宇航计测技术
宇航計測技術
우항계측기술
JOURNAL OF ASTRONAUTIC METROLOGY AND MEASUREMENT
2015年
4期
19-23
,共5页
毕超%吕来鹏%房建国%刘勇%杨希
畢超%呂來鵬%房建國%劉勇%楊希
필초%려래붕%방건국%류용%양희
坐标测量机%非接触%光学测头
坐標測量機%非接觸%光學測頭
좌표측량궤%비접촉%광학측두
Coordinate measuring machine%Non-contact%Optical sensor
为了高速高精高效地完成中小型复杂型面零件的测量,基于激光位移传感器和三坐标测量机等搭建了非接触式的光学坐标测量机,从而将测量机和光学测头的优点结合起来以应对空间自由曲面的测量任务。通过测头标定技术获得测量光束所在直线的单位方向向量,进而将激光测头的一维距离值转化为测量光斑的三维坐标值,然后通过坐标系转换将此坐标值转化到统一的测量机坐标系下,进而完成被测曲面三维点云的创建。最后,对一个直径已知的球在10个不同方位进行测量,通过点云数据拟合球面方程得到其直径作为测量结果,所得各次测量结果的误差均小于0.05mm,充分说明所搭建的测量系统的有效性。
為瞭高速高精高效地完成中小型複雜型麵零件的測量,基于激光位移傳感器和三坐標測量機等搭建瞭非接觸式的光學坐標測量機,從而將測量機和光學測頭的優點結閤起來以應對空間自由麯麵的測量任務。通過測頭標定技術穫得測量光束所在直線的單位方嚮嚮量,進而將激光測頭的一維距離值轉化為測量光斑的三維坐標值,然後通過坐標繫轉換將此坐標值轉化到統一的測量機坐標繫下,進而完成被測麯麵三維點雲的創建。最後,對一箇直徑已知的毬在10箇不同方位進行測量,通過點雲數據擬閤毬麵方程得到其直徑作為測量結果,所得各次測量結果的誤差均小于0.05mm,充分說明所搭建的測量繫統的有效性。
위료고속고정고효지완성중소형복잡형면령건적측량,기우격광위이전감기화삼좌표측량궤등탑건료비접촉식적광학좌표측량궤,종이장측량궤화광학측두적우점결합기래이응대공간자유곡면적측량임무。통과측두표정기술획득측량광속소재직선적단위방향향량,진이장격광측두적일유거리치전화위측량광반적삼유좌표치,연후통과좌표계전환장차좌표치전화도통일적측량궤좌표계하,진이완성피측곡면삼유점운적창건。최후,대일개직경이지적구재10개불동방위진행측량,통과점운수거의합구면방정득도기직경작위측량결과,소득각차측량결과적오차균소우0.05mm,충분설명소탑건적측량계통적유효성。
For the purpose of measuring middle and small workpieces with complex surfaces in a rapid, precise and efficient manner, a non-contact optical coordinate measuring machine based on the la-ser displacement sensor and coordinate measuring machine is established, which combines the advantages of CMM and optical sensor together to deal with the measurement of sculptured surfaces. Through calibra-tion, the unit vector of the measuring beam of the sensor can be derived, which can be used to transform the one-dimensional length of the laser beam to the three-dimensional coordinates of the laser point on the surface. And then the coordinates of measuring points can be converted to the same coordinate system of the CMM to complete the construction of the data clouds. Finally, a metallic sphere whose diameter is 50mm is measured by the system at 10 different orientations. Through the least squares fit of the data cloud, the measuring errors are all smaller than 0. 05mm, which manifests the validity of the system set up.