JP6619194B2 - Touch panel inspection apparatus and method - Google Patents

Description

  The present invention relates to an apparatus and method for touch panel inspection.

  The touch panel has a function of allowing a user of a computer device such as a mobile phone, a smartphone, a tablet PC, a laptop computer, a desktop computer, etc. to perform a gesture of touching the display device to communicate with the computer device. Widely used as an addition to display devices.

  The touch panel may be manufactured by a method in which sensor electrodes patterned in the X-axis direction and the Y-axis direction are deposited on a glass sheet. In many conventional touch panel manufacturing methods, a glass sheet is cut in cell units having a size suitable for a touch panel laminated on a display panel, and then a sensor electrode is disposed on the glass in individual cell units. Applied. However, recently, in order to improve the yield of the process as described above, after forming sensor electrodes on a glass sheet including a plurality of cell regions, the glass sheet finally corresponds to the plurality of cell regions, respectively. Attempts have also been made to cut the touch panel.

  In the actual process of manufacturing the touch panel, foreign substances may adhere to the surface or inside of the touch panel due to various factors, or contamination and scratches may occur, and various types of defects may appear on the touch panel. Thereby, the process of detecting such a defect may follow. As an inspection method for detecting such a defect, an optical inspection method is generally used in which an image of the appearance of the touch panel is captured by an imaging device such as a camera and the image is analyzed.

  However, on touch panels manufactured through many processes, there are areas where regular patterns exist, areas where irregular patterns exist, areas where inspection for defect detection is necessary, and such inspections There are various areas such as areas that may be omitted. Further, the inspection conditions for each region and each pattern are not necessarily the same. Therefore, there is a need for a new method for detecting defects of different forms generated from various regions more efficiently and with higher accuracy.

  Korean Patent Publication No. 2011-0020437 discloses a method for determining defects by comparing the gray levels of a candidate die and an average standard die for wafer defect inspection. The need to consider each characteristic still exists.

Korean Published Patent Publication No. 2011-0020437

  An object of the present invention is to provide a touch panel inspection apparatus that can detect defects on a touch panel more efficiently and more accurately with respect to various areas on the touch panel according to characteristics and inspection conditions of each area. .

  An object of the present invention is to provide such a touch panel inspection method.

1. A video acquisition unit that captures an image of a glass sheet for a touch panel including a plurality of cell regions as one whole region or acquires a captured image by dividing the image into divided regions;
An area setting unit for receiving an input designating a period comparison area and a cell-to-cell comparison area for the image; and a period in which pixels in the period comparison area are set in advance in the image At least one of a first image inspection for comparing in units and a second image inspection for comparing the cell-to-cell comparison region in at least three cell regions of the plurality of cell regions in the image. A touch panel inspection apparatus including a defect detection unit that detects defects on the glass sheet.

  2. In the above 1, the video acquisition unit includes an input unit that identifies the plurality of cell regions using layout information of the glass sheet; and imaging that acquires the video by imaging the plurality of identified cell regions Touch panel inspection device including equipment.

  3. In the above 1, the input also specifies different inspection conditions for the inspection region and the inspection region in the cell-to-cell comparison region, and the defect detection unit performs the second video inspection according to the inspection condition Touch panel inspection device.

  4). In the above 1, the input also specifies a non-inspection area for the video, and the defect detection unit also omits the video inspection for the non-inspection area.

  5). In the above 1, the input also specifies a plurality of divided sub-regions for the image, and the defect detection unit performs the first image inspection and the second image inspection for the plurality of divided images. Touch panel inspection device for each lower area.

  6). 5. The touch panel inspection device according to 5 above, wherein unit cell patterns in each of the plurality of divided lower regions are the same.

  7). 5. The touch panel inspection apparatus according to 5 above, wherein a unit cell pattern in the plurality of divided lower regions is different from a unit cell pattern in another lower region in the plurality of divided lower regions.

  8). In the above 1, the input also specifies a plurality of partitioned sub-regions for the video, and at least two sub-regions of the plurality of sub-regions of the period comparison region A touch panel inspection apparatus that specifies the same relative position and specifies the relative position of the cell-to-cell comparison region to be different for each of the plurality of subordinate regions.

  9. In the above 1, the input also specifies a plurality of divided lower regions for the video, and specifies the relative positions of the period comparison regions for the plurality of divided lower regions. A touch panel inspection device that designates the relative position of the cell-to-cell comparison region to be the same in at least two subregions of the plurality of subregions.

  10. In the above 1, the input also specifies a plurality of partitioned lower regions for the video, and each of at least two lower regions of the plurality of partitioned lower regions has a unit cell pattern. Touch panel inspection device.

  11. In the above 10, the input also designates a non-inspection area of each of the plurality of divided lower areas, and each of the at least two divided lower areas excludes the non-inspection area And a unit cell pattern having the same pattern, and the defect detection unit also omits video inspection for the non-inspection area.

  12 In the above one, the input also specifies a plurality of partitioned sub-regions for the video, specifies a non-inspection region for each of the plurality of partitioned sub-regions, and the plurality of partitioned sub-regions Each of at least two subregions in the subregion includes a unit cell pattern having a different pattern in the non-inspection region, and the defect detection unit also omits video inspection for the non-inspection region. A touch panel inspection device.

  13. 1. The touch panel inspection apparatus according to 1, further comprising an output unit that displays the position of the defect detected by the defect detection unit through at least one of the first image inspection and the second image inspection.

  14 In the above 13, the output unit also displays a video showing the defect in response to selection for the display.

15. Acquiring a captured image by imaging a glass sheet for a touch panel including a plurality of cell regions as one whole region or dividing into divided regions;
Receiving an input designating a period comparison area and a cell-to-cell comparison area for the image; and a first image inspection for comparing pixels in the period comparison region in a predetermined period unit in the image. And performing at least one of a second image inspection for comparing the cell-to-cell comparison region with at least three cell regions of the plurality of cell regions on the glass sheet, A touch panel inspection method including a step of detecting a defect.

  16. In the above 15, the acquiring step includes the step of identifying the plurality of cell regions using layout information of the glass sheet; and capturing the plurality of identified cell regions to acquire the image. Including touch panel inspection method.

  17. In the above 15, the input also specifies an inspection region and different inspection conditions for the inspection region in the cell-to-cell comparison region, and the second video inspection is performed according to the inspection condition .

  18. 15. The touch panel inspection method according to 15, wherein the input also designates a non-inspection area for the video, and the detecting step omits the video inspection for the non-inspection area.

  19. In the above fifteen, the input also specifies a plurality of partitioned sub-regions for the image, and the detecting step includes dividing the first image inspection and the second image inspection into the plurality of sections. A touch panel inspection method including a step performed for each lower area.

  20. 19. The touch panel inspection method as described in 19 above, wherein the unit cell patterns in each of the plurality of divided lower regions are the same.

  21. 19. The touch panel inspection method according to 19, wherein one unit cell pattern in the plurality of divided lower regions is different from a unit cell pattern in another lower region of the plurality of divided lower regions.

  22. In the above fifteen, the input also specifies a plurality of partitioned sub-regions for the video, and at least two sub-regions of the plurality of sub-regions of the period comparison region A touch panel inspection method, wherein a relative position is specified to be the same, and a relative position of the cell-to-cell comparison region is specified to be different for each of the plurality of divided subregions.

  23. In the above 15, the input also specifies a plurality of divided lower areas for the image, and specifies the relative position of the period comparison area for each of the plurality of divided lower areas. The touch panel inspection method of designating the relative position of the cell-to-cell comparison region to be the same in at least two subregions of the plurality of subordinate regions.

  24. In the above 15, the input also specifies a plurality of partitioned lower regions for the video, and each of at least two lower regions of the plurality of partitioned lower regions has a unit cell pattern. A touch panel inspection method.

  25. In the above 24, the input also designates a non-inspection area of each of the plurality of divided lower areas, and each of the at least two divided lower areas excludes the non-inspection area A touch panel inspection method, wherein unit cell patterns having the same pattern are included, and the detecting step omits video inspection for the non-inspection region.

  26. In the above 15, the input also specifies a plurality of partitioned sub-regions for the video, specifies a non-inspection region for each of the plurality of partitioned sub-regions, and the plurality of partitioned sub-regions Each of the at least two subregions in the subregion includes a unit cell pattern having a different pattern in the non-inspection region, and the detecting step omits video inspection for the non-inspection region. Touch panel inspection method.

  27. 16. The touch panel inspection method as set forth in 15 above, further comprising displaying a position of the defect detected through at least one of the first image inspection and the second image inspection.

  28. 27. The touch panel inspection method according to claim 27, further comprising displaying an image showing the defect in response to a selection for the display.

  Since the touch panel inspection apparatus and method of the present invention easily inspects various areas on the touch panel based on video analysis according to the characteristics and inspection conditions of each area, the defects on the touch panel are more efficiently and more accurately detected. Can be detected.

FIG. 1 is a diagram illustrating a touch panel inspection apparatus according to an embodiment of the present invention. FIG. 2 is a diagram illustrating a layout of a glass sheet for a touch panel according to an embodiment of the present invention. FIG. 3 is a block diagram illustrating a configuration of the image acquisition unit of FIG. 1 according to an embodiment of the present invention. FIG. 4 illustrates a user interface adapted by a user in specifying a period comparison region and a cell-to-cell comparison region according to one embodiment of the present invention. FIG. 5 is a diagram illustrating a specified period comparison area and cell-to-cell comparison area according to an embodiment of the present invention. FIG. 6 is a diagram for explaining an inspection region designated within a cell-to-cell comparison region and different inspection conditions for the inspection region according to an embodiment of the present invention. FIG. 7 illustrates a user interface displaying the location of detected defects according to one embodiment of the present invention. FIG. 8 illustrates an image showing defects detected through a horizontal / vertical period comparison method according to an embodiment of the present invention. FIG. 9 illustrates an image showing a defect detected through a cell-to-cell comparison method and an image showing a corresponding part in a compared peripheral cell region according to an embodiment of the present invention.

  Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. However, this is merely an example, and the present invention is not limited to this.

  In the description of the embodiments of the present invention, when it is determined that a specific description of a known technique related to the present invention can unnecessarily obscure the gist of the present invention, a detailed description thereof will be omitted. The terms described later are terms that are defined in consideration of the functions in the present invention, and this may vary depending on the user's, operator's intention or custom. Therefore, the definition must be based on the entire contents of this specification.

  A touch panel inspection apparatus according to an embodiment of the present invention captures an image of a glass sheet for a touch panel including a plurality of cell regions as one entire region, or obtains a captured image by dividing the region into divided regions. An image acquisition unit; an area setting unit that receives an input specifying a period comparison area and a cell-to-cell comparison area for the image; and presets pixels in the period comparison area in the image In a first image inspection for comparing in a periodic unit and a second image inspection for comparing the cell-to-cell comparison region in at least three cell regions of the plurality of cell regions in the image. Do at least one, and include a defect detection unit that detects defects on the glass sheet, and easily according to the characteristics and inspection conditions of each area on the touch panel To perform the test based on the image analysis, the more efficient the defects on the touch panel, it is possible to more accurately detect.

  FIG. 1 is a view illustrating a touch panel inspection apparatus according to an embodiment of the present invention.

  As shown in FIG. 1, the touch panel inspection apparatus (100) includes a video acquisition unit (110), a region setting unit (120), a defect detection unit (130), and an output unit (140). Each component of the touch panel inspection apparatus (100) may be implemented by a computer apparatus or other apparatus that operates in conjunction with the computer apparatus.

  The image acquisition unit (110) is configured to acquire an image by imaging a glass sheet for a touch panel including a cell region. Each cell area may include a unit cell pattern corresponding to the cell area. Each unit cell pattern may be the same or different. If the glass sheet of a test object is a glass sheet for touch panels which can be test | inspected based on an image analysis using an optical system, the kind in particular will not be restrict | limited. For example, the image acquisition unit 110 captures an image of the exemplary touch panel glass sheet 200 having the layout illustrated in FIG. 2 as one whole area, or divides the image into divided areas. Captured images can be acquired. As an example, the video acquisition unit (110) images each of the plurality of cell regions (210-1 to 210-15) on the glass sheet for touch panel (200), and the plurality of cell regions (210-1 to 210-15). ) Scanned images including each image can be acquired.

  For this, the image acquisition unit 110 according to an embodiment of the present invention includes an input unit 112, an imaging device control unit 114, an imaging device 116, and a memory 118 as illustrated in FIG. 3. ) Can be included.

  The input unit (112) can receive the layout information of the glass sheet for touch panel (200) (for example, in the form of a file). For example, the input unit (112) can identify cell regions (210-1 to 201-15) on the glass sheet for touch panel (200) using the layout information. Thereby, the input unit (112) can acquire the position information of each of the cell areas (210-1 to 210-15) and store it in the memory (118).

  The imaging device control unit (114) divides the glass sheet for touch panel (200) including the cell regions (210-1 to 210-15) as one whole region or into divided regions by the imaging device (116). The imaging device (116) can be moved so that it can be imaged. For example, the imaging device control unit (114) reads the position information of each identified cell region (210-1 to 210-15) from the memory (118), and the imaging device (116) detects the cell region (210-1). ˜210-15) The imaging device (116) can be moved in the X-axis and / or Y-axis directions according to the read position information so as to capture the respective images. On the other hand, in the periphery of the cell region on the glass sheet for touch panel (200), a reference point (260) for deposition of the sensor electrode, a glass sheet (200), or a product number (lot number) given to each cell region. The display (270, 280) may exist, but the imaging device control unit (114) does not capture the display by the imaging device (116), and the cell region (210-1 to 210-15). Control can be performed to acquire a scanned image including each image. In this case, a separate mechanism for preventing such display from being recognized as a defect on the glass sheet (200) in video analysis is not necessary.

  The imaging device (116) images the appearance (for example, the surface shown in FIG. 2) of the glass sheet for touch panel (200) under the control of the imaging device control unit (114), and cell regions (210-1 to 210-). 15) can be acquired. Further, the imaging device (116) can store the acquired video in the memory (118). The imaging device (116) is not particularly limited as long as it can receive light incident from an inspection object such as a glass sheet for a touch panel (200) and capture an image. For example, a camera (for example, a CCD (Charge) -Coupled Device) camera), optical sensor, etc. Although not shown in FIG. 3, a light source that irradiates light onto the inspection target for imaging by the imaging device (116) may be disposed around the inspection target. For example, an LED lamp (Light Emitting Diode Lamp), a halogen lamp such as a metal halide lamp, a fluorescent lamp, an incandescent lamp, or the like may be used as the light source. Further, the arrangement of the imaging device (116) and the light source, the imaging angle of the imaging device (116), and the light irradiation angle of the light source are not particularly limited as long as appropriate imaging and appropriate light irradiation of the inspection object can be performed.

  Further, the remaining components of the touch panel inspection apparatus (100) will be described with reference to FIG.

  According to an embodiment of the present invention, the user may input various types of input to the image acquired by the image acquisition unit 110 (eg, a period comparison region and a cell-to-cell for the acquired image). -Cell) input for designating the comparison region) can be provided to the region setting unit (120). To this end, a user uses various types of operations (eg, a pointing device such as a mouse) using an input device (eg, a pointing device such as a mouse, a keyboard, a touch input device, and / or a voice input device). Clicks, hovering and drag and drop, and text entry using the keyboard, pressing one key or a combination of two or more keys) At least one of them can be performed.

  The area setting unit (120) is configured to receive such input. To this end, the region setting unit (120) can provide a user interface adapted to receive the input as described above. For example, the region setting unit (120) may receive an input designating a period comparison region and a cell-to-cell comparison region for the video acquired by the video acquisition unit (110). Further, the area setting unit (120) can receive an input designating a plurality of divided lower areas for the video acquired by the video acquisition unit (110). At this time, the unit cell patterns in each of the divided lower regions may be the same. On the other hand, the unit cell patterns in each of the divided lower regions may be different from the unit cell patterns in other lower regions.

  As an example, as illustrated in FIG. 4, the region setting unit (120) is arbitrarily selected by one of the cell regions (210-1 to 210-15) (for example, the user or the touch panel inspection device (100)). The user interface (400) may be provided on which an image (410) showing the displayed cell region (210-9) is displayed. As a result, the region setting unit (120) causes the relative position of the periodic comparison region and the relative position of the cell-to-cell comparison region to be the same in each of the cell regions (210-1 to 210-15). And an input designating a cell-to-cell comparison region.

  As another example, the input received by the region setting unit (120) not only designates a plurality of divided lower regions for the acquired video, but also at least two of the divided lower regions. The relative position of the period comparison area can be specified to be the same in the lower area of the cell, and the relative position of the cell-to-cell comparison area can be specified to be different for each divided lower area. In contrast, when the input received by the region setting unit (120) specifies a plurality of divided lower regions for the acquired video, the relative position of the period comparison region is determined for each divided lower region. The relative positions of the cell-to-cell comparison region can be specified to be the same in at least two subregions among the divided subregions.

  Hereinafter, the period comparison area and the cell-to-cell comparison area will be described in more detail. As seen from the image (410) of FIG. 4, each of the cell regions (210-1 to 210-15) includes a region (411) including an electrode pattern such as an ITO (Indium Tin Oxide) pattern, a metal pattern, and the like. It can be divided into a region (412) not including such an electrode pattern. In addition, the region (412) not including the electrode pattern has two holes (for example, a camera hole in which light is incident on a camera built in the electronic device using the cell region and infrared light is emitted from the electronic device). There may be a specific symbol (417) associated with an IR hole) (413, 414), a logo (415), a mark (416) and / or a cell region.

  One of the usual methods for detecting defects from an image is to inspect the pixels in the period comparison region in the acquired image in units of preset pixel period in the horizontal and / or vertical direction. For example, such a horizontal / vertical period comparison method corresponds to each other by comparing a video portion of a pixels in the X-axis direction and b pixels in the Y-axis direction with a peripheral video portion having the same size. If the pixel at the position is different, it is determined that there is a defect. However, in the image of the cell region (210-1 to 210-15) where the region (411) where the electrode pattern exists, the hole (413, 414), the logo (415), the mark (416) and the symbol (417) exist. On the other hand, it is difficult to apply the horizontal / vertical period comparison method collectively, but according to this comparison method, it may be determined that a normal cell region also has a defect.

  Instead, the region setting unit (120) allows a period comparison region and a cell-to-cell comparison region to be designated on the user interface (400) for an image acquired for the user. For example, as illustrated in FIG. 5, when the user sets the inspection method of the region (512, 513, 514, 515, 516, 517) using the horizontal / vertical period comparison method, the user can select the region (511, 518, 519). 520) can be provided to the region setting unit 120 with an input for setting the inspection method by the cell-to-cell comparison method. For example, the cell-to-cell comparison method can compare the cell-to-cell comparison area between three or more cell areas in the cell area on the touch panel glass sheet (200) in the acquired image. For example, pattern comparison is performed on video portions corresponding to the cell region (210-2) and the regions (511, 518, 519, 520) in the adjacent cell regions (210-1 and 210-3) on the left and right sides thereof. Thus, a cell-to-cell comparison method for detecting a defect and identifying the position of the defect can be adopted.

  The input received by the area setting unit (120) may be an input for designating a non-inspection area for the acquired video. For example, the region setting unit (120) can receive an input specifying that the video inspection of the region (521) is omitted.

  Furthermore, the input received by the area setting unit (120) is an input for designating a non-inspection area for each of the divided lower areas when specifying a plurality of divided lower areas for the acquired video. May be. At this time, each of at least two lower regions of the divided lower regions includes a unit cell pattern (for example, a unit cell pattern having a different pattern in a designated non-inspection region and / or a designated non-inspection region). Unit cell pattern having the same pattern in the region excluding.

  On the other hand, the region setting unit 120 may specify, on the user interface 400, inspection regions that are separated from each other within the cell-to-cell comparison region and different inspection conditions for the inspection regions. For example, different types of patterns (for example, ITO pattern and metal pattern) in the region (511) may have different inspection conditions, but certain types of patterns can function even if they have defects. On the other hand, other types of patterns may not. Therefore, as shown in FIG. 6, the user sets an inspection region (611, 612, 613) for each pattern region, and inputs for setting different inspection conditions for each inspection region are input to the user interface (400). Can be provided to the area setting unit (120).

  The defect detection unit (130) performs first image inspection for comparing pixels in the period comparison region with the image acquired by the image acquisition unit (110) through the horizontal / vertical period comparison method, and cell-to-cell comparison region in the image. It is configured to detect a defect by performing at least one of the second video inspections to be compared through the cell-to-cell comparison method. For example, the defect detection unit (130) may perform a first video inspection and a second video inspection on the images of the cell regions (210-1 to 210-15) according to the input received from the region setting unit (120). You can do at least one of In addition, the defect detection unit (130) can determine the presence or absence of a defect based on different inspection conditions for each inspection region in the cell-to-cell comparison region. On the other hand, the defect detection unit 130 can omit the video inspection (for example, the first video inspection and the second video inspection) for the non-inspection area. Further, when the region setting unit (120) receives an input designating a plurality of divided lower regions for the video acquired by the video acquisition unit (110), the defect detection unit (130) A first video inspection and a second video inspection can be performed.

  When the defect detection unit 130 detects a defect through at least one of the first image inspection and the second image inspection, the output unit 140 is configured to display a position of the detected defect. . For example, as illustrated in FIG. 7, the output unit 140 displays a user interface 700 that displays where the detected defects are located with respect to the cell regions 210-1 to 210-15. Can be provided.

  In addition, the output unit (140) can display an image of the defect in response to a user selection for a display indicating the position of the defect. When the image of the cell area where the defect has occurred has a considerably large capacity, it is less burdensome for the touch panel inspection apparatus (100) to display a part of the image including the defect than to display the image.

  For example, the graphical representation (701) shown in the user interface (700) of FIG. 7 displays the location of the first defect detected through the horizontal / vertical period comparison method, and the graphical representation (702) Assume that the position of the second defect detected through the period comparison method is displayed. As can be seen from FIG. 7, the first defect and the second defect were generated on the cell region (210-7). If the user selects the graphic representation (701) on the user interface (700), the output unit (140) may display an image indicating the first defect in response to such user selection. For example, FIG. 8 shows a video (800) showing a first defect and a peripheral portion with a title indicating the cell region. If the user selects a graphic representation (702) on the user interface (700), the output unit (140) may display an image showing the second defect in response to such user selection. For example, FIG. 9 shows an image (900) showing a second defect and a peripheral portion of a preset size with a title indicating the cell region. Further, for the convenience of the user, the output unit 140 may display an image showing a corresponding portion in the peripheral cell region compared through the cell-to-cell comparison method. For example, when the cell region (210-7) is compared with the cell region (210-8, 210-9) by the cell-to-cell comparison method, the output unit (140) shows a part of the cell region (210-8). A video (eg, video (910) in FIG. 9) and a video (eg, video (920) in FIG. 9) showing a portion of the cell area (210-9) can also be displayed, and this video is displayed in the cell area ( 210-7) shows the part corresponding to the second defect above.

  According to another embodiment of the present invention, a touch panel glass sheet including a plurality of cell regions is imaged as one whole region, or divided into divided regions to obtain captured images; Receiving an input designating a period comparison area and a cell-to-cell comparison area; and a first image inspection for comparing pixels in the period comparison area with a predetermined period unit in the image and the image Performing at least one of a second image inspection for comparing the cell-to-cell comparison region between at least three cell regions of the plurality of cell regions to detect defects on the glass sheet; A touch panel inspection method including stages is provided. For example, such a touch panel inspection method may be performed using a touch panel inspection apparatus according to an embodiment of the present invention (for example, the touch panel inspection apparatus (100) described above).

  As described above, the representative embodiments of the present invention have been described in detail. However, those having ordinary knowledge in the technical field to which the present invention belongs can be applied to the above-described embodiments within the scope of the present invention. It can be understood that various modifications are possible. Therefore, the scope of rights of the present invention should not be defined only by the embodiments described, but should be defined not only by the claims described later, but also by the equivalents of the claims.

100: Touch panel inspection device 110: Image acquisition unit 112: Input unit 114: Imaging device control unit 116: Imaging device 118: Memory 120: Area setting unit 130: Defect detection unit 140: Output unit

Claims (28)

A video acquisition unit that captures an image of a glass sheet for a touch panel including a plurality of cell regions as one whole region or acquires a captured image by dividing the image into divided regions;
At least one of the period comparator region and at least one pair of cells the cell (cell-to-cell) area setting unit receives an input specifying the comparison region for each of a plurality of cell regions in the image; and in said image, A first image inspection for comparing pixels in the period comparison area with the set period units in a predetermined period unit, and at least three of the cell-to-cell comparison areas in the plurality of cell areas in the image. A touch panel inspection apparatus including a defect detection unit configured to detect a defect on the glass sheet by performing at least one of second image inspections for comparison between cell regions.   The video acquisition unit includes an input unit that identifies the plurality of cell regions using layout information of the glass sheet; and an imaging device that captures the plurality of identified cell regions and acquires the video. The touch panel inspection apparatus according to claim 1, wherein the touch panel inspection apparatus is characterized. The input specifies different inspection conditions for the inspection region and the inspection region within the cell-to-cell comparison region;
The touch panel inspection apparatus according to claim 1, wherein the defect detection unit performs the second image inspection according to the inspection condition. The input specifies a non-inspection area for the video,
The touch panel inspection apparatus according to claim 1, wherein the defect detection unit omits video inspection for the non-inspection area. The input specifies a plurality of divided sub-regions for the video;
The touch panel inspection apparatus according to claim 1, wherein the defect detection unit performs the first image inspection and the second image inspection for each of the plurality of divided lower regions.   The touch panel inspection apparatus according to claim 5, wherein unit cell patterns in each of the plurality of subordinate regions are the same.   6. The unit cell pattern in the plurality of partitioned lower regions is different from the unit cell pattern in another lower region in the plurality of partitioned lower regions. The touch panel inspection apparatus as described.   The input designates a plurality of divided sub-regions for the video, and designates the relative positions of the period comparison regions identical in at least two sub-regions of the plurality of sub-regions The touch panel inspection device according to claim 1, wherein the relative position of the cell-to-cell comparison region is specified to be different for each of the plurality of divided lower regions.   The input specifies a plurality of partitioned sub-regions for the video, specifies a relative position of the period comparison region for each of the plurality of partitioned sub-regions, and specifies the plurality of partitioned sub-regions. The touch panel inspection apparatus according to claim 1, wherein the relative position of the cell-to-cell comparison region is specified to be the same in at least two lower regions in the lower region.   The input specifies a plurality of partitioned lower regions for the video, and each of at least two of the plurality of partitioned lower regions includes a unit cell pattern. The touch panel inspection device according to claim 1. The input designates a non-inspection area of each of the plurality of divided lower areas, and each of the at least two divided lower areas has a unit pattern having the same pattern except for the non-inspection area Cell pattern,
The touch panel inspection apparatus according to claim 10, wherein the defect detection unit omits video inspection for the non-inspection area. The input specifies a plurality of partitioned lower regions for the video, specifies a non-inspection region of each of the plurality of partitioned lower regions, and at least two of the plurality of partitioned lower regions Each of the lower regions includes a unit cell pattern having a different pattern in the non-inspection region,
The touch panel inspection apparatus according to claim 1, wherein the defect detection unit omits an image inspection for the non-inspection area.   2. The defect detection unit of claim 1, further comprising an output unit that displays a position of the defect detected through at least one of the first image inspection and the second image inspection. Touch panel inspection device.   The touch panel inspection apparatus according to claim 13, wherein the output unit displays an image indicating the defect in response to selection for the display. Acquiring a captured image by imaging a glass sheet for a touch panel including a plurality of cell regions as one whole region or dividing into divided regions;
At least one of the periodic comparison area and stage receiving an input specifying at least one pair of cells cell comparison regions for each of a plurality of cell regions in said image; in and the video previously pixels of the period comparator region A first image inspection for comparing the set period units with a set period unit, and comparing the cell-to-cell comparison area with at least three cell areas of the plurality of cell areas in the image. A touch panel inspection method comprising: performing at least one of second image inspections for detecting defects on the glass sheet.   The acquiring step includes the step of identifying the plurality of cell regions using layout information of the glass sheet; and capturing the plurality of identified cell regions to acquire the image. The touch panel inspection method according to claim 15. The input specifies different inspection conditions for the inspection region and the inspection region within the cell-to-cell comparison region;
The touch panel inspection method according to claim 15, wherein the second image inspection is performed according to the inspection condition. The input specifies a non-inspection area for the video,
The touch panel inspection method according to claim 15, wherein in the detecting step, image inspection is omitted for the non-inspection area. The input specifies a plurality of divided sub-regions for the video;
The touch panel inspection method according to claim 15, wherein the detecting includes performing the first image inspection and the second image inspection for each of the plurality of divided lower regions.   The touch panel inspection method according to claim 19, wherein unit cell patterns in each of the plurality of subordinate regions are the same.   The unit cell pattern in the plurality of partitioned sub-regions is different from the unit cell pattern in another sub-region of the plurality of sub-regions. The touch panel inspection method as described.   The input designates a plurality of divided sub-regions for the video, and designates the relative positions of the period comparison regions identical in at least two sub-regions of the plurality of sub-regions The touch panel inspection method according to claim 15, wherein the relative position of the cell-to-cell comparison region is specified to be different for each of the plurality of divided lower regions.   The input specifies a plurality of divided lower regions for the video, specifies a relative position of the period comparison region for each of the plurality of divided lower regions, and specifies the plurality of divided lower regions. The touch panel inspection method according to claim 15, wherein the relative position of the cell-to-cell comparison region is designated to be the same in at least two lower regions of the lower region.   The input specifies a plurality of partitioned lower regions for the video, and each of at least two of the plurality of partitioned lower regions includes a unit cell pattern. The touch panel inspection method according to claim 15. The input designates a non-inspection area of each of the plurality of divided lower areas, and each of the at least two divided lower areas has a unit pattern having the same pattern except for the non-inspection area Cell pattern,
The touch panel inspection method according to claim 24, wherein in the detecting step, a video inspection is omitted for the non-inspection area. The input specifies a plurality of partitioned lower regions for the video, specifies a non-inspection region of each of the plurality of partitioned lower regions, and at least two of the plurality of partitioned lower regions Each of the lower regions includes a unit cell pattern having a different pattern in the non-inspection region,
The touch panel inspection method according to claim 15, wherein in the detecting step, image inspection is omitted for the non-inspection area.   The touch panel inspection method according to claim 15, further comprising displaying a position of the defect detected through at least one of the first image inspection and the second image inspection.   28. The touch panel inspection method according to claim 27, further comprising displaying an image indicating the defect in response to selection for the display.

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