纳米技术与精密工程
納米技術與精密工程
납미기술여정밀공정
NANOTECHNOLOGY AND PRECISION ENGINEERING
2006年
4期
291-295
,共5页
韩成顺%张龙江%董国军%李国%董申
韓成順%張龍江%董國軍%李國%董申
한성순%장룡강%동국군%리국%동신
非球面镜%非球面度%金刚石车削%几何模型%快速伺服机构
非毬麵鏡%非毬麵度%金剛石車削%幾何模型%快速伺服機構
비구면경%비구면도%금강석차삭%궤하모형%쾌속사복궤구
aspheric mirrors%asphericity%diamond turning%geometric model%fast tool servo
介绍了轴对称光学非球面镜超精密加工的新方法.超精密金刚石切削加工机床的刀具进给机构通常由直线导轨实现.由于旋转轴与同等精度的直线导轨相比,具有制造难度小、成本低及结构紧凑等优点,所以采用具有快速伺服机构的金刚石刀架摆臂代替直线导轨进给运动方式.根据非球面方程,快速伺服机构的微进给量根据车刀摆角实时计算.快速伺服机构、工件以及金刚石刀具的同时运动,可以实现轴对称非球面的超精密加工.构建了回转进给工具路径、快速伺服机构运动以及相关的几何模型.通过计算机模拟验证了该加工方法的简便与可靠性,可以降低非球面反射镜加工的设备投入,提高生产效率.
介紹瞭軸對稱光學非毬麵鏡超精密加工的新方法.超精密金剛石切削加工機床的刀具進給機構通常由直線導軌實現.由于鏇轉軸與同等精度的直線導軌相比,具有製造難度小、成本低及結構緊湊等優點,所以採用具有快速伺服機構的金剛石刀架襬臂代替直線導軌進給運動方式.根據非毬麵方程,快速伺服機構的微進給量根據車刀襬角實時計算.快速伺服機構、工件以及金剛石刀具的同時運動,可以實現軸對稱非毬麵的超精密加工.構建瞭迴轉進給工具路徑、快速伺服機構運動以及相關的幾何模型.通過計算機模擬驗證瞭該加工方法的簡便與可靠性,可以降低非毬麵反射鏡加工的設備投入,提高生產效率.
개소료축대칭광학비구면경초정밀가공적신방법.초정밀금강석절삭가공궤상적도구진급궤구통상유직선도궤실현.유우선전축여동등정도적직선도궤상비,구유제조난도소、성본저급결구긴주등우점,소이채용구유쾌속사복궤구적금강석도가파비대체직선도궤진급운동방식.근거비구면방정,쾌속사복궤구적미진급량근거차도파각실시계산.쾌속사복궤구、공건이급금강석도구적동시운동,가이실현축대칭비구면적초정밀가공.구건료회전진급공구로경、쾌속사복궤구운동이급상관적궤하모형.통과계산궤모의험증료해가공방법적간편여가고성,가이강저비구면반사경가공적설비투입,제고생산효솔.
A new form generation method for ultra-precision axisymmetric aspheric mirrors is introduced. Linear motion guides are employed in the feed systems of most diamond turning machines. For rotary axes can be made less expensive,easier and more compact than a linear guide at the same precision level, a rotary arm that carries a diamond tool combined with a fast tool servo are used to replace the straight lines. The micro linear feed of the fast tool servo is real-time calculated with the use high resolution angular feedback on the swing tool based on the aspheric equation. Synchronized motion of the the fast tool servo, workpiece and the diamond tool produces ultra-precision axisymmetric aspheric mirrors. Geometric models of cutting tool path, the motion of fast tool servo and the corresponding calculations are presented. The machining approach is verified to be simple and reliable by computer simulation, so the production efficiency can be improved and the equipment input can be reduced.
