上海大学学报(英文版)
上海大學學報(英文版)
상해대학학보(영문판)
JOURNAL OF SHANGHAI UNIVERSITY (ENGLISH EDITION)
2004年
z1期
46-49
,共4页
反求工程%曲面重构%快速原型%风扇
反求工程%麯麵重構%快速原型%風扇
반구공정%곡면중구%쾌속원형%풍선
reverse engineering%surface reconstruction%rapid prototype%fan
采用非接触式三维激光测量方法获得风扇部分扇模型,并通过快速原型技术制作出新型风扇样件.实践证明,应用逆向工程技术及快速原型技术对现有风扇进行改型设计的方法是一种切实可行的质量高、精度高、效率高的新产品开发方法.
採用非接觸式三維激光測量方法穫得風扇部分扇模型,併通過快速原型技術製作齣新型風扇樣件.實踐證明,應用逆嚮工程技術及快速原型技術對現有風扇進行改型設計的方法是一種切實可行的質量高、精度高、效率高的新產品開髮方法.
채용비접촉식삼유격광측량방법획득풍선부분선모형,병통과쾌속원형기술제작출신형풍선양건.실천증명,응용역향공정기술급쾌속원형기술대현유풍선진행개형설계적방법시일충절실가행적질량고、정도고、효솔고적신산품개발방법.
By applying non-contact three-dimensional laser measure the key data of the existing fan is obtained, and new style fan model is rapidly constructed by applying reverse engineering, surface reconstruction and solid construction. The new style fan is manufactured by rapid prototype technology. The practice indicates that the method for improving the existing fan based on reverse engineering and rapid prototype is a new development method of production, and it is of high quality, high precision and great efficiency.
