航空精密制造技术
航空精密製造技術
항공정밀제조기술
AVIATION PRECISION MANUFACTURING TECHNOLOGY
2015年
3期
35-38
,共4页
成型工装%结构设计%人机交互%坐标网格
成型工裝%結構設計%人機交互%坐標網格
성형공장%결구설계%인궤교호%좌표망격
forming mold%structure design%human-computer interaction%coordinate grid
针对大型复合材料成型工装结构的多样性,以柱支撑形式建立的大型复合材料工装,根据不同成型工装型面,提取型面边界信息,基于CATIA界面,通过人机交互方式确定边界线上分割点;以分割点为基准,建立坐标网格,选取边界范围内的坐标点作为支撑柱的坐标位置,最终建立复合材料工装模型。
針對大型複閤材料成型工裝結構的多樣性,以柱支撐形式建立的大型複閤材料工裝,根據不同成型工裝型麵,提取型麵邊界信息,基于CATIA界麵,通過人機交互方式確定邊界線上分割點;以分割點為基準,建立坐標網格,選取邊界範圍內的坐標點作為支撐柱的坐標位置,最終建立複閤材料工裝模型。
침대대형복합재료성형공장결구적다양성,이주지탱형식건립적대형복합재료공장,근거불동성형공장형면,제취형면변계신식,기우CATIA계면,통과인궤교호방식학정변계선상분할점;이분할점위기준,건립좌표망격,선취변계범위내적좌표점작위지탱주적좌표위치,최종건립복합재료공장모형。
Aiming at the diversity of large composite mould, the mould of pillared bracing form, depending on the mould body surface, the mould's boundary information was extracted and the divided points on boundary were determined by human-computer interaction. By divided points as a benchmark, the coordinate grid was established. The coordinates of the points within the boundaries were selected as the coordinates of the pillars. The large composite mould was set up.
