本論文為研究逆向精密量測資訊與精密加工實現，起源於客戶產品每年都要在市場佔有較高的比率，所以每週期一定會需要研發新產品來搶佔市場佔有率，所以研發成果一定會和各家研發時間競賽，誰先搶佔市場就有高機會可以優先獲得利益，於逆向精密量測方面一般市面上傳統都是由2D逆向精密量測切入，但是2D資料上收集後續將其2D資料結合3D後往往會有很多的斷面和破面，強制修補後都會失真造成導入精密加工設備後產品的實現上浪費很多研發的時間，因為無法於需求時間內達成小批量產，而客戶原型樣件建議直接由3D逆向精密工程方面不需要經過2D，直接由3D光學掃描儀創建3D點資料並經過三次元設備互相搭配的
本論文為研究方法為採用逆向精密量測工程，將客戶提供的原型樣品和研發初期資料進入研發起始計畫，將其原型樣品經由逆向精密量測方式將原型樣品的3D曲面3D點資料化，需要利用高階3D光學掃描儀和高階自動三次元設備互相配合將其3D點資料回饋到設計端配合精密加工設備可以達到的製程能力並小批量產。
研究結果為高階逆向精密量測研究討論與流程設計是直接使用客戶原型樣件和試製打樣工件直接用高階逆向工程精密量測設備和其軟體，直接來創建3D的點資料分析並將其異常3D點資料改善可以使其合理化，3D點資料將會進入大數據資料庫將其大數據化，3D數據分析讓精密加工廠的設備可以順利產出客戶需要的首件樣品、小批量產出、大量產出，直接符合客戶的需求搶攻市場版圖，所以逆向精密量測工程方法不是複製而是替客戶端解決問題的方法。

This article aims to study the realization of reverse precision measurement data analysis and precision machining. This is due to the high proportion of customer products occupying the market each year. Therefore, new products must be developed in each cycle to seize market share, so R&D results will definitely compete with each R&D time. Whoever seizes the market first has a great opportunity for profit. In terms of reverse accuracy measurement, traditional 2D reverse accuracy measurement is generally used in the market, but the 2D data is collected first, and then the 2D data is collected. When combined with 3D, there are usually many cross-sections and broken surfaces. After the introduction of precision processing equipment, forced maintenance during the product realization process will cause deformation and waste a lot of research and development time. Due to the inability to achieve small batch production within the specified time, customer prototype analysis recommends directly using 3D reverse precision engineering instead of 2D and 3D point data, which is directly created by a 3D light scanner and used in combination with 3D.
The prototype sample provided by its customer is used to convert the 3D surface 3D point data of the prototype sample through the reverse precision measurement method. It is necessary to use high-end 3D optical scanners and high-end automated 3D equipment to cooperate with each other, and accurately feedback their 3D point data to the processing capacity and small batch production that the processing equipment can achieve.
Use customer prototype samples and prototype proofing workpieces, directly use high-end reverse engineering precision measurement equipment and software, directly create 3D point data analysis, rationalize abnormal 3D point data, and store the analysis data in a big data. If there are similar new products , You can immediately analyze the data in the large database, so that the equipment of the precision processing plant can successfully produce the first sample required by the customer

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