流体传动与控制
流體傳動與控製
류체전동여공제
FLUICL POWER TRANSMISSION AND CONTROL
2013年
5期
5-9
,共5页
气囊抛光%在线重构%力/位并行控制%轨迹规划
氣囊拋光%在線重構%力/位併行控製%軌跡規劃
기낭포광%재선중구%력/위병행공제%궤적규화
gasbag polishing%on-line reconstruction%force and position parallel control%trajectory planning
为解决传统的气囊抛光操作都需要工件CAD信息所引起的抛光效率低下、操作复杂等问题,现将一种能够在线自动重构工件几何信息技术应用到机械臂气囊抛光系统中。介绍了抛光工件未知曲面在线重构的操作方法,从而获取工件未知曲面的法矢量,提出了抛光气囊头与工件未知曲面接触力的主动控制方案,将传统的力/位并行控制算法模拟人的大脑,试着去识别工件表面的几何变化趋势,建立了具有时变约束的在线最优轨迹规划算法。通过在机械臂气囊抛光实验设备中对一未知几何信息的工件进行了自动抛光操作,对抛光效果和抛光过程中的接触力进行了实验对比和数据分析。结果表明,该策略在应用改进的力/位并行控制算法跟踪和识别一个未知的抛光工件曲面是可行、有效的。
為解決傳統的氣囊拋光操作都需要工件CAD信息所引起的拋光效率低下、操作複雜等問題,現將一種能夠在線自動重構工件幾何信息技術應用到機械臂氣囊拋光繫統中。介紹瞭拋光工件未知麯麵在線重構的操作方法,從而穫取工件未知麯麵的法矢量,提齣瞭拋光氣囊頭與工件未知麯麵接觸力的主動控製方案,將傳統的力/位併行控製算法模擬人的大腦,試著去識彆工件錶麵的幾何變化趨勢,建立瞭具有時變約束的在線最優軌跡規劃算法。通過在機械臂氣囊拋光實驗設備中對一未知幾何信息的工件進行瞭自動拋光操作,對拋光效果和拋光過程中的接觸力進行瞭實驗對比和數據分析。結果錶明,該策略在應用改進的力/位併行控製算法跟蹤和識彆一箇未知的拋光工件麯麵是可行、有效的。
위해결전통적기낭포광조작도수요공건CAD신식소인기적포광효솔저하、조작복잡등문제,현장일충능구재선자동중구공건궤하신식기술응용도궤계비기낭포광계통중。개소료포광공건미지곡면재선중구적조작방법,종이획취공건미지곡면적법시량,제출료포광기낭두여공건미지곡면접촉력적주동공제방안,장전통적력/위병행공제산법모의인적대뇌,시착거식별공건표면적궤하변화추세,건립료구유시변약속적재선최우궤적규화산법。통과재궤계비기낭포광실험설비중대일미지궤하신식적공건진행료자동포광조작,대포광효과화포광과정중적접촉력진행료실험대비화수거분석。결과표명,해책략재응용개진적력/위병행공제산법근종화식별일개미지적포광공건곡면시가행、유효적。
In order to solve the problems which the gasbag polishing operations are always required by CAD informa-tion of workpiece which causes efficiency low, operation complex and so on, now the gasbag polishing operations which can automatically on-line reconstruct the geometry information of workpiece was investigated in this paper. The operation method of on-line reconstruction of a workpiece surface was introduced, which is in order to obtain the normal vector of workpiece surface. The active control method of contact force between polishing bonnet head and the workpiece surface was proposed, which is use force and position parallel control to simulate the human brain, try to recognition the geometry trend of workpiece surface. The trajectory planning algorithm with time-vary-ing constraints was established. The strategy was evaluated on the mechanical arm gasbag polishing experiment equipment, and the data of contact force and polishing effect was also analyzed. The experimental results show that the strategy with used in force and position parallel control algorithm and surface understanding is feasible and effec-tive.
