[1]冯志友,李永刚,张策,等.并联机器人机构运动与动力分析研究现状及展望[J].中国机械工程, 2006,17(9):979-984.
FENG Zhiyou, LI Yonggang, ZHANG Ce, et al. Research Status and Prospect of Motion and Dynamic Analysis of Parallel Robot Mechanism[J].China Mechanical Engineering, 2006,17(9):979-984.
[2]刘辛军,吴超,汪劲松,等.[PP]S类并联机器人机构姿态描述方法[J].机械工程学报,2008,44(10):19-23.
LIU Xinjun, WU Chao, WANG Jinsong, et al.[PP]S Class Parallel Robot Mechanism Attitude Description Method[J].Journal of Mechanical Engineering, 2008,44(10):19-23.
[3]PIERROT F, REYNAUD C, FOURNIER A. DELTA:A Simple and Efficient Parallel Robot[J]. Robotica,1990,8(2):105-109.
[4]孔民秀,梁恒斌. 并联连杆形式的Delta机器人第四轴传动机构:CN103909517A[P]. 2014-07-09.
KONG Minxiu, LIANG Hengbin. Delta Robot Fourth Axis Transmission Mechanism in the Form of Parallel Connecting Rods:CN103909517A[P]. 2014-07-09.
[5]PIERROT F,COMPANY O. H4:a New Family of 4-DOF Parallel Robots[C]∥Proceedings of the IEEE/ASME International Conference on Advanced Intelligent Mechatronics. New York,1999:508-513.
[6]KRUT S,BENOIT M,OTA H,et al. I4:a New Parallel Mechanism for Scara Motions[C]∥Proceedings of IEEE International Conference on Robotics and Automation. Taibei,2003:1875-1880.
[7]COMPANY O,KRUT S,PIERROT F,et al. Par4:Very High Speed Parallel Robot for Pick-and-place[C]∥IEEE/RSJ International Conference on Intelligent Robots and Systems. Edmonton, AB,2005:553-558.
[8]KRUT S,COMPANY O,NABAT V,et al. Heli4:a Parallel Robot For Scara Motions with a Very Compact Traveling Plate and a Symmetrical Design[C]∥IEEE/RSJ International Conference on Intelligent Robots and Systems. Beijing,2006:1656-1661.
[9]赵京,李立明,尚红,等. 基于主成分分析法的机械臂运动灵活性性能综合评价[J]. 机械工程学报, 2014, 50(13):9-15.
ZHAO Jing. LI Liming. SHANG Hong. et al. Comprehensive Evaluation of Motion Flexibility Performance of Manipulator Based on Principal Component Analysis[J]. Journal of Mechanical Engineering, 2014, 50(13):9-15.
[10]叶伟,谢镇涛,李秦川. 一种可用于微创手术的并联机构运动学分析与性能优化[J]. 机械工程学报, 2020, 56(19):103-112.
YE Wei. XIE Zhentao. LI Qinchuan. KinematicAnalysis and Performance Optimization of Parallel Mechanism for Minimally Invasive Surgery[J]. Journal of Mechanical Engineering, 2020, 56(19):103-112.
[11]李菊,肖思进,沈惠平,等.两支链三平移并联机构动力学分析与性能优化[J].农业机械学报,2022,53(10):412-422.
LI Ju, XIAO Sijin, SHEN Huiping, et al. Dynamics Analysis and Performance Optimization of a Two Branch Three Translation Parallel Mechanism[J]. Journal of Agricultural Machinery, 2022,53 (10):412-422.
[12]曾达幸,王娟娟,樊明洲,等. 基于主成分分析方法的并联机构参数优化[J]. 中国机械工程, 2017, 28(24):2899-2905.
ZENG Daxing, WANG Juanjuan, FAN Mingzhou, et al. Parameter Optimization of Parallel Mechanism Based on Principal Component Analysis Method[J]. China Mechanical Engineering, 2017, 28(24):2899-2905.
[13]周亚杰,李仕华,徐奇,等.3-PUS-PU柔顺并联机构运动学分析与优化设计[J].农业机械学报,2022,53(9):417-424.
ZHOU Yajie, LI Shihua, XU Qi, et al. Kinematics Analysis and Optimal Design of 3-PUS-PU Compliant Parallel Mechanism[J]. Journal of Agricultural Machinery, 2022,53 (9):417-424.
[14]杨桂林,吴存存,陈庆盈,等. 3T1R并联机构运动学分析与优化设计[J].农业机械学报,2017,48(12):386-394.
YANG Guilin, WU Cuncun, CHEN Qingying, et al. Kinematic Analysis and Optimization Design of 3T1R Parallel Mechanism[J].Transactions of the CSAM,2017,48(12):386-394.
[15]孟齐志,谢福贵,刘辛军,等.高速高负载并联机器人设计[J].清华大学学报(自然科学版), 2022, 62(3):416-426.
MENG Qizhi, XIE Fugui, LIU Xinjun, et al. Journal of Tsinghua University (Natural Science Edition), 2022, 62(3):416-426.
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