KR101479943B1 - The System and Method to Align Substrate and Mask - Google Patents

Abstract

Disclosed are a system and a method for aligning a substrate and a mask. A system for aligning a substrate and a mask according to the embodiment of the present invention includes a process chamber for performing the bonding process of a mask and a substrate bonded to the mask; a substrate holding unit which holds both sides of the substrate to be bent in a direction, to allows a virtual substrate align line for aligning the substrate based on a mask align line formed in the mask on the substrate; and a position align unit which is connected to the substrate holding unit and aligns the position of the substrate holding unit to allow the substrate align line to be aligned with regard to the mask align line.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an alignment method and an aligning method for a substrate and a mask,

The present invention relates to a substrate and mask alignment system, and more particularly, to a substrate and mask alignment system capable of precisely aligning a substrate and a mask in a substrate deposition process.

OLED (Organic Light-Emitting Diode) refers to a 'self-emitting organic material' that emits light by using an electroluminescence phenomenon that emits light when an electric current flows through a fluorescent organic compound.

OLEDs can be driven at low voltages and can be made thinner, have a wide viewing angle, and have a fast response time, making them a next-generation display device that can replace current LCDs.

The manufacturing process of the OLED includes a pattern forming process, an organic thin film deposition process, a sealing process, and a bonding process in which a substrate having an organic thin film deposited thereon and a sealing process are attached to the substrate.

OLEDs require deposition patterns of fine pitch (± 5 microns) for full color in the deposition process. A shadow mask of a metal is used in the deposition process to form such a fixed pattern of deposition.

In this deposition process, the substrate of the OLED is supported on the fork hand of the transport robot and moved to the deposition chamber. After the substrate is transferred to the deposition chamber, it is accurately placed on the mask so that no deposition errors occur.

In order to increase the precision of the deposition pattern, it is important that not only the pattern of the 'shadow mask' itself be precise, but also the substrate and the mask are mechanically precisely aligned.

That is, precise alignment of the substrate and the mask is performed before the deposition pattern is formed on the substrate. In this position alignment, an OLED horizontal aligner employing the alignment mark alignment function of the substrate and the mask for x, y, and? Is used. At this time, the substrate and the mask should be as close as possible to each other because the deposition material seeps between the substrate and the mask to cause a shadow phenomenon in which the deposition pattern spreads.

However, since the substrate, the mask, the align mechanism, etc. are present on the upper part of the deposition chamber in the case of the up-and-down deposition method widely used in the past, the structure supporting them is unstable and the mask and substrate are sagged, The alignment process was not easy.

As the substrate becomes larger, the degree of deflection of the substrate and the horizontal accuracy of the substrate with respect to the mask are becoming important factors for alignment of the alignment marks between the substrate and the mask.

Recently, large-sized glass is becoming larger and more sagging phenomenon becomes more serious. It has been difficult to cope with precise alignment of the substrate and the mask having a severe sagging phenomenon by the conventional horizontal aligner. That is, the conventional OLED horizontal aligner has no problem in small-size substrate alignment, but has recently caused problems in large-size substrate alignment.

Conventionally, as shown in detail in Fig. 1, generally, a method of supporting all sides of the substrate is used, and substrate alignment marks a and b and mask alignment marks c and d are formed on the substrate S and And is indicated at the corner portion of the mask M.

However, in such a conventional aligning apparatus for a substrate and a mask, a central deflection phenomenon of the substrate occurs due to enlargement of the substrate. Therefore, the substrate alignment marks a and b and the mask alignment marks c and d are aligned The center portion of the substrate S is first attached to the mask M and then the substrate alignment marks a and b and the mask alignment marks c and d ) Is slightly displaced.

Korean Patent Publication No. 10-2008-0081733, 2008.09.10.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide an alignment system for a substrate and a mask capable of precisely aligning a substrate and a mask, .

According to an aspect of the present invention, there is provided a plasma processing apparatus comprising: a process chamber in which a process of attaching a mask and a substrate adhered to the mask proceeds; The substrate is gripped on both sides so that the substrate is sagged in one direction so that a virtual substrate alignment line for aligning the substrate with respect to the mask alignment line formed on the mask is formed on the substrate, A substrate holding unit for holding a substrate; And a position aligning unit coupled to the substrate holding unit for aligning the position of the substrate holding unit such that the substrate aligning line is aligned with respect to the mask aligning line, Can be provided.

And a substrate clamping unit for clamping the substrate so that the substrate holding unit grasps the substrate.

The substrate clamping unit may be disposed in a direction crossing the substrate holding unit with respect to the substrate to clamp the substrate.

The substrate clamping unit may be connected to the position aligning unit.

The substrate clamping unit comprising: a substrate supporting module for contacting a lower portion of the substrate; A substrate pressing module in contact with an upper portion of the substrate, for pressing and clamping the substrate toward the substrate supporting module; And a pressing module driving unit provided at one side of the substrate pressing module to relatively move the substrate pressing module relative to the substrate supporting module.

The substrate pressing module includes: at least one pressing member for pressing an upper portion of the substrate; At least one pressing rod coupled with the pressing module driving part and the pressing member to move the pressing member up and down; And at least one elastic member provided on one side of the pressing rod to elastically bias the pressing rod in a direction away from the substrate supporting module.

The substrate pressing module may further include a cushioning member provided on one side of the pressing member to adjust a force pressing the pressing member against the substrate.

The substrate clamping unit may further include at least one guide part coupled with the substrate supporting module and the substrate pressing module to guide relative movement of the substrate pressing module to the substrate supporting module.

The pressing member may be one pressing member arranged to clamp one end of the substrate aligning line.

The pressing member may be a plurality of pressing members spaced apart from each other at predetermined intervals along the side of the substrate on which the one end of the substrate aligning line is located.

The substrate holding unit includes: a substrate holding unit for holding the substrate in contact with the substrate; A driving unit coupled to one side of the position aligning unit to move the substrate holding unit; And a support portion coupled to the substrate holding portion and the driving portion.

Wherein the position aligning unit comprises: a moving base to which the substrate holding unit is coupled; An alignment base disposed on one side of the moving base; And an aligner coupled to the moving base and the alignment base, the aligner being provided to relatively move or relatively rotate the moving base relative to the alignment base in the XY plane, and to align the position of the substrate holding unit.

The position aligning unit may further include a plurality of camera modules for sensing the substrate alignment line and the mask alignment line.

According to another aspect of the present invention, there is provided a method for aligning a substrate, the method comprising: forming a virtual alignment line for aligning a substrate with respect to a mask alignment line formed on a mask, A substrate holding step of holding both sides of the substrate; And aligning the substrate to align the position of the substrate so that the alignment line of the substrate with respect to the mask alignment line is aligned with the mask alignment line.

And a substrate clamping step of clamping the substrate so that the holding state of the substrate can be fixed after the substrate holding step.

Embodiments of the present invention provide a method of aligning a substrate and a mask accurately by aligning a substrate and a mask so as to prevent the alignment of the substrate and the mask in the process of attaching the substrate and the mask by aligning the alignment line with respect to the mask- .

1 is a view showing a method of aligning a substrate and a mask according to a conventional technique.
2 is a plan view of an alignment system of a substrate and a mask according to a first embodiment of the present invention.
3 is a front view of the alignment system of the substrate and the mask of Fig. 2 viewed from direction A. Fig.
4 is a side view of the alignment system of the substrate and the mask of FIG. 2 viewed from direction B. FIG.
Fig. 5 is a schematic perspective view showing a part of the substrate holding unit of Fig. 2;
Figure 6 is a schematic perspective view showing a portion of the substrate clamping unit of Figure 2;
FIGS. 7 to 9 are views showing steps of aligning a substrate and a mask according to an embodiment of the present invention.
10 is a front view showing a part of a substrate clamping unit according to a second embodiment of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

2 is a plan view of the alignment system of the substrate and the mask according to the first embodiment of the present invention, Fig. 3 is a front view of the alignment system of the substrate and the mask of Fig. 2 viewed from direction A, Fig. 5 is a schematic perspective view showing a part of the substrate holding unit of Fig. 2, and Fig. 6 is a schematic perspective view showing a part of the substrate clamping unit of Fig. 2 It is a perspective view.

As shown in these figures, the substrate and mask alignment system 1 according to the present embodiment includes a process chamber 10, a substrate holding unit 20, a substrate clamping unit 30, Unit 40 as shown in FIG.

The process chamber 10 is where the process of attaching the mask M and the substrate S attached to the mask M proceeds and after the mask M is attached the process of depositing the substrate S proceeds .

Hereinafter, the substrate S used in the adhering process and the deposition process may be various materials for manufacturing a large-area panel such as an OLED display panel and a solar panel, as well as a glass substrate as well as a flexible substrate.

The substrate S may be loaded into the substrate holding unit 210 of the substrate holding unit 20 disposed inside the process chamber 10 by a transfer robot not shown. At this time, the mask M is disposed below the substrate S so as to be spaced apart from the substrate S. The substrate and the mask alignment system according to the present embodiment advance the alignment process between the substrate S and the mask M before the deposition process and the deposition process proceed.

The substrate holding unit 20 includes a virtual substrate aligner for aligning the substrate S on the basis of the mask alignment line L2 formed in the mask M The substrate S is gripped on both sides of the substrate S so that the substrate S is sagged in one direction so that the inline L1 is formed on the substrate S.

The virtual substrate alignment line L1 is a virtual alignment line L1 connecting the lowest point of the central portion of the substrate S on which the sagging phenomenon occurs when both sides of the substrate S are grasped so that the substrate S is sagged in one direction It refers to a straight line.

At this time, the substrate alignment marks M1 and M2 are previously displayed at the positions where both ends of an imaginary straight line intersecting the center of the substrate S on which the deflection phenomenon occurs, and the substrate alignment marks M1 and M2 The substrate holding unit 20 holds both sides of the substrate S so that the imaginary line connecting the substrate holding unit 20 and the substrate aligning line L1 coincides with each other.

The corresponding mask alignment line L2 is a virtual line crossing the center of the mask M as shown in detail in Fig. 9, and at the point where both ends of the mask alignment line L2 are located, Align marks M3 and M4 are displayed in advance.

The positions of the substrate alignment marks M1 and M2 and the mask alignment marks M3 and M4 are aligned with each other by aligning the substrate alignment line L1 to the mask alignment line L2, (M).

When the alignment is performed using the substrate alignment line L1 and the mask alignment line L2, the alignment marks are not moved and the alignment marks are misaligned when the remaining portions are attached. There is an advantage that more accurate alignment can be performed.

That is, conventionally, as shown in detail in Fig. 1, generally, a method of supporting all the sides of the substrate is used, and the substrate alignment marks a and b and the mask alignment marks c and d are formed on the substrate S, And the edge portion of the mask M.

In this case, since the central portion of the substrate is deflected due to the enlargement of the substrate, the substrate alignment marks a and b and the mask alignment marks c and d are aligned, The center portion is first attached to the mask M and then the corners are attached so that the substrate alignment marks a and b and the mask alignment marks c and d displayed on the corners are slightly deviated.

In order to solve this problem, according to the embodiment of the present invention, as shown in detail in FIG. 9, the substrate S is forcibly sagged in one direction to form a substrate alignment line L1, By aligning the line L1 and the mask alignment line L2, the substrate alignment marks M1 and M2 located at the lowest point of the substrate S are first attached to the mask alignment marks M3 and M4, There is no possibility that the substrate alignment marks M1 and M2 and the mask alignment marks M3 and M4 deviate from each other.

The substrate holding unit 20 includes a substrate holding unit 210, a driving unit 230, and a supporting unit 250.

The driving unit 230 is coupled to one side of the position aligning unit 40 to move the substrate holding unit 210. The supporting portion 250 connected to the substrate holding portion 210 is moved up and down relative to the process chamber 10 to horizontally move the substrate S to a position for opening the loading space for loading the substrate S or holding the loaded substrate S The substrate gripper 210 can be moved.

The supporting part 250 is coupled to the substrate holding part 210 and the driving part 230 so that the substrate holding part 210 can be moved up and down in the process chamber 10.

To this end, the support 250 includes a plurality of support rods 251 mounted on the process chamber 10 to move up and down and horizontally, and a support panel 252 coupled to the lower ends of the plurality of support rods 251 . The support panel 252 corresponds to a square frame having a rectangular shape, and four support rods 251 can be respectively coupled to four rectangular corners of a rectangular shape.

The supporting rod 251 is slidably installed in the process chamber 10 and may be coupled to the driving unit 230 to connect the supporting panel 252 to the driving unit 230. A bellows 253 is provided on the upper portion of the support rod 251 so that the airtightness of the process chamber 10 can be maintained during slide movement in the process chamber 10.

The substrate holding part 210 is provided to be spaced apart from the supporting panel 252 and has a holding jaw 213 so that the substrate S can be locked and fixed. And a support bracket 212 for coupling the support panel 252 to the support panel 211. The support panel 252 may include a support bracket 212,

The support bracket 212 may be arranged long in the vertical direction so that the grip panel 211 is spaced from the support panel 252 by the length. The upper and lower portions of the support bracket 212 may be perpendicular to the vertical direction so as to be easily coupled to the support panel 252 and the grip panel 211, respectively.

Meanwhile, the substrate clamping unit 30 serves to clamp the substrate S so that the state in which the substrate holding unit 20 grasps the substrate S can be fixed.

The substrate alignment line L1 formed by the substrate holding unit 20 is not in a fixed state so that the virtual alignment line connecting the substrate alignment marks M1 and M2 and the substrate alignment line L1 may not coincide with each other And may be shifted by the shaking of the substrate S even if they are initially matched.

The substrate clamping unit 30 is configured such that the substrate holding unit 20 grips both sides of the substrate S so that the virtual alignment line connecting the substrate alignment marks M1 and M2 and the substrate alignment line L1 are aligned And maintains the substrate S in the sagging state so that the substrate aligning line L1 does not move.

At this time, the substrate clamping unit 30 may be disposed in a direction crossing the substrate holding unit 20 with respect to the substrate S to clamp the substrate S.

The substrate clamping unit 30 is connected to the position aligning unit 40 like the substrate holding unit 20 so that the substrate S and the mask M are aligned in accordance with the movement of the aligning unit 40 Can be moved.

The substrate clamping unit 30 includes a substrate supporting module 310, a substrate pressing module 330, a pressing module driving unit 350, and a guide unit 370.

The substrate support module 310 serves to support the substrate S in contact with the bottom of the substrate S and may include a substrate support 311, a support rod 251 and a support panel 252 have.

The substrate support 311 includes a support member 214 that contacts the bottom of the substrate S and provides a support jaw 215 so that the substrate S can be locked and locked, 214 for connecting the support brackets 212 to each other.

The substrate pressing module 330 is in contact with the upper portion of the substrate S and serves to press and clamp the substrate S toward the substrate supporting module 310 side.

The substrate pressing module 330 includes a pressing member 331, a pressing rod 332, an elastic member 333, and a buffer member 334.

The pressing member 331 serves to press the upper portion of the substrate S and in this embodiment is constituted by one pressing member 331 arranged to clamp one end of the substrate aligning line L1.

The pressing rod 332 is engaged with the pressing module driving part 350 and the pressing member 331 to move the pressing member 331 up and down.

The elastic member 333 is provided on one side of the pressing rod 332 and elastically biases the pressing rod 332 in a direction away from the substrate supporting module 310.

The cushioning member 334 is provided on one side of the pressing member 331 and serves to adjust the force pressing the pressing member 331 against the substrate S. [ Therefore, by providing the buffer member 334, there is an advantage that the substrate S can be prevented from being damaged when the substrate S is clamped.

The pressing module driving unit 350 is provided at one side of the substrate pressing module 330 to relatively move the substrate pressing module 350 relative to the substrate supporting module 310. The pressing member 331 is lowered so that the pressing member 331 presses the substrate S toward the substrate supporting module 310 side.

The pressing module driving unit 350 is also coupled to the substrate supporting module 330 to move the substrate supporting module 330. The substrate support 311 is moved to a position for clamping the gripped substrate S by vertically moving the support rod 251 connected to the substrate support 311 of the substrate support module 330 with respect to the process chamber 10, .

In other words, the pressing module driving unit 350 horizontally moves together with the substrate pressing module 330 and the substrate pressing module 330 to move the gripped substrate S to a clamping position, The pressing member 331 is lowered so that the pressing member 331 presses the substrate S toward the substrate supporting module 310 to clamp the substrate S to the clamping position, .

The guide unit 370 is coupled with the substrate supporting module 310 and the substrate pressing module 330 to guide the relative movement of the substrate pressing module 330 to the substrate supporting module 310.

The position aligning unit 40 is connected to the substrate holding unit 20 and aligns the position of the substrate holding unit 20 so that the substrate aligning line L1 is aligned with respect to the mask aligning line L2 It plays a role.

Since the substrate aligning unit 40 is also connected to the substrate clamping unit 30 so that the substrate S is held by the substrate holding unit 20 and the substrate S is clamped by the substrate clamping unit 30 The substrate holding unit 20 and the substrate clamping unit 30 are moved together to align the substrate S with respect to the mask M. [

The position aligning unit 40 includes a moving base 410, an alignment base 430, an aligner 450, and a camera module 470.

The moving base 410 is a portion to which the substrate holding unit 20 is coupled and the moving base 410 is moved relative to the mask alignment line L2 by relative movement or relative rotation in the XY plane with respect to the alignment base 430 The position of the substrate holding unit 20 can be aligned so that the alignment line L1 is aligned. A substrate clamping unit () can also be coupled to the movable base () and moved together with the substrate holding unit 20.

The alignment base 430 is disposed at one side of the moving base 410 and is coupled with the process chamber 10 to serve as a reference for relative movement or relative rotation in the XY plane of the moving base 410.

The aligner 450 is coupled to the movement base 410 and the alignment base 430 and is provided to relatively move or relatively rotate the movement base 410 in the XY plane with respect to the alignment base 430, 20) in the second direction.

The aligner 450 is a technique commonly known as a UVW aligning apparatus. As described above, a three-axis motor is used. When the U axis is the X axis, when the VW is moved to the same value, , The Z-axis rotation, that is, theta rotation, which is perpendicular to the XY plane, is possible by moving the UVW by a predetermined value. Aligning using these alignment elements of UVW is a commonly used technique for aligning two objects in the display manufacturing process.

The camera module 470 serves to sense the substrate alignment line L1 and the mask alignment line L2 and is disposed to face the substrate S from the bottom surface of the alignment base 430. [

The positions of the substrate alignment marks M1 and M2 previously displayed on the substrate S are photographed and collected by the camera module 470 and the mask alignment marks M3 and M4 so that the substrate alignment line L1 connecting the substrate alignment marks M1 and M2 to the mask alignment line L2 connecting the mask alignment marks M3 and M4 It will be aligned.

Hereinafter, a substrate and a mask, which can precisely align the substrate and the mask, so as to prevent the substrate and the alignment of the mask from being distorted in the process of attaching the substrate and the mask by the alignment system of the substrate and the mask of this embodiment, Will be described.

FIGS. 7 to 9 are views showing steps of aligning a substrate and a mask according to an embodiment of the present invention.

A method of aligning a substrate and a mask according to an embodiment of the present invention includes a substrate holding step, a substrate clamping step, and a substrate aligning step.

The substrate holding step includes a virtual substrate aligning line (not shown) for aligning the substrate S on the basis of the mask alignment line L2 formed in the mask M L1 are held on the substrate S so that the substrate S is sagged in one direction so that both sides of the substrate S are gripped.

When the substrate S is loaded, the driving unit 230 of the substrate holding unit 20 horizontally moves and lifts the substrate holding unit 210 to move both sides of the substrate S to a position for gripping. The substrate S is grasped by being fixed to a plurality of holding jaws 213 provided on the holding panel 211.

If the plurality of holding jaws 213 hold the both sides of the substrate S in a straight line, the central portion of the substrate S sags in one direction due to the weight of the substrate S, .

At this time, if the distance between the opposing substrate holding units 20 is set shorter than the length of the substrate S, the degree of deflection of the substrate S becomes larger, so that the substrate aligning line L1 can be easily formed.

The substrate clamping step is performed after the substrate holding step, as shown in detail in FIG. 8, and is a step of clamping the substrate S so that the holding state of the substrate S can be fixed.

The substrate clamping unit 30 clamps both sides of the substrate S in such a manner that the substrate holding unit 20 grasps both sides of the substrate S such that a virtual line connecting the substrate alignment marks M1, So as to fix the substrate S to the substrate S so that the substrate aligning line L1 does not move.

The pressing module driving unit 350 of the substrate clamping unit 30 moves the substrate holding module 330 and the substrate pressing module 330 horizontally and vertically together to move the gripped substrate S to a clamping position.

When the substrate supporting module 330 is moved in the fixed state and the substrate pressing module 330 is moved to lower the pressing member 331, the supporting jaw 215 of the substrate supporting module 330 and the pressing member 331 So that the substrate S is clamped.

The substrate aligning step is a step of aligning the position of the substrate S so that the substrate aligning line L1 is aligned with respect to the mask aligning line L2, as shown in detail in Fig.

The driving unit 230 of the substrate holding unit 20 and the substrate pressing module 330 of the substrate clamping unit 30 are coupled to the moving base 410 of the position aligning unit 40. The aligner 450 The position of the substrate S is adjusted so that the substrate aligning line L1 is aligned with respect to the mask alignment line L2 by relative movement or relative rotation of the movable base 410 with respect to the alignment base 430 in the XY plane Align.

At this time, the positions of the substrate alignment marks M1 and M2 are photographed and collected by the camera module 470, and the positions of the mask alignment marks M3 and M4 previously displayed on the mask M by the aligner 450 The substrate S is aligned at a proper position.

10 is a front view showing a part of a substrate clamping unit according to a second embodiment of the present invention. The second embodiment is different from the first embodiment in that the substrate clamping unit 30 'is provided with a plurality of substrate clamping units 30' spaced from each other at predetermined intervals along the side of the substrate S on which one end of the substrate aligning line L1 is located The substrate clamping unit 31 will be described in the following.

When the size of the substrate S is relatively small, the substrate S can be fixed by clamping only the central portion of the substrate S on which the substrate alignment line L1 is formed. However, when the size of the substrate S is large There is an advantage that the substrate S can be stably fixed by clamping the substrate S at a plurality of points.

In the second embodiment, since the plurality of pressing members 331 and 331 'and the corresponding number of supporting jaws 215 and 215' are provided, the length of the supporting member 214 'providing these supporting jaws 215 and 215' Which is different from the first embodiment.

In addition, a fixing panel 336 for fixing the plurality of pressing members 331 and 331 'to elevate and lower the plurality of pressing members 331 and 331' together is provided, and the fixing panel 332 is provided with a plurality And a pressure panel 335 is provided so that a plurality of pressing rods 332 can be pressed together.

A plurality of elastic members 333 are provided between the fixed panel 332 and the support member 214 'and a plurality of guide units 370 are coupled with the substrate supporting module 310 and the substrate pressing module 330 .

Since the side of the substrate S on which the one end of the substrate aligning line L1 is located is curved, when the plurality of pressing members 331 are included, each of the pressing members 331 has a corresponding supporting jaw 215 It is necessary to adjust the height of contact with the contact surface.

Therefore, the pressing member 331 'near the center of the curve formed by the side of the substrate S is made longer than the pressing member 331 located at the edge, and the corresponding supporting jaw 215' The support position is made to be lower than the jaw 215.

The height at which the pressing member 331 'and the supporting jaw 215' are in contact with each other can be set differently according to the size of the substrate S. [

As described above, according to this embodiment, first, the substrate is gripped and gripped in one direction to form a substrate alignment line, and after clamping the substrate with the substrate alignment line formed, the substrate alignment line The substrate and the mask can be precisely aligned so as to prevent the alignment of the substrate and the mask from being distorted in the step of attaching the substrate and the mask.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

S: Substrate M: Mask
L1: substrate alignment line L2: mask alignment line
M1, M2: Substrate alignment mark M3, M4: Mask alignment mark
10: process chamber 20: substrate holding unit
30: substrate clamping unit 40: position aligning unit
210: substrate holding unit 230:
250: support part 310: substrate support module
330: substrate pressing module 331, 331 ': pressing member
332: pressing rod 333: elastic member
334: Buffer member 350: Pressure module drive unit
370: Guide part 410: Moving base
430: alignment base 450: aligner
470: Camera module

Claims (15)

A process chamber in which the process of attaching the mask and the substrate attached to the mask proceeds;
The substrate is gripped on both sides so that the substrate is sagged in one direction so that a virtual substrate alignment line for aligning the substrate with respect to the mask alignment line formed on the mask is formed on the substrate, A substrate holding unit for holding a substrate; And
And a position alignment unit coupled to the substrate holding unit for aligning the position of the substrate holding unit such that the substrate aligning line is aligned with respect to the mask aligning line. The method according to claim 1,
Further comprising a substrate clamping unit for clamping the substrate so that a state in which the substrate holding unit grasps the substrate can be fixed. 3. The method of claim 2,
Wherein the substrate clamping unit is disposed in a direction crossing the substrate holding unit with respect to the substrate to clamp the substrate. 3. The method of claim 2,
And wherein the substrate clamping unit is connected to the position alignment unit. The method according to claim 1,
Wherein the substrate clamping unit comprises:
A substrate support module in contact with a lower portion of the substrate;
A substrate pressing module in contact with an upper portion of the substrate, for pressing and clamping the substrate toward the substrate supporting module; And
And a pressing module driver provided at one side of the substrate pressing module to move the substrate pressing module relative to the substrate supporting module. 6. The method of claim 5,
The substrate pressing module includes:
At least one pressing member for pressing an upper portion of the substrate;
At least one pressing rod coupled with the pressing module driving part and the pressing member to move the pressing member up and down; And
And at least one elastic member provided on one side of the pressing rod for elastically biasing the pressing rod in a direction away from the substrate supporting module. The method according to claim 6,
The substrate pressing module includes:
And a buffer member provided on one side of the pressing member to adjust a force pressing the substrate against the substrate. 6. The method of claim 5,
Wherein the substrate clamping unit comprises:
Further comprising: at least one guide portion coupled to the substrate support module and the substrate pressing module to guide relative movement of the substrate pressing module relative to the substrate supporting module. The method according to claim 6,
The pressing member
Wherein the substrate is a single pressing member arranged to clamp one end of the substrate alignment line. The method according to claim 6,
The pressing member
Wherein the plurality of pressing members are spaced apart from each other at predetermined intervals along the side of the substrate on which the one end of the substrate alignment line is located. The method according to claim 1,
Wherein the substrate holding unit comprises:
A substrate holding unit for holding the substrate in contact with the substrate;
A driving unit coupled to one side of the position aligning unit to move the substrate holding unit; And
And a support portion coupled to the substrate holding portion and the driving portion. The method according to claim 1,
The position aligning unit includes:
A moving base to which the substrate holding unit is coupled;
An alignment base disposed on one side of the moving base; And
And an aligner coupled to the moving base and the alignment base, the aligner being provided to relatively move or relatively rotate the moving base relative to the alignment base in the XY plane, and aligning the position of the substrate holding unit. Alignment system. 13. The method of claim 12,
The position aligning unit includes:
Further comprising a plurality of camera modules for sensing the substrate alignment line and the mask alignment line. A substrate holding unit for holding both sides of the substrate so that the substrate is sagged in one direction so that a virtual substrate alignment line for aligning the substrate with respect to the mask alignment line formed on the mask is formed on the substrate, Holding phase; And
And aligning the substrate so that the alignment of the substrate alignment line with respect to the mask alignment line is aligned. 15. The method of claim 14,
After the substrate holding step,
Further comprising a substrate clamping step of clamping the substrate so that the holding state of the substrate can be fixed.

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