M395155 五、新型說明: 【新型所屬之技術領域】 本創作係為一種動態物像取樣裝置,尤指一種可大幅縮短取像時間及 可降低取像成本之一種動態物像取樣裝置。 【先前技術】 如,中華民國專利公報公告第580556號「物體表面三維形貌量測方法 和系統」,請再配合參閱第一圖所示,其物體81表面具有複數個物點,步 驟a :經由條紋投射裝置82投射一圖案於該待測物體81表面上的一物點;步 驟b :利用一多線光電取像系統83以接收和儲存一多線影像;步驟c :該物 體81相對於相移系統84做移動,以取像該物體81表面的一物點;步驟d :重 複步驟a至步驟c,直到該物體81表面的所有物點都被該多線光電取像系統 83取過像為止;最後藉由該處理器85對物體81表面的所有物點做運算,以 決定所有物點上的相位值大小,並經由適當的三角幾何關係及校正,把相 位值轉換成高度’並在顯示器86上顯示; 該「物體表面三維形貌量測方法和系統」其雖可量測一物體81表面的 三維形貌’惟卻目該「物體表©三維形貌量測方法和系統」必撕物體81 表面的所有魅取像’ S而大㈣加取糾間,又因該「物體表面三 維形貌量測方法和祕」在取像前必須在物體81表面上職複數個物點, 即會增加取像成本,因而常為使用者所垢病; 疋故如何將上述等缺失加以摒除,即為本案創作人所欲解決之技術 困難點之所在。 3 M395155 【新型内容】 有鑑於「物體表面三維形貌量測方法和系統」大幅增加取像時間,又 增加取像縣’ S此本解之目的在於提供—_態物像祕裝置,其可 大幅縮短取像時間及可降低取像成本; A達成以上之目的,本創作係提供__態物像取職置,其包含: -機殼體’賴殼體崎有控麵組,且職殼翻設有影像娜裝 置’跡像娜裝置電性連胁控制敝,又該機殼體内設杨色條碼投 φ 光機’該彩色條碼投光機電性連接於控制模組,且該機殼體内設有第-投 光機,該第一投光機電性連接於控制模組; 俾當該影賴取裝置接收到電職傳送之轉指令時,藉由該影像榻 取裝置、彩色條碼投光機及第一投光機電性連接於控制模組,俾使該控制 模組可控制帛-投錢絲色條碼投賴作動,*可使該投光機可投 射出條紋光制面’且可使該彩色條碼投光射投射出彩色光拇 於被測物表面’得以使該影像揭取I置可操取投射在被測物表面的光拇圖 鲁 #資料’因而可達動態物像取樣之功效,進而可大幅縮短取像時間及可降 低取像成本之目的者。 【實施方式】 為使貴審查員方便簡捷瞭解本創作之其他特徵内容與優點及其所達 成之功效能夠更為顯現,茲將本創作配合附圖,詳細說明如下: 請參閱第二圖、第三圖所示,本創作係提供一種動態物像取樣裝置, 其包含: 一機殼體1,該機殼體1内設有控制模組2,該控制模組2可為交錯式 4 M395155M395155 V. New Description: [New Technology Field] This creation is a dynamic image sampling device, especially a dynamic image sampling device that can greatly shorten the image capturing time and reduce the cost of image capturing. [Prior Art] For example, the Republic of China Patent Gazette No. 580556 "Method and System for Measuring the Three-Dimensional Topography of Object Surfaces", please refer to the first figure, the surface of the object 81 has a plurality of object points, step a: An object point on the surface of the object to be tested 81 is projected through the stripe projection device 82; step b: using a multi-line photoelectric image capturing system 83 to receive and store a multi-line image; step c: the object 81 is opposite to The phase shifting system 84 moves to take an object point on the surface of the object 81; step d: repeat steps a through c until all object points on the surface of the object 81 are taken by the multi-line photoelectric image taking system 83 Finally, by the processor 85, all the object points on the surface of the object 81 are calculated to determine the magnitude of the phase values at all object points, and the phase values are converted into heights by appropriate triangular geometric relations and corrections. Displayed on the display 86; the "three-dimensional shape measurement method and system for the surface of the object" can measure the three-dimensional shape of the surface of an object 81, but the "object table © three-dimensional shape measurement method and system" Will tear All the charms on the surface of the body 81 are like 'S and the big (4) is added to the correction, and because of the "three-dimensional shape measurement method and secret of the surface of the object", it is necessary to apply a plurality of object points on the surface of the object 81 before taking the image, that is, It will increase the cost of image acquisition, which is often caused by the user's disease; therefore, how to eliminate the above-mentioned defects is the technical difficulty point that the creator of the case wants to solve. 3 M395155 [New content] In view of the "method and system for measuring the three-dimensional shape of the surface of the object", the image capturing time is greatly increased, and the image capturing county is added. The purpose of this solution is to provide a state-of-the-art image device. Significantly shortening the image taking time and reducing the cost of image acquisition; A. To achieve the above objectives, the creation department provides __ state image take-off position, which includes: - the machine casing 'Land shell has a control panel, and The shell is turned over with the image of the device, and the device is equipped with an electrical connection controller, and a black bar code is placed in the casing of the machine. The color bar code is electrically connected to the control module, and the machine is connected. a first light projector is disposed in the housing, and the first light is electrically connected to the control module; and when the image capture device receives the power transfer command, the image capture device and the color The bar code projector and the first projector are electrically connected to the control module, so that the control module can control the operation of the bar code and the bar code color bar code*, so that the projector can project the stripe light surface 'And the color bar code can be projected to project a colored light on the surface of the object to be measured' In order to make the image uncover, the optical projection of the image can be obtained on the surface of the object to be measured, thereby achieving the effect of sampling the dynamic image, thereby greatly shortening the imaging time and reducing the cost of imaging. By. [Embodiment] In order to make it easier for your examiner to understand the other features and advantages of this creation and the effects achieved by it, this creation and the drawings are described in detail as follows: Please refer to the second figure, As shown in the three figures, the present invention provides a dynamic object image sampling device, comprising: a machine housing 1 in which a control module 2 is provided, and the control module 2 can be interlaced 4 M395155
【主要元件符號說明】 1.. 機殼體 11.. 電腦 2.. 控制模組 4.. 彩色條碼投光機 5.. 第一投光機 6.. 第二投光機 71.. 貼圖資料 81.. 物體 83.. 多線光電取像系統 85.. 處理器 10.. 電源供應器 111.. 顯示器 3.. 影像擷取裝置 41.. 彩色光栅 51.. 條紋光源 7.. 被測物 72.. 光概圖案 82.. 條紋投射裝置 84.. 相移系統 86.. 顯示器[Main component symbol description] 1.. Machine housing 11.. Computer 2.. Control module 4. Color bar light projector 5. First light projector 6. Second light projector 71.. Information 81.. Object 83.. Multi-line photoelectric image acquisition system 85.. Processor 10. Power supply 111.. Display 3. Image capture device 41. Color raster 51.. Stripe light source 7.. Measuring object 72.. Light pattern 82.. Stripe projection device 84. Phase shifting system 86.. Display