传感器与微系统
傳感器與微繫統
전감기여미계통
TRANSDUCER AND MICROSYSTEM TECHNOLOGY
2015年
2期
28-29,36
,共3页
李冬冬%王永强%许增朴%周聪玲
李鼕鼕%王永彊%許增樸%週聰玲
리동동%왕영강%허증박%주총령
激光三角法%倾斜角%误差分析%最小二乘法
激光三角法%傾斜角%誤差分析%最小二乘法
격광삼각법%경사각%오차분석%최소이승법
laser triangulation%inclined angle%error analysis%least squares method
相比传统的触针式测量,激光位移传感器因其高精度和非接触式测量的优点,在机械工程中已广泛使用。鉴于激光三角法的设计原理,当工件产生倾斜角时,激光位移传感器会产生误差。通过激光位移传感器、精密电移台、精密旋转台构建了实验测量系统,对测量数据使用Matlab进行分析,所用电移台的重复精度小于5μm,测得了不同倾斜角度下激光传感器的误差,用最小二乘法拟合进行了误差补偿。实验证明:误差标定后,激光传感器在测量倾斜物面时仍能保证高精度。
相比傳統的觸針式測量,激光位移傳感器因其高精度和非接觸式測量的優點,在機械工程中已廣汎使用。鑒于激光三角法的設計原理,噹工件產生傾斜角時,激光位移傳感器會產生誤差。通過激光位移傳感器、精密電移檯、精密鏇轉檯構建瞭實驗測量繫統,對測量數據使用Matlab進行分析,所用電移檯的重複精度小于5μm,測得瞭不同傾斜角度下激光傳感器的誤差,用最小二乘法擬閤進行瞭誤差補償。實驗證明:誤差標定後,激光傳感器在測量傾斜物麵時仍能保證高精度。
상비전통적촉침식측량,격광위이전감기인기고정도화비접촉식측량적우점,재궤계공정중이엄범사용。감우격광삼각법적설계원리,당공건산생경사각시,격광위이전감기회산생오차。통과격광위이전감기、정밀전이태、정밀선전태구건료실험측량계통,대측량수거사용Matlab진행분석,소용전이태적중복정도소우5μm,측득료불동경사각도하격광전감기적오차,용최소이승법의합진행료오차보상。실험증명:오차표정후,격광전감기재측량경사물면시잉능보증고정도。
Compared with traditional touch measurement,laser displacement sensor has been widely used in mechanical engineering for its high precision and property of non-contact measurement. According to design principle of laser triangulation,laser displacement sensor will produce errors when there is a slant angle over the workpiece. To solve this problem,build an experimental measurement system by using a laser displacement sensor, a precise electric displacement platform and precise rotary platform;analyze measurement datas by Matlab;repeatability of electric displacement platform is less than 5μm obtain errors under different slant angles,and employ least squares fitting for error compensation. Experiment verify that laser displacement sensor can still ensure high precision in measuring inclined plane of objects with slant angles after error calibration.
