KR20210014455A - An apparatus for inspecting metal mask - Google Patents

Abstract

The present invention relates to a metal mask inspection apparatus capable of performing a defect inspection by precisely photographing a pattern of a metal mask. The metal mask inspection apparatus includes a body table on which a metal mask is fixed to an inspection position; a photographing unit disposed on the metal mask to photograph a pattern formed on the metal mask; a first transfer unit for moving the photographing unit in the X or Y direction on the body table; a light source unit provided under the photographing unit with a metal mask interposed therebetween and irradiating light in the pattern of the metal mask; a second transfer unit connected to the first transfer unit to interlock with the Y-direction movement of the first transfer unit and moving the light source unit in the X direction; and a control unit for inspecting the presence or absence of a defect in the metal mask by using the pattern image photographed by the photographing unit.

Description

Metal mask inspection device {AN APPARATUS FOR INSPECTING METAL MASK}

The present invention relates to a metal mask inspection apparatus, and more particularly, to a metal mask inspection apparatus capable of performing defect inspection by accurately photographing a pattern of a metal mask.

In general, a metal mask refers to a metal thin film that is widely used in the case of applying solder cream or performing an exposure operation in order to mount a chip or the like on a printed circuit board or the like in a semiconductor manufacturing field, particularly a surface mounting technology, and is also referred to as a stencil mask.

The metal mask has a pattern in which fine holes are perforated, and is used in a state where the edge is fixed to a fixed frame in the shape of a square frame.

As such a metal mask is used in a precise process such as printing a semiconductor circuit or an electrode of a solar cell, if a defect such as a fine foreign substance is attached or damaged to the pattern of the metal mask occurs, the manufacturing process using the metal mask It can cause a large loss to the whole.

Therefore, the metal mask needs to be regularly inspected for defects before or after use.

In general, when inspecting for defects in a metal mask, the inspection is performed using an inspection device, etc.. After fixing the metal mask to the device body through a jig or a fixing frame, the pattern formed on the metal mask through a light source After light is irradiated and a pattern image is obtained by photographing the pattern of the metal mask with a camera, the pattern image is analyzed to check whether the pattern formed on the metal mask is defective.

However, the conventional inspection apparatus irradiates light toward the metal mask using a single light source fixed at the lower part of the main body and photographs it, so the light is not uniformly irradiated toward the pattern of the metal mask due to the diffusion of the irradiated light. In addition, there is a disadvantage in that interference of light may occur due to external lighting, etc., so that it is difficult to obtain a precise pattern image, and thus, there is a disadvantage in that the accuracy of defect inspection is deteriorated.

In the present invention, the metal mask inspection apparatus, specifically, by moving the photographing means and the light source to the same position at the same time, irradiating light with a pattern at a position close to the pattern of the metal mask, and simultaneously performing photographing, thereby obtaining a precise pattern image. In addition, it is intended to provide a metal mask inspection apparatus capable of increasing the accuracy of pattern defect inspection through this.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems that are not mentioned will be clearly understood by those of ordinary skill in the technical field to which the present invention belongs from the following description. I will be able to.

In order to solve the above-described problems, the present invention includes a main body table on which a metal mask is fixed at an inspection position, a photographing means for photographing a pattern formed on the metal mask, and a photographing means on the main table. Alternatively, a first transfer means for moving in the Y direction, a light source unit provided under the photographing means with a metal mask interposed therebetween, and a light source unit for irradiating light with a pattern of the metal mask, and a first transfer to interlock with the movement in the Y direction of the first transfer means It provides a metal mask inspection apparatus including a second transfer means for moving the light source unit in the X direction and a control unit for inspecting the presence or absence of defects in the metal mask using a pattern image photographed by the photographing means.

In addition, the control unit synchronizes the driving of the first transfer means and the second transfer means, and simultaneously moves the photographing means and the light source units arranged to face up and down in the same direction, and controls the metal mask inspection device to photograph the pattern of the metal mask. to provide.

In addition, the first conveying means is a guide rail provided on both sides of the upper side of the main body table, a first conveying part vertically coupled to the guide rail and movable in the Y direction along the guide rail, and a horizontal top of the first conveying part. It provides a metal mask inspection apparatus comprising an upper guide connected to each other and a second transfer unit for moving the photographing means in the X direction along the upper guide.

In addition, the first transfer unit is driven by a vertical support provided to be movable on the guide rail and a control unit, and provides a metal mask inspection device including a first driving unit that provides power to move the vertical support along the guide rail. .

In addition, the second transfer unit is driven by a lead screw provided in the upper guide, a screw nut provided on one side of the photographing means and screwed to the lead screw to be movable, and a control unit, and rotates the lead screw so that the photographing means is moved to the lead screw. It provides a metal mask inspection apparatus including a second driving unit to move along.

In addition, the second transfer means provides a metal mask inspection apparatus including a lower guide horizontally connected to the lower end of the first transfer part and arranged in parallel with the upper guide, and a third transfer part moving the light source part in the X direction along the lower guide. do.

In addition, the third transfer unit is driven by a timing gear provided at both ends of the lower guide, a timing belt provided along the longitudinal direction of the lower guide and wound around the timing gear and fixed to the light source unit on the belt, and the control unit. It provides a metal mask inspection apparatus including a third driving unit that rotates and moves the light source unit along a timing belt.

In addition, it is provided on one side of the photographing means, it provides a metal mask inspection apparatus further comprising a tension measuring unit for measuring the tension by pressing the upper surface corner of the metal mask.

In addition, the control unit performs machine learning based on the big data of the inspection record that inspects the patterns of various metal masks, and corrects the positions of the photographing means and the light source to the optimized positions according to the pattern shape of the metal mask. Provides.

In the metal mask inspection apparatus according to an embodiment of the present invention, by simultaneously moving the photographing means and the light source unit arranged vertically with the metal mask therebetween to the same position, the light is irradiated with the pattern at a position close to the pattern of the metal mask. By performing photographing, the pattern of the metal mask can be accurately photographed, and thus the accuracy of the pattern defect inspection can be improved.

In addition, since the light source unit and the photographing means are arranged to face up and down at a position close to each other with the metal mask interposed between the light source unit, the straightness of the light passing through the pattern can be improved and uniform In addition to being able to irradiate light, it is possible to prevent interference of light to external lighting, etc., so that the shape of the pattern can be accurately photographed through the photographing means.

In addition, the metal mask inspection apparatus according to an embodiment of the present invention is machine-learned based on big data of the inspection record inspecting patterns of various metal masks, and the photographing means and the light source unit are self-contained according to the shape of the pattern formed on the metal mask. It is possible to correct the position of and perform pattern photographing, thereby effectively performing a pattern defect inspection of the metal mask.

The effects obtainable in the present invention are not limited to the above-mentioned effects, and other effects not mentioned can be clearly understood by those of ordinary skill in the art from the following description. will be.

1 is a front view showing the configuration of a metal mask inspection apparatus according to an embodiment of the present invention.
2 is a side view showing the configuration of a metal mask inspection apparatus according to an embodiment of the present invention.
3 is a diagram showing a configuration of a main part of a metal mask inspection apparatus according to an embodiment of the present invention.
Figure 4 shows the configuration of the first transfer means and the second transfer means according to an embodiment of the present invention.
5 is a diagram illustrating a process of testing a tension of a metal mask in a metal mask inspection apparatus according to an embodiment of the present invention.
6 and 7 sequentially illustrate a process of inspecting a pattern of a metal mask according to an embodiment of the present invention.

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

The detailed description to be disclosed hereinafter together with the accompanying drawings is intended to describe exemplary embodiments of the present invention, and is not intended to represent the only embodiments in which the present invention may be practiced.

In the drawings, parts irrelevant to the description may be omitted in order to clearly describe the present invention, and the same reference numerals may be used for the same or similar components throughout the specification.

In an embodiment of the present invention, expressions such as “or” and “at least one” may represent one of words listed together, or a combination of two or more.

1 is a front view showing a configuration of a metal mask testing apparatus 10 according to an embodiment of the present invention, and FIG. 2 is a side view showing the configuration of a metal mask testing apparatus 10 according to an embodiment of the present invention. 3 is a diagram illustrating a configuration of a main part of a metal mask inspection apparatus 10 according to an embodiment of the present invention, and FIG. 4 is a first transfer means 300 and a first unit according to an embodiment of the present invention. 2 shows the configuration of the transfer means 500.

Prior to the description, in the present embodiment, the length direction of the upper guide 330 is defined as the X direction and the length direction of the guide rail 310 is defined as the Y direction based on FIG. 3.

1 to 4, the metal mask inspection apparatus 10 according to an embodiment of the present invention includes a main body table 100, a photographing means 200, a first transfer means 300, and a light source 400. , It may include a second transfer means 500 and a control unit (not shown).

The main body table 100 constitutes the appearance of the metal mask inspection apparatus 10 according to the present embodiment, and the photographing means 200, the first transfer means 300, the light source 400 and the second transfer means 500 Can support.

At this time, an upper cover 110 for protecting the photographing means 200, the first transfer means 300, the light source 400 and the second transfer means 500 is integrally formed on the upper part of the main body table 100. In addition, a door 120 capable of opening and closing may be provided on the front surface of the upper cover 110.

In addition, the main body table 100 may be provided with a coupling guide 130 to which the fixing frame 3 for fixing the metal mask 1 is inserted and coupled.

At this time, the coupling guide 130 may be provided in a pair and disposed on both sides of the main body table 100, and when the fixing frame 3 is coupled, both sides of the fixing frame 3 may be supported.

Here, the fixing frame 3 is formed in a rectangular frame shape, and a metal mask 1 for inspection may be fixed inside the frame.

In addition, as the fixing frame 3 to which the metal mask 1 is fixed is inserted and coupled to the coupling guide 130 of the main body table 100, the metal mask 1 is fixed to the inspection position on the main table 100. I can.

In this case, the metal mask 1 may be disposed between the photographing means 200 provided in the main body table 100 and the light source unit 400.

The photographing means 200 is disposed on the metal mask 1 to take a picture of the pattern 2 formed on the metal mask 1.

That is, the photographing means 200 may be made of a vision sensor such as a camera capable of photographing the metal mask 1, and an image photographed of the pattern 2 of the metal mask 1 is transmitted to a controller (not shown) in the device. It may be stored in a memory (not shown) provided.

In this case, the photographing means 200 may be supported by the first transfer means 300 in the main body table 100, so that the metal mask 1 may be disposed close to the upper surface.

The first transfer means 300 may transfer the photographing means 200 on the main body table 100 in the X and Y directions.

Specifically, as shown in Fig. 4, the first transfer means 300 is vertically coupled to the guide rail 310 provided on both sides of the upper body table 100, the guide rail 310, and the guide rail A first transfer unit 320 provided to be movable in the Y direction along (310), an upper guide 330 horizontally connected to the upper end of the first transfer unit 320, and a photographing means along the upper guide 330 It may include a second transfer unit 340 for moving 200 in the X direction.

Here, the guide rails 310 may be provided in a pair and may be disposed in parallel in the Y direction on both upper sides of the main body table 100.

In addition, the first transfer unit 320 is a pair of vertical supports 321 provided to be movable, respectively, on a pair of guide rails 310, and the vertical support 321 so that it can move along the guide rail 310 It may include a first driving unit (not shown) that provides power.

Here, the vertical support 321 is provided with a plurality of rollers (not shown) in a portion coupled to the guide rail 310, so that the vertical support 321 is provided with the guide rail 310 through a plurality of rollers (not shown). It may be provided to be movable along the way.

In addition, the first driving unit (not shown) may be provided on the vertical support 321, and by transmitting rotational force to a plurality of rollers (not shown) through a driving motor, the vertical support 321 is moved to the guide rail 310. It can be moved back and forth accordingly.

In addition, the second transfer unit 340 includes a lead screw 341 provided in the upper guide 330 and a screw nut 342 provided on one side of the photographing means 200 and screwed to the lead screw 341 so as to be movable. ), and a second driving unit 343 that rotates the leadscrew 341 to move the photographing means 200 along the leadscrew 341.

Here, the photographing means 200 may be guide-coupled to the upper guide 330 by an LM guide (G), and a screw nut 342 provided in the photographing means 200 is provided in the upper guide 330. It is coupled to the leadscrew 341, so when the second driving unit 343 rotates the leadscrew 341 forward or reverse, the screw nut 342 on the upper guide 330 moves along the leadscrew 341 The photographing means 200 can be moved in the left and right directions.

In addition, the second driving unit 343 may be provided on one side of the upper guide 330 to be connected to one end of the leadscrew 341, and may transmit rotational force to the leadscrew 341 through a driving motor.

At this time, the first driving unit (not shown) and the second driving unit 343 provided in the first transfer unit 320 and the second transfer unit 340, respectively, may operate under the control of a controller (not shown) to be described later.

As a result, the first transfer means 300 having such a configuration is the upper guide 330 provided horizontally between the upper ends of the pair of vertical supports 321 in transferring the photographing means 200 in the X and Y directions. And it is possible to transfer the photographing means 200 in the X direction along the leadscrew 341, and in addition, by moving the pair of vertical supports 321 in the Y direction along the pair of guide rails 310, the photographing means ( 200) can be transferred in the Y direction.

Meanwhile, the light source unit 400 is provided under the photographing means 200 with the metal mask 1 interposed therebetween, so that light may be irradiated with the pattern 2 formed on the metal mask 1.

In this case, the light source unit 400 may use a light source such as an LED lamp.

In addition, the light source unit 400 may be transferred to be disposed under the photographing means 200 at all times by the second transfer means 500 on the main body table 100.

That is, when the light source unit 400 irradiates light with the pattern 2 formed on the metal mask 1, the irradiated light passes through the pattern 2 of the metal mask 1, and at this time, the photographing means 200 By photographing the pattern 2 of the metal mask 1, it is possible to inspect the presence or absence of defects, such as whether fine foreign substances are attached to the pattern 2 or damaged through the photographed image.

At this time, the photographing means 200 is disposed close to the upper surface of the metal mask 1 to clearly photograph the pattern 2 formed on the metal mask 1, through which a precise inspection of the pattern 2 can be performed. I can.

In addition, the light source unit 400 is disposed opposite to the lower portion of the photographing means 200 and irradiates light toward the photographing means 200, thereby improving the straightness of the light irradiated toward the photographing means 200, and uniform Light can irradiate.

Moreover, the light source unit 400 is provided to be able to move up and down so that it may be disposed closer to the photographing means 200, and in this case, the straightness of the light may be further improved, as well as interference of light to external lighting. This can be prevented, and the pattern 2 of the metal mask 1 can be captured more clearly and precisely in the photographing means 200.

In addition, the photographing means 200 disposed to face the light source unit 400 may perform centering so that the center of the light source unit 400 is aligned before starting the pattern photographing of the metal mask 1, and this process is performed. Through this, it is possible to increase the accuracy of photographing a metal mask pattern using the photographing means 200 and the light source unit 400.

In this case, as an example, the photographing means 200 photographs the upper surface of the light source unit 400 and moves to find the center of the light source unit 400 through a photographed image, or the amount of light or light pattern photographed by photographing light irradiated from the light source unit. You can find and move the center of the light source by using.

On the other hand, the second transfer means 500 is connected to the first transfer means 300 to move in the Y direction together with the first transfer means 300, and can move the light source unit 400 in the X direction.

Specifically, as shown in Figure 4, the second transfer means 500 is connected horizontally between the lower end of a pair of vertical supports 321 provided in the first transfer means 300, the first transfer means ( It may include a lower guide 510 disposed parallel to the upper guide 330 of 300, and a third transfer part 520 that moves the light source unit 400 in the X direction along the lower guide 510.

Here, the third transfer unit 520 is provided along the length direction of the timing gears 521 provided at both ends of the lower guide 510 and the lower guide 510, and is wound around the timing gear 521 and is wound on the belt. A timing belt 522 to which the light source unit 400 is fixed, and a third driving unit 523 for moving the light source unit 400 along the timing belt 522 by rotating the timing gear 521 may be included.

In this case, the third driving unit 523 may be provided at one end of the lower guide 510, and by rotating the timing gear 521 forward or backward through a driving motor, a timing belt wound around the timing gear 521 ( By moving the 522 in the left-right direction, the light source unit 400 fixed to the timing belt 522 can be moved in the left-right direction.

At this time, in the present embodiment, it is configured to move the light source unit 400 through the timing gear 521 and the timing belt 522, and precisely moves the position of the light source unit 400 through a control unit (not shown) to be described later. Can be controlled.

The second transfer means 500 having this configuration transfers the light source unit 400 in the X direction along the lower guide 510 and the timing belt 522 which are horizontally provided between the lower ends of the pair of vertical supports 321 In addition, when the pair of vertical supports 321 of the first transfer means 300 moves in the Y direction along the pair of guide rails 310, between the lower ends of the pair of vertical supports 321 The light source unit 400 provided in may be transferred in the Y direction.

At this time, the upper guide 330 and the lower guide 510 of the second transfer means 500 are provided in parallel up and down in the vertical support 321 of the first transfer means 300 described above, and the vertical support 321 When moving along the guide rail 310 in the Y direction, the photographing means 200 disposed on the upper guide 330 and the light source unit 400 disposed on the lower guide 510 may be simultaneously transferred in the Y direction. .

On the other hand, the control unit (not shown) controls the photographing means 200, the first transfer means 300, the light source 400 and the second transfer means 500, the first transfer means 300 and the second transfer means By synchronizing the driving of 500, the light source unit 400 is simultaneously moved in the same movement direction according to the movement of the photographing means 200, and the light source unit 400 is controlled to be disposed oppositely under the photographing means 200. I can.

Specifically, the control unit (not shown) controls the first driving unit (not shown) provided in the first transfer means 300 to move the vertical support 321 coupled to the guide rail 310 in the front and rear direction, The photographing means 200 and the light source 400 connected to the upper and lower ends of the support 321 may be simultaneously moved in the Y direction.

At this time, as the photographing means 200 and the light source unit 400 are arranged to face up and down, the photographing means 200 and the light source unit 400 can be moved in the same Y direction.

In addition, the control unit (not shown) synchronizes the second driving unit 343 provided in the first transporting means 300 with the third driving unit 523 provided in the second transporting means 500, so that the second driving unit 343 The third driving unit 523 can move the light source unit 400 in the X direction in response to the amount of movement that) moves the photographing means 200 in the X direction, through which the photographing means 200 and the light source unit 400 are moved. It can be moved in the same X direction.

Accordingly, the photographing means 200 and the light source unit 400 can be moved in the same X and Y directions, so that the photographing means 200 and the light source unit 400 are moved to the position where the pattern 2 of the metal mask 1 is formed. Can be moved at the same time.

As described above, the metal mask inspection apparatus 10 according to the present exemplary embodiment simultaneously moves the photographing means 200 and the light source unit 400 in the same direction with the metal mask 1 interposed therebetween, so that the metal mask 1 The pattern 2 of the metal mask 1 can be accurately photographed by irradiating light with the pattern 2 at a position close to the pattern 2 and performing photographing at the same time.

At this time, the light source unit 400 irradiates light at a position close to the lower part of the pattern 2, and the photographing means 200 performs photographing at a position close to the upper part of the pattern 2, thereby preventing the light passing through the pattern 2 Straightness can be improved, uniform light can be irradiated, and interference of light to external lighting can be prevented, so that a precise pattern shape can be photographed through the photographing means 200.

In addition, the control unit (not shown) can compare and inspect the pattern image photographed by the photographing means 200 with the blueprint to detect the presence or absence of defects in the pattern, and increase the accuracy of the inspection by inspecting the accurately photographed pattern image. I can.

Meanwhile, the metal mask inspection apparatus 10 according to the present exemplary embodiment may further include an input unit 610 and a display unit 620.

Referring to FIG. 1, through the input unit 610, a command for controlling the photographing means 200, the first transfer means 300, the light source 400, and the second transfer means 500 can be input, Through this, pattern photographing of the metal mask 1 is performed, and the photographed pattern image may be inspected to determine whether there is a defect.

In addition, it is possible to perform a tension test of the metal mask 1 by controlling the photographing means 200, the first transfer means 300, the light source 400, and the second transfer means 500 through command input. A detailed description will be given later.

The display unit 620 may display a pattern image photographed by the photographing means 200 and may display whether or not the inspected pattern is defective.

Meanwhile, the metal mask inspection apparatus 10 according to the present exemplary embodiment may test the tension of the metal mask 1 before photographing the pattern 2 of the metal mask 1.

That is, in fixing the metal mask 1 to the fixing frame 3, the metal mask 1 must be fixed in a taut state so that the pattern 2 of the metal mask 1 can be accurately inspected. The tension of the metal mask 1 can be measured.

5 is a diagram illustrating a process of testing the tension of the metal mask 1 in the metal mask inspection apparatus 10 according to an embodiment of the present invention.

Referring to FIG. 5, the metal mask inspection apparatus 10 according to the present embodiment may further include a tension measuring unit 210 provided on one side of the photographing means 200 to press the upper surface of the metal mask 1. have.

The tension measuring unit 210 may measure tension by pressing each of the four corner portions of the metal mask 1 fixed to the fixing frame 3 in the form of a square frame.

In this case, under the control of a control unit (not shown), the photographing means 200 and the light source unit 400 move to the center of the metal mask 1 to find the center point, and recognize the four corners of the metal mask 1 based on the center point. can do.

Thereafter, the photographing means 200 and the light source unit 400 move to one of the four corners of the metal mask 1 and press the upper surface of the corner of the metal mask 1 through the tension measuring unit 210 to measure the tension. Then, after sequentially measuring the tension of the remaining three corners in the same manner, the tension of the metal mask 1 may be detected by obtaining an average value of the tension values measured at the four corners.

In this case, when the detected tension of the metal mask 1 falls within a preset tension range, pattern photographing and inspection of the corresponding metal mask 1 may be performed.

On the other hand, the metal mask inspection apparatus 10 according to the present embodiment performs machine learning (machine learning) based on the big data of the inspection record of inspecting the pattern 2 of the various metal masks 1, and photographs itself. By correcting the positions of the means 200 and the light source unit 400, the pattern 2 of the metal mask 1 can be photographed at an optimum position, and through this, a pattern defect inspection can be effectively performed.

That is, the metal mask inspection apparatus 10 performs machine learning using big data of pattern inspection records of various metal masks 1 stored in a memory (not shown) or an external server, and based on this, various metal masks 1 ), the position of the photographing means 200 and the light source unit 400 may be corrected according to the pattern shape when photographing the pattern of the metal mask 1 to be inspected.

In addition, when feedback is received that there is a defect in the inspected metal mask 1, the inspection record is machine-learned to prevent the occurrence of the same defect in the future.

Meanwhile, hereinafter, a process of inspecting the pattern 2 of the metal mask 1 using the metal mask inspection apparatus 10 according to an embodiment of the present invention will be described.

6 and 7 sequentially illustrate a process of inspecting the pattern 2 of the metal mask 1 according to an embodiment of the present invention.

6, after fixing the metal mask 1 to be inspected to the fixing frame 3 in the form of a square frame, the fixing frame 3 is inserted into the coupling guide 130 of the main body table 100, The metal mask 1 can be fixed to the inspection position on the main body table 100.

Next, as shown in FIG. 5, a tension test of the metal mask 1 may be performed, and when the detected tension of the metal mask 1 falls within a preset tension range, the corresponding metal mask 1 ) Pattern shooting can be performed.

Thereafter, referring to FIG. 7, in photographing the pattern 2 formed on the metal mask 1, the driving of the first and second transfer means 300 and 500 are synchronized to be adjacent to the upper and lower portions of the metal mask 1, respectively. By simultaneously moving the arranged photographing means 200 and the light source unit 400 in the same direction, the pattern 2 of the metal mask 1 may be moved to a position where the pattern 2 is formed.

At this time, the light source unit 400 irradiates light toward the pattern 2 at a position close to the lower portion of the pattern 2 of the metal mask 1, and at the same time, the photographing means 200 is the upper part of the pattern 2 of the metal mask 1 By performing photographing at a close position, the pattern 2 of the metal mask 1 can be accurately photographed.

In addition, the captured pattern image of the metal mask 1 may be stored in a memory (not shown) provided in the control unit (not shown), and the control unit (not shown) inspects the captured pattern image to determine whether the pattern is defective. Can be detected.

In this case, the pattern image of the metal mask 1 may be displayed through the display unit 620 provided at one side of the main body table 100, and the presence or absence of the corresponding pattern may be displayed.

As described above, in the metal mask inspection apparatus 10 according to the embodiment of the present invention, the photographing means 200 and the light source unit 400 disposed vertically with the metal mask 1 interposed therebetween are simultaneously moved to the same position. By moving, irradiating light with a pattern at a position close to the pattern of the metal mask 1 and performing photographing at the same time, the pattern of the metal mask 1 can be accurately photographed, thereby increasing the accuracy of the pattern defect inspection.

In addition, the light source unit 400 and the photographing means 200 are arranged to face up and down at a close position with the metal mask 1 interposed therebetween, so that in the process of irradiating light in a pattern through the light source unit 400, the pattern passes The straightness of the light can be improved, uniform light can be irradiated, and interference of light to external lighting can be prevented, so that the shape of the pattern can be accurately photographed through the photographing means 200 .

In addition, the metal mask inspection apparatus 10 according to an exemplary embodiment of the present invention performs machine learning based on big data of inspection records that inspect patterns of various metal masks 1, According to the shape, the positions of the photographing means 200 and the light source unit 400 can be corrected and pattern photographing can be performed, so that a pattern defect inspection of the metal mask 1 can be effectively performed.

The embodiments of the present invention disclosed in the present specification and drawings are only provided for specific examples to easily explain the technical content of the present invention and to aid understanding of the present invention, and are not intended to limit the scope of the present invention.

Therefore, the scope of the present invention should be construed that all changes or modified forms derived based on the technical idea of the present invention in addition to the embodiments disclosed herein are included in the scope of the present invention.

1: metal mask 2: pattern
3: fixed frame 10: metal mask inspection device
100: main body table 200: photographing means
210: tension measuring unit 300: first transfer means
400: light source unit 500: second transfer means
610: input unit 620: display unit

Claims (9)

A main body table to which the metal mask is fixed at the inspection position;
A photographing means disposed above the metal mask to photograph a pattern formed on the metal mask;
First transfer means for moving the photographing means in the X or Y direction on the main body table;
A light source unit provided under the photographing means with the metal mask interposed therebetween to irradiate light with the pattern of the metal mask;
A second transfer means connected to the first transfer means so as to interlock with the movement of the first transfer means in the Y direction, and for moving the light source unit in the X direction; And
A metal mask inspection apparatus comprising a control unit for inspecting whether or not the metal mask is defective by using the pattern image photographed by the photographing means.
The method of claim 1,
The control unit,
A metal mask inspection device that synchronizes the driving of the first transfer means and the second transfer means to simultaneously move the photographing means and the light source units arranged to face up and down in the same direction to capture a pattern of the metal mask .
The method of claim 1,
The first transfer means,
Guide rails provided on both upper sides of the main body table;
A first transfer part vertically coupled to the guide rail and provided to be movable in the Y direction along the guide rail;
An upper guide horizontally connected to an upper end of the first transfer unit; And
Metal mask inspection apparatus comprising a second transfer unit for moving the photographing means in the X direction along the upper guide.
The method of claim 3,
The first transfer unit,
A vertical support provided to be movable on the guide rail; And
A metal mask inspection apparatus including a first driving unit driven by the control unit and providing power to move the vertical support along a guide rail.
The method of claim 3,
The second transfer unit,
A lead screw provided on the upper guide;
A screw nut provided on one side of the photographing means and screwed movably to the lead screw; And
A metal mask inspection apparatus comprising a second driving unit driven by the control unit and configured to rotate the leadscrew to move the photographing means along the leadscrew.
The method of claim 3,
The second transfer means,
A lower guide horizontally connected to a lower end of the first transfer unit and disposed in parallel with the upper guide; And
A metal mask inspection apparatus comprising a third transfer unit for moving the light source unit in the X direction along the lower guide.
The method of claim 6,
The third transfer unit,
Timing gears provided at both ends of the lower guide;
A timing belt provided along the length direction of the lower guide, wound around the timing gear, and fixed to the light source on the belt; And
A metal mask inspection apparatus comprising a third driving unit driven by the control unit and configured to rotate the timing gear to move the light source unit along the timing belt.
The method of claim 1,
A metal mask inspection apparatus further comprising a tension measuring unit provided on one side of the photographing means and measuring tension by pressing an upper surface corner of the metal mask.
The method of claim 1,
The control unit,
A metal mask inspection apparatus for performing machine learning based on big data of inspection records inspecting patterns of various metal masks, and correcting the positions of the photographing means and the light source to an optimized position according to the pattern shape of the metal mask.

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