TW201725379A - Aperture inspection system effectively enhances production efficiency to increase the yield of the finished products - Google Patents
Aperture inspection system effectively enhances production efficiency to increase the yield of the finished products Download PDFInfo
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本發明係有關一種檢測系統,特別是指一種透過影像檢測孔徑之孔徑檢測系統。The invention relates to a detection system, in particular to an aperture detection system for detecting aperture through an image.
一般生產半導體之元件多半需在無塵室中進行製程。無塵室最主要之作用在於控制產品,如半導體晶片等所接觸之環境空氣的潔淨度,及環境的溫濕度,使產品能在一個良好的環境空間中生產、製造。一般無塵室必須維持在幾乎沒有灰塵的環境,標準多半控制在每立方米,大於0.5微米粒徑的微塵數量在3500個以下,雖然微塵人眼看不到,但是對半導體元件而言,只要是一點點的灰塵,就會對整個生產造成非常大的負面影響,所以在半導體產品的生產上,無塵係為必要的條件之一。Most of the components that generally produce semiconductors need to be processed in a clean room. The main function of the clean room is to control the cleanliness of the product, such as semiconductor wafers, and the ambient temperature and humidity, so that the products can be produced and manufactured in a good environment. Generally, the clean room must be maintained in an environment with little dust. The standard is mostly controlled at every cubic meter. The number of fine dusts larger than 0.5 micron is less than 3,500. Although the dust is not visible to the human eye, as far as the semiconductor components are concerned, as long as it is A little bit of dust will have a very large negative impact on the entire production, so in the production of semiconductor products, dust-free system is one of the necessary conditions.
為此目前產業界製程環境要求潔淨的程度越來越高,當然在製作半導體的裝置上也相對的要求提高,如噴頭(shower head)氣孔的整潔就變得相當重要,噴頭氣孔的整潔不但會影響到噴出的品質,更直接影響到半導體元件的製程,因此若能有效使氣孔清潔,除了能提高無塵室內部空氣品質之外,最能影響的就是能有效提高產品的製程良率。For this reason, the current manufacturing process environment requires more and more cleanliness. Of course, the requirements for making semiconductor devices are also relatively high. For example, the cleanliness of the nozzle head becomes very important, and the venting of the nozzle pores will not only be clean. Affecting the quality of the spray, it directly affects the process of the semiconductor component. Therefore, if the pores can be effectively cleaned, in addition to improving the air quality inside the clean room, the most influential is to effectively improve the process yield of the product.
因此產業界設計一種檢測噴頭氣孔之檢測裝置,一般習知的氣孔檢測裝置多半係採取光學鏡頭,逐一小範圍的量測單一的氣孔,但使用此檢測模式會造成檢測時間過長,且小範圍的檢測造成檢測範圍過於狹隘,而無法達到能同時檢測多種尺寸氣孔之缺點。因此檢測氣孔時,如何有效縮短檢測時間,同時能有效提供精確的量測資訊,以及大範圍檢測儼然已成為目前檢測裝置的重點。Therefore, the industry has designed a detecting device for detecting the air vent of the nozzle. Generally, the conventional stomata detecting device adopts an optical lens to measure a single vent hole in a small range, but using this detection mode causes the detection time to be too long and a small range. The detection caused the detection range to be too narrow, and the disadvantage of being able to simultaneously detect multiple sizes of pores could not be achieved. Therefore, when detecting the air holes, how to effectively shorten the detection time, and at the same time effectively provide accurate measurement information, and large-scale detection has become the focus of the current detection device.
有鑑於此,本發明遂針對上述習知技術之缺失,提出一種孔徑檢測系統,以有效克服上述之該等問題。In view of the above, the present invention proposes an aperture detecting system to effectively overcome the above problems in view of the above-mentioned shortcomings of the prior art.
本發明之主要目的係在提供一種孔徑檢測系統,其攝影裝置與移動發光元件可同軸移動,避免偏光以至於被檢測的孔徑取像不清楚,可有效檢測出孔徑是否產生缺陷,或有髒汙阻塞於孔徑中。The main object of the present invention is to provide an aperture detecting system in which a photographing device and a moving light-emitting element can be moved coaxially to avoid polarization, so that the detected aperture is unclear, and it is possible to effectively detect whether the aperture is defective or dirty. Blocked in the aperture.
本發明之另一目的係在提供一種孔徑檢測系統,其係可以檢測裝置掃描的方式大範圍的檢測,可有效增加檢測速率。Another object of the present invention is to provide an aperture detection system that can detect a wide range of detections in a manner that the apparatus scans, and can effectively increase the detection rate.
本發明之再一目的係在提供一種孔徑檢測系統,其係可有效提高檢測效率,可避免因孔徑的缺陷造成生產良率降低,可有效提高生產效率,增加成品的良率。A further object of the present invention is to provide an aperture detecting system which can effectively improve the detection efficiency, avoid the production yield reduction due to the defect of the aperture, effectively improve the production efficiency, and increase the yield of the finished product.
為達上述之目的,本發明提供一種孔徑檢測系統,其係包括一機台,機台上具有一平台,其係為花崗岩平台,且平台上設有至少一容置裝置,以容置一待測元件,一攝影裝置設置於平台上,且攝影裝置係位於容置裝置上方,使攝影裝置之鏡頭對準容置裝置,藉此來回掃描檢測待測元件的每一孔徑,至少一第一發光元件設置於攝影裝置上,第一發光元件並隨著鏡頭移動,以及一移動發光元件設置於平台上且位於容置裝置下方,移動發光元件係對準容置裝置上待測元件的孔徑,並與攝影裝置之鏡頭同軸移動。In order to achieve the above object, the present invention provides an aperture detecting system, which includes a machine platform having a platform, which is a granite platform, and at least one receiving device is disposed on the platform to accommodate Measuring device, a photographic device is disposed on the platform, and the photographic device is located above the accommodating device, so that the lens of the photographic device is aligned with the accommodating device, thereby scanning and detecting each aperture of the device to be tested, at least one first illuminating The component is disposed on the photographic device, the first illuminating component moves along with the lens, and a moving illuminating component is disposed on the platform and located under the accommodating device, and the moving illuminating component is aligned with the aperture of the component to be tested on the accommodating device, and Moves coaxially with the lens of the photographic device.
其中機台更包括一控制裝置以及一驅動裝置,控制裝置電性連接驅動裝置,驅動裝置連接攝影裝置之攝影機以及移動發光元件,控制裝置控制驅動裝置使攝影裝置以及移動發光元件同步移動。且控制裝置更包括一操作介面提供輸入操作訊號;一資料庫儲存待測元件每一孔徑之樣本影像;一處理器電性連接操作介面、驅動裝置、資料庫以及攝影機,處理器根據操作訊號驅動驅動裝置,處理器接收攝影機之孔徑影像,並擷取資料庫之樣本影像,以根據樣本影像比對孔徑影像,當孔徑影像與樣本影像之孔徑不同,則發出一警示訊號;一顯示介面根據警示訊號輸出警示。The machine further includes a control device and a driving device. The control device is electrically connected to the driving device. The driving device is connected to the camera of the photographic device and the mobile illuminating device. The control device controls the driving device to synchronously move the photographic device and the moving illuminating device. And the control device further comprises an operation interface for providing an input operation signal; a database for storing the sample image of each aperture of the device to be tested; a processor electrically connecting the operation interface, the driving device, the data base and the camera, and the processor is driven according to the operation signal a driving device, the processor receives the aperture image of the camera, and captures the sample image of the database to compare the aperture image according to the sample image. When the aperture image is different from the aperture of the sample image, a warning signal is sent; a display interface is alerted according to the warning Signal output warning.
其中控制裝置控制驅動裝置,驅動攝影機以及移動發光元件以S型來回掃描每一孔徑,並可驅動攝影機靠近或遠離待測元件。The control device controls the driving device, drives the camera and moves the light-emitting elements to scan each aperture back and forth in an S-shape, and can drive the camera to be close to or away from the device to be tested.
底下藉由具體實施例詳加說明,當更容易瞭解本發明之目的、技術內容、特點及其所達成之功效。The purpose, technical content, features and effects achieved by the present invention will be more readily understood by the detailed description of the embodiments.
本發明係為一種孔徑檢測系統,孔徑檢測系統能使檢測孔徑的攝影機與檢測燈光同軸移動,能有效避免產生偏光導致被檢測的孔徑取像不清楚等情形,因此本發明可有效檢測出孔徑是否產生缺陷,或藏有髒汙於孔徑中。The invention is an aperture detecting system. The aperture detecting system can make the camera for detecting the aperture move coaxially with the detecting light, can effectively avoid the situation that the detected aperture is unclear due to the polarized light, and therefore the invention can effectively detect whether the aperture is Produces defects or is contaminated in the pores.
請參照第一圖與第二圖,如圖所示,本發明之孔徑檢測系統1,包括一機台10上具有一平台12,其可為花崗岩平台,使用花崗岩平台能使平台12呈現出完全水平的狀態,避免平台12上所設置的裝置歪斜,且平台12上設有至少一容置裝置14,以容置一待測元件(圖中未示),待測元件可為具有複數孔徑之待測元件,本實施例舉例為噴頭(shower head),其中容置裝置14可為抗靜電容置裝置,如工程塑膠容置裝置,可避免產生靜電而破壞到待測元件。且容置裝置14係利用至少一第一固定元件142固定在平台12上,本實施例舉例第一固定元件142係為螺栓或插銷,穿設在容置裝置14上,藉此將容置裝置14鎖固在平台12上。Referring to the first figure and the second figure, as shown in the figure, the aperture detecting system 1 of the present invention includes a platform 10 having a platform 12, which can be a granite platform, and the granite platform can make the platform 12 appear completely. In a horizontal state, the device provided on the platform 12 is prevented from being skewed, and the platform 12 is provided with at least one accommodating device 14 for accommodating a device to be tested (not shown), and the device to be tested may have a plurality of apertures. The device to be tested is exemplified by a shower head. The accommodating device 14 can be an anti-static capacitor device, such as an engineering plastic accommodating device, to prevent static electricity from being destroyed to the device to be tested. The accommodating device 14 is fixed on the platform 12 by using at least one first fixing component 142. In this embodiment, the first fixing component 142 is a bolt or a pin, which is disposed on the accommodating device 14 , thereby accommodating the accommodating device 14 is locked to the platform 12.
接下來請持續參照第一圖與第二圖,機台10之平台12上更設有一攝影裝置20,其中攝影機裝置20具有二支撐桿22,分別設置於容置裝置14兩側,且二支撐桿22之間更設有一橫桿24,其上設有一攝影機26,攝影機26的鏡頭28並對準容置裝置14,以來回掃描容置裝置14上待測元件的每一孔徑;攝影裝置20上更設有至少一第一發光元件30,第一發光元件30並隨攝影機26的鏡頭28移動,而本實施例舉例具有二第一發光元件30,分別設置在於鏡頭28的兩側,使第一發光元件30的光源可有效地隨著攝影機26鏡頭28移動,照明目前所掃描到的範圍,其中第一發光元件30可為紅外光發光元件、白光發光元件或黃光發光元件等,可依需求改變,在此不以予為限;除此之外,平台12上且位於容置裝置14下方更設有一移動發光元件40,移動發光元件40係配合攝影機26之鏡頭28同軸移動,當攝影機26之鏡頭28掃描孔徑時,移動發光元件40跟著鏡頭28移動可避免偏光、暈光,以有效提升解析度辨識判讀。Next, please refer to the first figure and the second figure. The platform 12 of the machine 10 is further provided with a photographic device 20, wherein the camera device 20 has two support rods 22, which are respectively disposed on two sides of the accommodating device 14, and two supports A crossbar 24 is further disposed between the rods 22, and a camera 26 is disposed thereon. The lens 28 of the camera 26 is aligned with the accommodating device 14 to scan back and forth each aperture of the component to be tested on the accommodating device 14; Further, at least one first light-emitting element 30 is disposed, and the first light-emitting element 30 is moved along with the lens 28 of the camera 26, and the embodiment has two first light-emitting elements 30, which are respectively disposed on both sides of the lens 28, so that The light source of a light-emitting element 30 can effectively move with the lens 28 of the camera 26 to illuminate the currently scanned range, wherein the first light-emitting element 30 can be an infrared light-emitting element, a white light-emitting element or a yellow light-emitting element, etc. The requirement is changed, which is not limited thereto; in addition, a moving light-emitting element 40 is disposed on the platform 12 and below the receiving device 14, and the moving light-emitting element 40 is coaxially moved with the lens 28 of the camera 26 when photographing When the scanning aperture 26 of the lens 28, the light emitting element 40 moves the lens 28 is moved along the polarization can be avoided, halation, in order to effectively improve the resolution Identification interpretation.
接下來以詳細說明本實施例係如何使上述之攝影裝置20以及移動發光元件40同步移動,請參照第一圖與第二圖,如圖所示,機台10上更包括了一控制裝置50以及一驅動裝置60,控制裝置50電性連接驅動裝置60,而驅動裝置60係連接攝影裝置20之攝影機26以及移動發光元件40,使控制裝置50控制驅動裝置60使攝影裝置20之攝影機26以及移動發光元件40同軸移動。其中控制裝置50包括一操作介面52以提供輸入操作訊號;一資料庫54用以儲存待測元件的孔徑影像為樣本影像,其中樣本影像的影像係為待測元件在乾淨的狀態,且孔徑皆無損壞的情況下的孔徑影像;一處理器56電性連接操作介面52、驅動裝置60、資料庫54以及攝影裝置20之攝影機26,處理器56可根據操作介面52產生的操作訊號驅動驅動裝置60,能使攝影機26以及移動發光元件40以S型來回掃描每一孔徑,並可驅動攝影機26靠近或遠離待測元件,以對焦或掃描大範圍的影像。除此之外,處理器56更可接收攝影機26所擷取到的孔徑影像,同時擷取資料庫54之樣本影像,以根據樣本影像作為基準,比對每一孔徑的孔徑影像,當處理器56比對孔徑影像與樣本影像之孔徑不同時,則發出一警示訊號至一顯示介面58,顯示介面58即可根據警示訊號輸出警示,其中警示可能為影像顯示或聲音的警示來警告使用者,孔徑可能有髒汙或者是結構損壞等缺失,在此不以此為限。Next, in detail, how to make the above-mentioned photographing device 20 and the moving light-emitting element 40 move synchronously, please refer to the first figure and the second figure. As shown in the figure, the machine 10 further includes a control device 50. And a driving device 60, the control device 50 is electrically connected to the driving device 60, and the driving device 60 is connected to the camera 26 of the photographing device 20 and the moving light-emitting element 40, so that the control device 50 controls the driving device 60 to make the camera 26 of the photographing device 20 and The moving light emitting element 40 moves coaxially. The control device 50 includes an operation interface 52 for providing an input operation signal, and a database 54 for storing the aperture image of the device to be tested as a sample image, wherein the image of the sample image is in a clean state and the aperture is absent. An aperture image in the case of damage; a processor 56 is electrically connected to the operation interface 52, the driving device 60, the data library 54, and the camera 26 of the photographing device 20, and the processor 56 can drive the driving device 60 according to the operation signal generated by the operation interface 52. The camera 26 and the moving light-emitting element 40 can scan each aperture back and forth in an S-shape and can drive the camera 26 closer to or away from the component to be tested to focus or scan a wide range of images. In addition, the processor 56 can further receive the aperture image captured by the camera 26, and simultaneously capture the sample image of the database 54 to compare the aperture image of each aperture according to the sample image as the reference. When the aperture of the comparison aperture image and the sample image is different, a warning signal is sent to a display interface 58, and the display interface 58 can output an alarm according to the warning signal, wherein the warning may be an image display or a sound warning to warn the user. The aperture may be dirty or structurally damaged, and is not limited thereto.
接著說明驅動裝置60之結構,以詳述驅動裝置60如何驅動攝影裝置20以及移動發光元件40移動,其中驅動裝置60包括至少一驅動器62設置於機台10上,本實施例舉例可為線性馬達,驅動器62設於機台10上並電性連接控制裝置50的處理器56,以接受處理器56控制;一攝影機承載座64係承載攝影裝置20中的攝影機26,攝影機承載座64並電性連接驅動器62,使驅動器62控制攝影機承載座62於至少一攝影機軌道66上移動,本實施例舉例攝影機軌道66係位於攝影裝置20的橫桿24上,使攝影機承載座64於橫桿24上左右移動,而攝影機承載座64亦可受處理器56控制,驅動攝影機26上下移動,以調整攝影機26遠離或靠近待測元件。本實施例之攝影機軌道66除了位於橫桿24上之外,攝影機軌道66’更可分別設置於平台12上且位於容置裝置14的兩側,使攝影裝置20的二支撐桿22於攝影機軌道66上移動。Next, the structure of the driving device 60 will be described to describe in detail how the driving device 60 drives the camera device 20 and the moving light-emitting element 40 to move. The driving device 60 includes at least one driver 62 disposed on the machine table 10. This embodiment may be a linear motor. The driver 62 is disposed on the machine 10 and electrically connected to the processor 56 of the control device 50 for receiving the control by the processor 56. A camera carrier 64 carries the camera 26 in the camera device 20, and the camera carrier 64 is electrically connected. The driver 62 is coupled to the driver 62 to control the camera carrier 62 to move on at least one camera track 66. In this embodiment, the camera track 66 is located on the crossbar 24 of the camera device 20, so that the camera carrier 64 is on the crossbar 24. Moving, the camera carrier 64 can also be controlled by the processor 56 to drive the camera 26 up and down to adjust the camera 26 away from or near the component under test. In addition to being located on the crossbar 24, the camera track 66 of the embodiment may be disposed on the platform 12 and on both sides of the accommodating device 14, so that the two support bars 22 of the photographic device 20 are on the camera track. Move on 66.
驅動裝置60更包括一發光元件承載座68,用以承載移動發光元件40,發光元件承載座68並電性連接驅動器62,使驅動器62控制發光元件承載座68於設置在平台12上的至少一發光元件軌道69上移動,本實施例舉例發光元件軌道69可使移動發光元件40前後移動,而發光元件承載座68可使移動發光元件40相對於發光元件軌道69垂直方向移動。因此本案驅動裝置60的設置可使攝影機26進行3D移動,有效以S型來回掃描每一孔徑,同時移動發光元件40能有效配合攝影機26的移動來投射光源,避免偏光導致被檢測的孔徑取像不清楚。The driving device 60 further includes a light-emitting component carrier 68 for carrying the moving light-emitting component 40, the light-emitting component carrier 68 and electrically connected to the driver 62, so that the driver 62 controls the light-emitting component carrier 68 to at least one disposed on the platform 12. The light-emitting element track 69 is moved. In the present embodiment, the light-emitting element track 69 can move the light-emitting element 40 back and forth, and the light-emitting element carrier 68 can move the moving light-emitting element 40 in the vertical direction with respect to the light-emitting element track 69. Therefore, the setting of the driving device 60 of the present invention enables the camera 26 to perform 3D movement, effectively scanning each aperture back and forth in an S-shape, and simultaneously moving the light-emitting element 40 to effectively cooperate with the movement of the camera 26 to project a light source, thereby avoiding polarized light and causing the detected aperture to be imaged. Not sure.
說明完本發明之結構後,接續說明本發明之使用狀態,請參照第二圖與第三圖,其係為本發明使用狀態示意圖,如圖所示,在檢測待測元件之孔徑時,首先使用第一固定元件142將容置裝置14固定在平台12上,接著將一待測元件16放置在容置裝置14上,並使用第二固定元件144,如螺栓或插銷等固定元件將待測元件16固定在容置裝置14上,本實施例舉例檢測裝置16為噴頭(shower head),其上具有複數個孔徑162。接著使用者對控制裝置50的操作介面52輸入操作訊號,使處理器56根據操作訊號驅動驅動裝置60的驅動器62啟動,驅動裝置60啟動時,首先驅動器62會驅動支撐桿22移動至適當的位置,如待測元件16的上方,接著驅動攝影機承載座64移動到待測元件16的邊緣,並調整攝影機26距離待測元件16的位置,以調整焦距或掃描大範圍的影像等,接著請參照第四圖,處理器56驅動驅動器62以S行掃描待測元件16上的每一孔徑162,並不會逐一的拍攝每一孔徑162,而逐一停留在孔徑162上方,本發明之攝影機26係直接以掃描的方式來取得孔徑162影像;同時,驅動裝置60之驅動器62亦同時控制容置裝置14下方的移動發光元件40,使移動發光元件40與攝影機26同步同軸移動,能有效照明攝影機26正在掃描的孔徑162,有效避免偏光而造成孔徑162拍攝不清的情形。After the structure of the present invention is described, the state of use of the present invention will be described. Referring to the second and third figures, it is a schematic diagram of the state of use of the present invention. As shown in the figure, when detecting the aperture of the component to be tested, first The receiving device 14 is fixed on the platform 12 by using the first fixing member 142, then the device under test 16 is placed on the receiving device 14, and the second fixing member 144 is used, and the fixing member such as a bolt or a bolt is to be tested. The component 16 is fixed to the accommodating device 14. In this embodiment, the detecting device 16 is a shower head having a plurality of apertures 162 thereon. Then, the user inputs an operation signal to the operation interface 52 of the control device 50, so that the processor 56 activates the driver 62 of the driving device 60 according to the operation signal. When the driving device 60 is started, the driver 62 first drives the support rod 22 to move to the proper position. Above the device under test 16, the camera carrier 64 is then driven to move to the edge of the device under test 16, and the position of the camera 26 from the device under test 16 is adjusted to adjust the focus or scan a wide range of images, etc., then refer to In the fourth figure, the processor 56 drives the driver 62 to scan each aperture 162 on the device under test 16 in S rows, and does not capture each aperture 162 one by one, but stays above the aperture 162 one by one. The camera 26 of the present invention is The aperture 162 image is directly obtained by scanning; at the same time, the driver 62 of the driving device 60 simultaneously controls the moving light-emitting element 40 under the accommodating device 14, so that the moving illuminating element 40 and the camera 26 are synchronously moved coaxially, and the camera 26 can be effectively illuminated. The aperture 162 being scanned effectively avoids polarized light and causes the aperture 162 to be unclear.
接著控制裝置50的處理器56會接收攝影機26所擷取的孔徑162影像,處理器56會擷取資料庫54中的樣本影像,比對每一孔徑162的樣本影像,若發現目前所擷取的孔徑162影像與樣本影像中的孔徑162影像不一致,處理器56則產生警示訊號至顯示介面58,以顯示警示給使用者,其中警示可於顯示介面58中顯現,本實施例會給予每一孔徑162編號,並顯示出每一孔徑162之影像及狀態,並額外列出有問題的孔徑162以警示使用者,上述之狀態僅係為本實施例之說明,但不以此為限。Then, the processor 56 of the control device 50 receives the image of the aperture 162 captured by the camera 26, and the processor 56 captures the sample image in the database 54 and compares the sample image of each aperture 162 to find the current image. The aperture 162 image is inconsistent with the aperture 162 image in the sample image, and the processor 56 generates an alert signal to the display interface 58 to display an alert to the user, wherein the alert can be displayed in the display interface 58, which is given to each aperture in this embodiment. 162, and display the image and state of each aperture 162, and additionally list the problematic aperture 162 to alert the user, the above state is only the description of the embodiment, but not limited thereto.
接下來請參照第三圖與第五圖,容置裝置14的一第二固定元件144除了為螺栓或插銷之外,更可為一固定片,本實施例之第二固定元件144的邊緣具有一吻合待測元件16的邊緣的弧度,可卡住待測元件16邊緣,將其固定在容置裝置14上,且第二固定元件144上並可設有一防呆標記148,同時待測元件16上亦可設有一對應的防呆標記164,使防呆標記148與防呆標記164對齊,避免待測元件16安裝位置錯誤。本實施例除第二固定元件144之結構與上述第一圖至第四圖之結構不同之外,其餘結構皆相同,故再不重複敘述。Referring to the third and fifth figures, a second fixing component 144 of the receiving device 14 can be a fixing piece in addition to a bolt or a pin. The edge of the second fixing component 144 of the embodiment has An arc that matches the edge of the component 16 to be tested can be clamped to the edge of the device under test 16 to be fixed on the receiving device 14, and a second fixing member 144 can be provided with a foolproof mark 148, and the component to be tested is simultaneously A corresponding foolproof mark 164 may also be provided on the 16 to align the foolproof mark 148 with the foolproof mark 164 to prevent the position of the device under test 16 from being incorrectly installed. In this embodiment, except that the structure of the second fixing member 144 is different from the structures of the first to fourth figures described above, the rest of the structures are the same, and thus the description will not be repeated.
綜上所述,本發明的取像檢測裝置可以掃描的方式大範圍的檢測,且攝影裝置與移動發光元件可同軸移動,避免偏光導致被檢測的孔徑取像不清楚,可有效檢測出孔徑是否產生缺陷,或有髒汙阻塞於孔徑中。因此本發明可有效提高檢測效率,可避免因孔徑的缺陷造成生產良率降低,可有效提高生產效率,增加成品的良率。In summary, the image capturing detecting device of the present invention can detect a wide range in a scanning manner, and the photographing device and the moving light emitting device can move coaxially, thereby avoiding the polarized light and causing the detected aperture to be unclear, and effectively detecting whether the aperture is Defects are generated, or dirt is blocked in the aperture. Therefore, the invention can effectively improve the detection efficiency, can avoid the decrease of the production yield due to the defect of the aperture, can effectively improve the production efficiency, and increase the yield of the finished product.
唯以上所述者,僅為本發明之較佳實施例而已,並非用來限定本發明實施之範圍。故即凡依本發明申請範圍所述之特徵及精神所為之均等變化或修飾,均應包括於本發明之申請專利範圍內。The above is only the preferred embodiment of the present invention and is not intended to limit the scope of the present invention. Therefore, any changes or modifications of the features and spirits of the present invention should be included in the scope of the present invention.
1‧‧‧孔徑檢測系統
10‧‧‧機台
12‧‧‧平台
14‧‧‧容置裝置
142‧‧‧第一固定元件
144‧‧‧第二固定元件
148‧‧‧防呆標記
16‧‧‧待測元件
162‧‧‧孔徑
164‧‧‧防呆標記
20‧‧‧攝影裝置
22‧‧‧支撐桿
24‧‧‧橫桿
26‧‧‧攝影機
28‧‧‧鏡頭
30‧‧‧第一發光元件
40‧‧‧移動發光元件
50‧‧‧控制裝置
52‧‧‧操作介面
54‧‧‧資料庫
56‧‧‧處理器
58‧‧‧顯示介面
60‧‧‧驅動裝置
62‧‧‧驅動器
64‧‧‧攝影機承載座
66、66’‧‧‧攝影機軌道
68‧‧‧發光元件承載座
69‧‧‧發光元件軌道1‧‧‧Aperture detection system
10‧‧‧ machine
12‧‧‧ platform
14‧‧‧ accommodating device
142‧‧‧First fixation element
144‧‧‧Second fixation element
148‧‧‧Guide Mark
16‧‧‧Device under test
162‧‧‧ aperture
164‧‧‧Danger prevention mark
20‧‧‧Photographing device
22‧‧‧Support rod
24‧‧‧crossbar
26‧‧‧ camera
28‧‧‧ lens
30‧‧‧First light-emitting element
40‧‧‧Mobile lighting elements
50‧‧‧Control device
52‧‧‧Operator interface
54‧‧‧Database
56‧‧‧ processor
58‧‧‧Display interface
60‧‧‧ drive
62‧‧‧ drive
64‧‧‧ camera carrier
66, 66'‧‧‧ camera track
68‧‧‧Lighting element carrier
69‧‧‧Lighting element track
第一圖係為本發明之系統立體結構示意圖。 第二圖係為本發明之系統方塊圖。 第三圖係為本發明之系統使用狀態示意圖。 第四圖係為本發明之攝影裝置掃描路徑示意圖。 第五圖係為本發明第二固定元件另一實施例示意圖。The first figure is a schematic view of the three-dimensional structure of the system of the present invention. The second figure is a block diagram of the system of the present invention. The third figure is a schematic diagram of the state of use of the system of the present invention. The fourth figure is a schematic diagram of the scanning path of the photographing apparatus of the present invention. The fifth figure is a schematic view of another embodiment of the second fixing member of the present invention.
1‧‧‧孔徑檢測系統 1‧‧‧Aperture detection system
10‧‧‧機台 10‧‧‧ machine
12‧‧‧平台 12‧‧‧ platform
14‧‧‧容置裝置 14‧‧‧ accommodating device
142‧‧‧第一固定元件 142‧‧‧First fixation element
20‧‧‧攝影裝置 20‧‧‧Photographing device
22‧‧‧支撐桿 22‧‧‧Support rod
24‧‧‧橫桿 24‧‧‧crossbar
26‧‧‧攝影機 26‧‧‧ camera
28‧‧‧鏡頭 28‧‧‧ lens
30‧‧‧第一發光元件 30‧‧‧First light-emitting element
40‧‧‧移動發光元件 40‧‧‧Mobile lighting elements
50‧‧‧控制裝置 50‧‧‧Control device
52‧‧‧操作介面 52‧‧‧Operator interface
58‧‧‧操作介面 58‧‧‧Operator interface
60‧‧‧驅動裝置 60‧‧‧ drive
62‧‧‧驅動器 62‧‧‧ drive
64‧‧‧攝影機承載座 64‧‧‧ camera carrier
66、66’‧‧‧攝影機軌道 66, 66’‧‧· camera track
68‧‧‧發光元件承載座 68‧‧‧Lighting element carrier
69‧‧‧發光元件軌道 69‧‧‧Lighting element track
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US4783826A (en) * | 1986-08-18 | 1988-11-08 | The Gerber Scientific Company, Inc. | Pattern inspection system |
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