second scribing heads 34 may be mounted on the second frame 33 in the X axis direction. Can be mounted. A space through which the substrate S passes may be formed between the first frame 31 and the second frame 33. The first frame 31 and the second frame 33 may be fabricated and assembled as separate members, or they may be integrally manufactured.

The first scribing head 32 and the second scribing head 34 may be arranged to face each other in the Z-axis direction.

The first and second scribing heads 32 and 34 may be provided with wheel holders 35 for holding the scribing wheels 351. The scribing wheel 351 mounted on the first scribing head 32 and the scribing wheel 351 mounted on the second scribing head 34 can be arranged to face each other in the Z- have.

A pair of scribing wheels 351 may be pressed against the first and second surfaces of the substrate S, respectively. The first and second scribing heads 32 and 34 are moved relative to the substrate S in a state in which the pair of scribing wheels 351 are pressed against the first and second surfaces of the substrate S, The scribing line can be formed on the first and second surfaces of the substrate S in the X-axis direction.

On the other hand, the first and second scribing heads 32 and 34 can be configured to be movable in the Z-axis direction with respect to the first and second frames 31 and 33, respectively. For this, an actuator using pneumatic or hydraulic pressure between the first and second scribing heads 32, 34 and the first and second frames 31, 33, a linear motor operated by electromagnetic interaction, Or a linear moving mechanism such as a ball screw mechanism may be provided.

As the first and second scribing heads 32 and 34 move in the Z-axis direction with respect to the first and second frames 31 and 33, respectively, a pair of scribing wheels 351 move to the substrate S or may be spaced from the substrate S. By controlling the degree of movement of the first and second scribing heads 32 and 34 in the Z-axis direction, the pressing force applied to the substrate S by the pair of scribing wheels 351 is adjusted . Further, by moving the first and second scribing heads 32 and 34 in the Z-axis direction, the cutting depth of the pair of scribing wheels 351 to the substrate S can be adjusted .

The first transfer unit 10 includes a plurality of belts 11 for supporting a substrate S, a holding member 12 for holding a rear end of the substrate S supported on the plurality of belts 11, A support bar 13 connected to the grip member 12 and extending in the X axis direction, a first guide rail 14 connected to the support bar 13 and extending in the Y axis direction, a scriber unit 30 ) To support the substrate (S) by floating or adsorbing the substrate (S).

The plurality of belts 11 may be spaced from each other in the X-axis direction. Each belt 11 is supported by a plurality of pulleys 111 and at least one of the plurality of pulleys 111 may be a drive pulley that provides a driving force to rotate the belt 11. [

Between the support bar 13 and the first guide rail 14, an actuator using pneumatic or hydraulic pressure, a linear motor operated by electromagnetic interaction, or a linear movement mechanism such as a ball screw mechanism may be provided. Therefore, the substrate S can be transported in the Y-axis direction as the support bar 13 is moved in the Y-axis direction by the linear movement mechanism in a state where the holding member 12 grasps the substrate S. At this time, the plurality of belts 11 can stably support the substrate S while being rotated in synchronism with the movement of the holding member 12.

The gripping member 12 may be a clamp that pressurizes and holds the substrate S. As another example, the holding member 12 may be configured to adsorb the substrate S with a vacuum hole connected to a vacuum source.

The first plate 15 may be configured to float or adsorb the substrate S. For example, on the surface of the first plate 15, a plurality of slots may be formed which are connected to a gas supply source and a vacuum source. When the gas is supplied from the gas supply source to the plurality of slots of the first plate 15, the substrate S may float from the first plate 15. In addition, when the gas is sucked through the plurality of slots of the first plate 15 by the negative pressure formed by the vacuum source, the substrate S can be adsorbed to the first plate 15.

The substrate S can be moved without friction with the first plate 15 with the substrate S lifted from the first plate 15. [ In the process of forming the scribing lines on the first and second surfaces of the substrate S, the substrate S may be adsorbed on the first plate 15 and fixed.

The second transfer unit 20 includes a second plate 25 disposed adjacent to the scribing unit 30 to support or adsorb and support the adsorption substrate S and a second plate 25 adjacent to the second plate 25, And a moving device 26 for moving the second plate 25 and the conveyance belt 21 reciprocally in the Y axis direction. The moving device 26 moves the second plate 25 and the conveyance belt 21 in the Y-axis direction in a reciprocating manner along the second guide rail 24 extending in the Y-axis direction. As the moving device 26, an actuator using pneumatic or hydraulic pressure, a linear motor operated by electromagnetic interaction, or a linear moving mechanism such as a ball screw mechanism may be applied.

The second plate 25 and the conveyance belt 21 may be configured to be movable in the Y-axis direction together. That is, the second plate 25 and the conveyance belt 21 can be configured to move together in a direction (Y-axis direction) parallel to the direction in which the substrate S is conveyed.

When the scribing line is formed on the first and second surfaces of the substrate S by the scribing unit 30, the second plate 25 is moved toward the first plate 15, The first and second scribing heads 32 and 34 can be positioned between the first plate 15 and the second plate 25. Since the second plate 25 is moved toward the first plate 15 when scribing lines are formed on the first and second surfaces of the substrate S by the scribing unit 30, (S) can be stably supported on both the first plate (15) and the second plate (25).

A plurality of conveyance belts 21 may be provided, and a plurality of conveyance belts 21 may be spaced apart from each other in the X axis direction. Each of the conveyance belts 21 is supported by a plurality of pulleys 211 and at least one of the plurality of pulleys 211 may be a drive pulley that provides a driving force for rotating the conveyance belt 21. [

The second plate 25 can be configured to float or adsorb the substrate S. For example, the surface of the second plate 25 may be formed with a plurality of slots connected to a gas supply source and a vacuum source. When the gas is supplied from the gas supply source to the plurality of slots of the second plate 25, the substrate S may float from the second plate 25. Further, when the gas is sucked through the plurality of slots of the second plate 25 by the negative pressure formed by the vacuum source, the substrate S can be adsorbed on the second plate 25. [

During the transfer of the substrate S to the second plate 25, gas is supplied to the slots of the second plate 25, whereby the substrate S is moved without friction with the second plate 25 .

In the process of forming scribing lines on the first and second surfaces of the substrate S, the adsorption substrate S may be adsorbed on the second plate 25 and fixed.

After the scribing lines are formed on the first and second surfaces of the substrate S, the substrate S is attracted to the first plate 15 and the second plate 25, As the plate 25 is moved away from the first plate 15, the substrate S can be divided with respect to the scribing line.

The gas is supplied to the slot of the second plate 25 so that the substrate S is transferred to the second plate 25, As shown in FIG.

3 to 5, the dummy removing unit 40 includes a dummy portion (a cullet, that is, a dummy portion located at the edge of the leading edge of the substrate S and a trailing edge of the substrate S, A non-effective area which is not used as a unit substrate but is discarded after being cut) is gripped and removed from the substrate S.

The dummy removal unit 40 may be disposed between the first transfer unit 10 and the second transfer unit 20. [

The dummy removing unit 40 includes a support base 41 extending in the X axis direction, a clamp module 42 disposed on the support base 41, A horizontal movement module 44 for moving the support base 41 in the Y axis direction and a vertical movement module 43 for moving the support base 41 in the Z axis direction 45).

The rotation module 43 may be constituted by a rotation motor connected to the rotation center shaft of the support table 41 via a rotation shaft. The rotation module 43 may include a power transmission mechanism such as a link or belt provided between the rotation shaft of the rotation motor and the support 41.

The horizontal movement module 44 or the vertical movement module 45 may be configured as a linear motion mechanism such as an actuator using pneumatic or hydraulic pressure, a linear motor operated by electromagnetic interaction, or a ball screw mechanism.

3 shows a configuration in which the rotation module 43, the horizontal movement module 44 and the vertical movement module 45 are provided on both sides of the support stand 41, respectively. The horizontal movement module 44 and the vertical movement module 45 are provided on either side of the support table 41 and the support table 41 is provided on the other side of the support table 41. [ And a guide means for guiding the rotation, the horizontal movement and the vertical movement of the display unit (not shown).

A plurality of clamp modules 42 may be disposed along the X-axis direction along the support table 41. [ The clamp module 42 may be installed movably in the X-axis direction along the guide 411 extending along the support 41. For this, an actuator using pneumatic or hydraulic pressure, a linear motor operated by electromagnetic interaction, or a linear moving mechanism such as a ball screw mechanism may be provided between the clamp module 42 and the guide 411. Therefore, as the plurality of clamp modules 42 are moved in the X-axis direction by the linear movement mechanism, the interval between the plurality of clamp modules 42 can be adjusted. Therefore, the plurality of clamp modules 42 can be arranged to appropriately correspond to the width of the substrate S, so that the substrate S can be stably held.

The clamp module 42 includes a base member 421 detachably coupled to the support base 41, a body 423 movably installed on the base member 421, A pair of clamp members 424 that are moved to move away from each other or are moved apart from each other, and a driver 427 that drives the pair of clamp members 424. [

The base member 421 is detachably fixed to the support base 41 so that the clamp module 42 can be supported by the support base 41. [

The dummy portion of the substrate S can be gripped by the pair of clamp members 424 by moving the pair of clamp members 424 adjacent to each other with the substrate S therebetween. As shown in Figs. 4 and 5, the pair of clamp members 424 can be moved adjacent to each other or spaced apart from each other by being rotated about respective central axes. To this end, a mechanism for converting the driving force from the driver 427 into a rotational force for rotating the pair of clamp members 424 may be provided. However, the present invention is not limited to this configuration, and the pair of clamp members 424 can be configured to move linearly. To this end, a mechanism for converting the driving force from the driver 427 into a driving force for linearly moving the pair of clamp members 424 may be provided.

The contact pads 425 may be provided on the surfaces of the pair of clamp members 424 facing each other, that is, the surfaces of the pair of clamp members 424 facing the dummy portion of the substrate S. The contact pad 425 may be made of a soft material such as urethane. The contact pad 425 absorbs the impact generated when the pair of clamp members 424 grips the dummy portion of the substrate S to prevent the pair of clamp members 424 or the substrate S from being damaged do. Further, the contact pad 425 allows the pair of clamp members 424 to grasp the dummy portion of the substrate S with a uniform pressing force.

The body 423 can be configured to be movable with respect to the base member 421. Accordingly, the position of the body 423 relative to the base member 421 can be adjusted. The positions of the pair of clamp members 424 can be precisely adjusted by adjusting the position of the body 423 with respect to the base member 421. [ For example, the body 423 can be configured to be movable in the X-axis direction, Y-axis direction, and / or Z-axis direction with respect to the base member 421. Accordingly, the positions of the body 423 in the X-axis direction, the Y-axis direction, and / or the Z-axis direction with respect to the base member 421 can be adjusted, Direction, the Y-axis direction, and / or the Z-axis direction can be adjusted.

A position adjusting unit 422 may be provided between the base member 421 and the body 423 to adjust the position of the body 423 with respect to the base member 421. [ For example, the position adjustment section 422 may include a screw and a rotating mechanism for rotating the screw. Therefore, by rotating the screw by the rotating mechanism, the body 423 can be moved with respect to the base member 421, whereby the position of the pair of clamp members 424 can be adjusted. The screw of the position adjusting portion 422 can be configured to be manually operated by an operator.

Particularly, when a plurality of clamp modules 42 are provided on the support table 41, a pair of clamp members 42 of each of the plurality of clamp modules 42 are connected via the position adjustment section 422 of the plurality of clamp modules 42 So that the plurality of clamp modules 42 can hold the dummy portion of the substrate S uniformly. Since the plurality of clamp modules 42 hold the dummy portion of the substrate S uniformly, deformation such as warp of the substrate S can be prevented in the process of removing the dummy portion from the substrate S.

Actuator 427 may comprise an electric motor, in particular a servo motor. As another example, the actuator 427 may be composed of an actuator using pneumatic or hydraulic pressure, a linear motor operated by electromagnetic interaction, or a ball screw mechanism. The driver 427 serves to drive the pair of clamp members 424 by using the electric power supplied to the driver 427.

The pressing force by which the pair of clamp members 424 grip the dummy portion of the substrate S can be changed depending on the load of the actuator 427. [ The load of the driver 427 may increase as the pair of clamp members 424 press the dummy portion of the substrate S. [ When the thickness of the dummy portion of the substrate S is large, the load of the driver 427 may increase so that the pair of clamp members 424 can grasp the dummy portion of the substrate S appropriately. For example, if the driver 427 is a rotary motor, the load on the driver 427 may be a torque.

The driver 427 may be connected to the control unit 90 and controlled by the control unit 90. [ The control unit 90 may include a load measurement module 91 for measuring the load of the driver 427. [

When a pair of clamp members 424 presses the dummy portion of the substrate S with a predetermined pressing force, a predetermined load acts on the driver 427. [ Therefore, by measuring the load of the driver 427, the pressing force applied to the dummy portion of the substrate S by the pair of clamp members 424 can be measured.

The load measurement module 91 can measure the load of the driver 427 in real time. The control unit 90 can calculate the pressing force applied to the dummy portion of the substrate S by the pair of clamp members 424 based on the load of the driver 427 measured by the load measuring module 91. [

The pressing force of the pair of clamp members 424 is increased by increasing the load of the actuator 427 and the change of the pressing force of the pair of clamp members 424 due to the change of the load of the actuator 427 The experiment or simulation to measure the temperature can be preceded. By this experiment or simulation, data on the change in the pressing force of the pair of clamp members 424 due to the load change of the driver 427 can be obtained. The control unit 90 can calculate the pressing force of the pair of clamp members 424 based on this data and the load of the driver 427 measured in real time.

Further, the pressing force when the pair of clamp members 424 properly hold the dummy portion of the substrate S can be set in advance as the reference pressing force. The reference pressing force may vary depending on the characteristics of the substrate S such as the thickness and the material of the substrate S. Therefore, a plurality of reference pressing forces depending on the characteristics of the substrate S can be preset by experiment or simulation.

The control unit 90 can judge whether or not a pair of clamp members 424 properly grasp the dummy portion of the substrate S based on this reference pressing force. The control unit 90 calculates the pressing force applied to the dummy portion of the substrate S by the pair of clamp members 424 based on the load of the driver 427 measured by the load measuring module 91. [

Then, the control unit 90 compares the calculated pressing force of the pair of clamp members 424 with the reference pressing force, and when the calculated pressing force of the pair of clamp members 424 is within the range of the reference pressing force, It is possible to judge that the clamp member 424 of the substrate S grips the dummy portion of the substrate S with an appropriate pressing force. The control unit 90 compares the calculated pressing force of the pair of clamp members 424 with the reference pressing force so that when the calculated pressing force of the pair of clamp members 424 is out of the range of the reference pressing force, It can be determined that the clamp member 424 of the substrate S does not hold the dummy portion of the substrate S with an appropriate pressing force.

When the calculated pressing force of the pair of clamp members 424 is larger than the reference pressing force, the control unit 90 can reduce the load of the driver 427, and the calculated pressing force of the pair of clamp members 424 The control unit 90 can increase the load of the driver 427. In this case, After the process of adjusting the pressing force of the pair of clamp members 424 by adjusting the load of the driver 427 by the control unit 90, the dummy portion is removed by the pair of clamp members 424 The process can proceed.

Therefore, according to the substrate cutting apparatus according to the embodiment of the present invention, the pair of clamp members 424 grasp the dummy portion of the substrate S with an appropriate pressing force to separate the dummy portion of the substrate S from the substrate S So that it can be easily removed.

Further, as another example, the control unit 90 can determine whether or not the dummy portion has been removed from the substrate S based on this reference pressing force. After performing the process of removing the dummy portion from the substrate S by using the pair of clamp members 424, the control unit 90 sets the pair of clamp members 424 to the position where the dummy portion And a pair of clamp members 424 are operated. At this time, when the dummy portion is removed from the substrate S, even if the pair of clamp members 424 move adjacent to each other, the dummy portion of the substrate S is not gripped, Does not exceed the reference load corresponding to the reference pressing force of the clamping member (424). On the other hand, when the dummy portion is not removed from the substrate S, the dummy portion that is not removed by the pair of clamp members 424 is gripped, so that the load of the actuator 427 It becomes equal to or higher than the reference load corresponding to the reference pressing force.

Thus, the control unit 90 determines whether the load of the driver 427 measured by the load measurement module 91 exceeds the reference load, and determines whether or not the dummy portion is removed from the substrate S It can be judged.

4 to 6, the dummy control unit 40 is provided with an interval measurement unit 50 provided in the clamp module 42 to measure the interval between the pair of clamp members 424 .

In the case where the pair of clamp members 424 are each configured to rotate with respect to the central axis, the gap measuring unit 50 measures the amount of rotation of the pair of clamp members 424, 424 can be measured. As another example, when the pair of clamp members 424 is configured to move linearly, the gap measuring unit 50 measures the amount of linear movement of the pair of clamp members 424, It is possible to measure the distance between the first electrode 424 and the second electrode 424.

6, the interval measuring unit 50 includes a reference member 51 provided on the body 423 and a sensing member (not shown) provided on any one of the pair of clamp members 424. [ 52). As another example, the reference member 51 may be provided on any one of the pair of clamp members 424, and the sensing member 52 may be provided on the body 423. As another example, the reference member 51 may be provided on one of the pair of clamp members 424, and the sensing member 52 may be provided on the other one of the pair of clamp members 424 . As another example, the reference member 51 may be provided on the body 423, and a pair of the sensing members 52 may be provided on the pair of clamp members 424, respectively. As another example, the sensing member 52 may be provided on the body 423, and a pair of reference members 51 may be provided on the pair of clamp members 424, respectively.

The interval measuring unit 50 measures the displacement of the pair of clamp members 424 by using the interaction of the reference member 51 and the sensing member 52 to measure the distance between the pair of clamp members 424 .

As an example, the reference member 51 may be constituted by a scale having a predetermined scale, and the sensing member 52 may be constituted by a camera for imaging a scale. In this case, the relative position between the reference member 51 and the sensing member 52 is measured based on the image of the scale captured by the sensing member 52, and a pair of clamp members 424) can be measured.

As another example, the reference member 51 may be constituted by a reflection surface whose reflection angle varies depending on the position, and the sensing member 52 may include a light emission sensor for emitting light toward the reflection surface, And a light receiving sensor for receiving the light. In this case, the relative position between the reference member 51 and the sensing member 52 is measured by measuring the reflection angle of the light reflected from the reflection surface, and a pair of clamp members 424 ) Can be measured.

The relative position between the reference member 51 and the sensing member 52 is changed when the pair of clamp members 424 are moved adjacent to each other to grasp the dummy portion of the substrate S And the interval between the pair of clamp members 424 can be measured on the basis of this relative positional change.

The interval measuring unit 50 measures the interval of the pair of clamp members 424 in real time and transmits the measured interval to the control unit 90. [

The control unit 90 determines whether or not a pair of clamp members 424 appropriately grips the dummy portion of the substrate S based on the interval of the pair of clamp members 424 measured by the gap measuring unit 50 Can be determined.

For this purpose, an experiment or a simulation for measuring a change in the pressing force of the pair of clamp members 424 in accordance with the change in the distance between the pair of clamp members 424 may be preceded. By this experiment or simulation, data on a change in the pressing force of the pair of clamp members 424 in accordance with the change in spacing between the pair of clamp members 424 can be obtained.

Further, the pressing force when the pair of clamp members 424 properly hold the dummy portion of the substrate S can be set in advance as the reference pressing force. The reference pressing force may vary depending on the characteristics of the substrate S such as the thickness and the material of the substrate S. Therefore, a plurality of reference pressing forces depending on the characteristics of the substrate S can be preset by experiment or simulation.

The control unit 90 can judge whether or not a pair of clamp members 424 properly grasp the dummy portion of the substrate S based on this reference pressing force. The control unit 90 determines the pressing force applied to the dummy portion of the substrate S by the pair of clamp members 424 based on the distance between the pair of clamp members 424 measured by the interval measuring unit 50 .

Then, the control unit 90 compares the calculated pressing force of the pair of clamp members 424 with the reference pressing force, and when the calculated pressing force of the pair of clamp members 424 is within the range of the reference pressing force, It is possible to judge that the clamp member 424 of the substrate S grips the dummy portion of the substrate S with an appropriate pressing force. The control unit 90 compares the calculated pressing force of the pair of clamp members 424 with the reference pressing force so that when the calculated pressing force of the pair of clamp members 424 is out of the range of the reference pressing force, It can be determined that the clamp member 424 of the substrate S does not hold the dummy portion of the substrate S with an appropriate pressing force.

When the calculated pressing force of the pair of clamp members 424 is larger than the reference pressing force, the control unit 90 can control the driver 427 to increase the interval between the pair of clamp members 424. [ When the calculated pressing force of the pair of clamp members 424 is smaller than the reference pressing force, the control unit 90 controls the actuator 427 to reduce the interval between the pair of clamp members 424 have. After the process of adjusting the pressing force of the pair of clamp members 424 by adjusting the distance between the pair of clamp members 424 by the control unit 90 is carried out by the pair of clamp members 424, A process of removing the portion may be performed.

Therefore, according to the substrate cutting apparatus according to the embodiment of the present invention, the pair of clamp members 424 grasp the dummy portion of the substrate S with an appropriate pressing force to separate the dummy portion of the substrate S from the substrate S So that it can be easily removed.

Further, as another example, the control unit 90 can determine whether or not the dummy portion has been removed from the substrate S based on this reference pressing force. After performing the process of removing the dummy portion from the substrate S by using the pair of clamp members 424, the control unit 90 sets the pair of clamp members 424 to the position where the dummy portion And a pair of clamp members 424 are operated. At this time, when the dummy portion is removed from the substrate S, even if the pair of clamp members 424 move adjacent to each other, the dummy portion of the substrate S is not held, Does not exceed the reference interval corresponding to the reference pressing force of the pair of clamp members 424. On the other hand, when the dummy portion is not removed from the substrate S, the dummy portion not removed by the pair of clamp members 424 is gripped, so that the gap between the pair of clamp members 424 Is equal to or greater than a reference interval corresponding to the reference pressing force of the member 424. [

Therefore, the control unit 90 determines whether or not the interval of the pair of clamp members 424 measured by the interval measuring unit 50 exceeds the reference interval, and the dummy portion is determined from the substrate S It can be judged whether or not it has been removed.

7 and 8, the substrate cutting apparatus according to the embodiment of the present invention may further include a cleaning unit 60 for cleaning the dummy removing unit 40. [

The cleaning unit 60 can be configured to be accessible to the dummy control unit 40. [ Further, the dummy removing unit 40 may be accessible to the cleaning unit 60. [

The cleaning unit 60 includes a brush 61 that is installed so as to be accessible to the pair of clamp members 424, a brush driver 62 that drives the brush 61, A horizontal drive module 64 for moving the brush 61 in the horizontal direction (X-axis direction and / or Y-axis direction), a vertical drive module 64 for moving the brush 61 in the vertical direction And a driving module 65.

The brush driver 62 may be configured to rotate the brush 61. As another example, the brush driver 62 may vibrate the brush 61 horizontally and / or vertically. As a result, foreign matter attached to the clamp member 424 can be separated from the clamp member 424 while the brush 61 is moved by the brush driver 62. [

The turning module 63 pivots the brush 61 so that the brush 61 easily approaches the clamp member 424. The turning module 63 may comprise a rotating motor connected to the brush 61 via a connecting bar. The turning module 63 may include a power transmitting mechanism such as a link or a belt provided between the rotating motor and the brush 61.

The horizontal drive module 64 or the vertical drive module 65 may be configured as a linear motion mechanism such as an actuator using pneumatic or hydraulic pressure, a linear motor operated by electromagnetic interaction, or a ball screw mechanism.

A process of cleaning the dummy removing unit 40 using the cleaning unit 60 is performed after removing the dummy portion from the predetermined number of substrates S or when a preset period of time has elapsed.

At this time, the brush 61 of the cleaning unit 60 can be accessed to the dummy removal unit 40 by the horizontal drive module 64 and / or the vertical drive module 65. The brush 61 is pivoted by the turning module 63 in a state in which the brush 61 is driven by the brush driving device 62 to come into contact with the clamping member 424. Accordingly, the foreign matter adhered to the clamp member 424 can be separated by the brush 61. [

Foreign matter such as debris of the substrate S that can be attached to the clamp member 424 when the dummy removing unit 40 removes the dummy portion from the substrate S can be removed by the cleaning unit 60 have. Therefore, it is possible to prevent the substrate S and peripheral parts from being contaminated by foreign substances such as debris of the substrate S.

The cleaning unit 60 includes a housing 66 configured to surround the brush 61 and having an opening through which the brush 61 is exposed to the outside and a housing 66 connected to the housing 66 to supply gas to the housing 66 And a gas supply module 67 for supplying gas. Accordingly, the gas supplied from the gas supply module 67 to the housing 66 can be injected through the opening of the housing 66.

During the process of cleaning the dummy removal unit 40 the opening of the housing 66 may be directed toward the clamping member 424 so that the gas supplied from the gas supply module 67 is directed to the opening of the housing 66 To the clamping member 424. In this manner, the housing 66 can serve as a nozzle for jetting air. Foreign matter attached to the clamp member 424 can be removed from the clamp member 424 by not only the driving of the brush 61 but also the gas injected through the opening of the housing 66. [ Therefore, the process of removing the foreign substances adhered to the clamp member 424 can be performed more efficiently.

Further, the cleaning unit 60 may include a vacuum source 69 connected to the housing 66. A negative pressure can be applied to the housing 66 by the vacuum source 69. The air around the opening of the housing 66 can be sucked into the housing 66 by the negative pressure applied to the housing 66 by the vacuum source 69. [ Therefore, the foreign matter separated from the clamp member 424 by the brush 61 can be introduced into the housing 66 without scattering around. Therefore, it is possible to prevent the foreign matter separated from the clamp member 424 from scattering around the cleaning unit 60 to contaminate the periphery of the cleaning unit 60. [

A filter 68 may be provided between the housing 66 and the vacuum source 69 to filter the foreign substances removed from the clamp member 424.

The gas supply module 67 and the vacuum source 69 may be provided together in the cleaning unit 60. In this case, the gas supply module 67 and the vacuum source 69 can be operated alternately or sequentially with each other.

Hereinafter, the operation of the substrate cutting apparatus according to the embodiment of the present invention will be described with reference to Figs. 9 to 15. Fig.

The substrate S is transferred to the scribing unit 30 by the first transfer unit 10 without removing the dummy portion at the leading end of the substrate S as shown in Fig. At this time, the substrate S may float from the first plate 15 by the gas injected from the first plate 15. [

Then, when the substrate S is placed on the first plate 15, the substrate S is adsorbed on the first plate 15. At this time, as the scribing wheels 351 of the first and second scribing heads 32 and 34 are respectively in contact with the substrate S and then moved in the X axis direction, A cutting line is formed.

Then, as shown in Fig. 10, the clamp module 42 of the dummy removal unit 40 is moved to the dummy portion of the substrate S on which the cutting line is formed. In the state in which the pair of clamp members 424 hold the dummy portion of the substrate S, the support base 41 is rotated and horizontally and / or vertically (in the X axis direction, the Y axis direction and / , The dummy portion is removed from the substrate S. The clamp module 42 with the dummy portion removed returns to its original position that does not interfere with the movement of the scribing wheel 351 of the scribing heads 32, 34.

11, the second plate 25 moves in the Y-axis direction toward the first plate 15 in a state where the first plate 15 is fixed. The distance between the first plate 15 and the second plate 25 is reduced so that the substrate S can be stably supported on both the first plate 15 and the second plate 25. [

Then, the substrate (S) is transported toward the scribing unit (30). At this time, the substrate S may float from the first plate 15 and the second plate 25 by the gas supplied to the first plate 15 and the second plate 25.

12, when the substrate S is placed on the first plate 15 and the second plate 25, the substrate S is separated from the first plate 15 and the second plate 25, . At this time, as the scribing wheels 351 of the scribing heads 32 and 34 contact the substrate S, the X-axis cutting lines are formed on the substrate S as they are moved in the X-axis direction .

13, after the X-axis cutting line is formed on the substrate S, the scribing wheel 351 of the scribing heads 32 and 34 is moved away from the substrate S . When the second plate 25 is moved away from the first plate 15 while the substrate S is attracted to both the first plate 15 and the second plate 25, Is divided along the X-axis cutting line.

14, after the intermediate portion of the substrate S is divided, the substrate S is transferred to the scribing unit 30 in a state in which the dummy portion is not removed at the rear end of the substrate S, . At this time, the gas can be lifted from the second plate 25 by the gas injected from the second plate 25.

When the substrate S is placed on the second plate 25, the substrate S is adsorbed on the second plate 25. At this time, as the scribing wheels 351 of the scribing heads 32 and 34 are respectively in contact with the substrate S and then moved in the X axis direction, .

15, the clamp module 42 of the dummy removing unit 40 is moved to the dummy portion of the substrate S on which the X-axis cutting line is formed. Then, in a state in which the dummy portion of the substrate S is gripped by the pair of clamp members 424, the support table 41 is rotated and the horizontal and / or vertical (X-axis direction, Y- Direction), the dummy portion is removed from the substrate S. The clamp module 42 with the dummy portion removed returns to its original position that does not interfere with the movement of the scribing wheel 351 of the scribing heads 32, 34.

On the other hand, the substrate S divided along the X-axis cutting line can be transferred to the subsequent process by the conveyance belt 21. [

According to the substrate cutting apparatus according to the embodiment of the present invention, the pressing force of the pair of clamp members 424 is calculated based on the load of the driver 427 that operates the pair of clamp members 424, The pressing force of the pair of clamp members 424 can be adjusted while comparing with the reference pressing force. Therefore, it is possible to allow the pair of clamp members 424 to grasp the dummy portion of the substrate S with a predetermined reference pressing force. Therefore, the dummy portion of the substrate S can be stably held and the dummy portion can be smoothly removed from the substrate S.

According to the substrate cutting apparatus according to the embodiment of the present invention, the pressing force of the pair of clamp members 424 is calculated on the basis of the interval between the pair of clamp members 424, and the calculated pressing force is compared with the reference pressing force The pressing force of the pair of clamp members 424 can be adjusted. Therefore, it is possible to allow the pair of clamp members 424 to grasp the dummy portion of the substrate S with a predetermined reference pressing force. Therefore, the dummy portion of the substrate S can be stably held and the dummy portion can be smoothly removed from the substrate S.

Particularly, when a plurality of clamp modules 42 are provided on the support base 41, a pair of clamp members 424 of each of the plurality of clamp modules 42 grasp the dummy portion of the substrate S with an appropriate pressing force . Therefore, the plurality of clamp modules 42 can be synchronized with each other to stably grasp the dummy portion of the substrate S to remove the dummy portion from the substrate S, and to remove the dummy portion from the substrate S It is possible to prevent the substrate S from being bent or broken. The deformation of the substrate S, the breakage of the substrate S, the problem that may occur when the plurality of clamp modules 42 are not synchronized with each other and the dummy portion of the substrate S is gripped by different pressing forces, It is possible to prevent a problem such as fragmentation due to breakage of the substrate S.

According to the substrate cutting apparatus according to the embodiment of the present invention, it is possible to identify the clamp module 42 in which the pressing force of the plurality of clamp modules 42 is abnormally changed, and to check the clamp module 42 in which the pressing force changes abnormally Or can be replaced. Therefore, defects occurring when the dummy portion is removed from the substrate S can be prevented.

According to the substrate cutting apparatus according to the embodiment of the present invention, the pressing force of the pair of clamp members 424 is calculated based on the load of the driver 427 that operates the pair of clamp members 424, It is possible to judge whether or not the dummy portion is removed from the substrate S based on Therefore, the process of removing the dummy portion from the substrate S can be efficiently performed.

According to the substrate cutting apparatus according to the embodiment of the present invention, the pressing force of the pair of clamp members 424 is calculated based on the interval between the pair of clamp members 424, It is possible to judge whether or not the dummy portion is removed. Therefore, the process of removing the dummy portion from the substrate S can be efficiently performed.

Therefore, the dummy portion may not be properly removed from the substrate S, but may be detached and dropped from the substrate S in the process of transferring the substrate S to contaminate the periphery of the substrate cutting apparatus, S can be prevented from being damaged.

In addition, according to the substrate cutting apparatus according to the embodiment of the present invention, the dummy removing unit 40 can remove the dummy portion of the substrate S, which can be attached to the clamp member 424, Can be removed by the cleaning unit (60). Therefore, it is possible to prevent the substrate S and peripheral parts from being contaminated by foreign substances such as debris of the substrate S.

Although the preferred embodiments of the present invention have been described by way of example, the scope of the present invention is not limited to these specific embodiments, and can be appropriately changed within the scope of the claims.

10: First transfer unit
20: Second conveying unit
30: scribing unit
40: Dummy removal unit
50: interval measuring unit
60: Cleaning unit
90: control unit

Claims (10)

A scribing unit for forming a scribing line on the substrate;
A dummy removing unit including a clamp member for holding the dummy portion so as to divide the dummy portion from the substrate along a scribing line formed in the dummy portion of the substrate by the scribing unit; And
And a cleaning unit for removing foreign matter adhered to the clamp member. The method according to claim 1,
The cleaning unit includes:
A brush installed to be accessible to the clamp member;
A brush driver for driving the brush; And
And a turning module for turning the brush. The method of claim 2,
The cleaning unit includes:
A horizontal driving module for moving the brush in a horizontal direction; And
Further comprising a vertical drive module for moving the brush in a vertical direction. The method of claim 2,
The cleaning unit includes:
A housing configured to surround the brush and having an opening through which the brush is exposed to the outside; And
And a gas supply module connected to the housing to supply gas to the housing. The method of claim 2,
The cleaning unit includes:
A housing configured to surround the brush and having an opening through which the brush is exposed to the outside; And
And a vacuum source connected to the housing. The method of claim 5,
And a filter is provided between the housing and the vacuum source. 7. The method according to any one of claims 1 to 6,
The dummy removing unit includes:
A clamp module including the clamp member;
A support for supporting the clamp module;
A rotation module for rotating the support about a central axis of the support;
A horizontal movement module for moving the support horizontally; And
And a vertical movement module for vertically moving the support frame The method of claim 7,
The clamp module is provided on the support frame in plurality,
Wherein the plurality of clamp modules are mounted to the support frame so as to be movable in the longitudinal direction of the support frame so that the interval between the plurality of clamp modules is adjusted. The method of claim 7,
The clamp module includes:
A base member;
A body movably installed with respect to the base member and to which the clamp member is mounted; And
And a position adjusting unit for moving the body relative to the base member. The method according to claim 1,
And a contact pad is provided on a surface of the clamp member facing the substrate.

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