[1] KRAUS J D,MARHEFKA R J. Antennas for all applications[M]. McGraw-Hill,2003. [2] 黄真,赵永生,赵铁石. 高等空间机构学[M]. 北京:高等教育出版社,2006. HUANG Zhen,ZHAO Yongsheng,ZHAO Tieshi. Advanced spatial mechanism[M]. Beijing:Higher Education Press,2006. [3] 杨彦东,甄春江,侯雨雷,等. 对称单自由度螺旋运动并联机构型综合[J]. 机械工程学报,2019,55(3):27-33. YANG Yandong,ZHEN Chunjiang,HOU Yulei,et al Type synthesis of structural symmetry one degree-of-freedom of helical motion parallel mechanisms[J]. Journal of Mechanical Engineering,2019,55(3):27-33. [4] ARTEMENKO Y N,SIL'VESTROV E E,KORENOVSKII V V,et al. Method for the synthesize of parallel-structure mechanisms for orientating a space telescope antenna[J]. Journal of Machinery Manufacture and Reliability,2012,41(4):265-269. [5] 陈腾飞,陈陶菲,向华平. 一种并联机构天线座的运动学研究[J]. 电子机械工程,2018,34(2):4-8. CHEN Tengfei,CHEN Taofei,XIANG Huaping. Research on kinematics of an antenna pedestal with parallel configuration[J]. Electro-Mechanical Engineering,2018,34(2):4-8. [6] LIU Quan,LU Shengnan,DING Xilun. An error equivalent model of revolute joints with clearances for antenna pointing mechanisms[J]. Chinese Journal of Mechanical Engineering,2018,31(1):31-39. [7] 吴凤高. 天线座结构设计[M]. 西安:西北电讯工程学院出版社,1968. WU Fenggao. Structure design of antenna pedestal[M]. Xi'an:Northwest Telecommunication Engineering Institute Press,1968. [8] 叶尚辉. 天线结构设计[M]. 西安:西北电讯工程学院出版社,1986. YE Shanghui. Antenna structure design[M]. Xi'an:Northwest Telecommunication Engineering Institute Press,1986. [9] 杨毅,鹿碧洲,李小毛,等. 一种2自由度柔顺移动并联机构研究及其在对接装置上应用[J]. 机械工程学报,2019,55(11):114-122. YANG Yi,LU Bizhou,LI Xiaomao,et al. Investigation of 2-DOF compliant translational parallel mechanism and applied in the docking device[J]. Journal of Mechanical Engineering,2019,55(11):114-122. [10] GOSSELIN C M,Angels J. The optimum kinematic design of a planar 3-DOF parallel manipulators[J]. ASME. J. of Mechanical Design,1998,110(1):35-40. [11] Gosselin C. Determination of the workspace of 6-DOF parallel manipulators[J]. Journal of Mechanical Design,1990,112(3):331-336. [12] WU Weiguo,GAO Liyang. Parameter optimization of a stability-training platform's 4-PSS/PS parallel mechanism based on training ability evaluation index and PSO algorithm[J]. Chinese Journal of Mechanical Engineering,2018,31(1):50-61. [13] 侯雨雷,段艳宾,窦玉超,等. 65米射电望远镜天线副面调整机构标定研究[J]. 中国机械工程,2013,24(24):3318-3322,3328. HOU Yulei,DUAN Yanbin,DOU Yuchao,et al. Calibration of adjusting mechanism for subreflector of a 65 meters radio telescope[J]. China Mechanical Engineering,2013,24(24):3318-3322,3328. [14] 李建军,段艳宾,曾达幸,等. 65米射电望远镜天线并联式副面调整机构动力学仿真研究[J]. 系统仿真学报,2014,26(5):1040-1046,1070. LI Jianjun,DUAN Yanbin,ZENG Daxing,et al. Study on dynamics simulation of parallel adjusting mechanism for sub-reflector of 65m antenna[J]. Journal of System Simulation,2014,26(5):1040-1046,1070. [15] 段艳宾,姚建涛,赵永生. 65米射电望远镜天线副面调整机构系统精度分析[J]. 机械设计与制造,2013(11):151-153. DUAN Yanbin,YAO Jiantao,ZHAO Yongsheng. Accuracy analysis for the sub-reflector adjustment mechanism of 65m radio telescope antenna[J]. Machinery Design & Manufacture,2013(11):151-153. [16] 姚建涛,曾达幸,赵永生,等. 大型射电望远镜天线副反射面调整系统设计与实验研究[J]. 载人航天,2016,22(1):69-73,87. YAO Jiantao,ZENG Daxing,ZHAO Yongsheng,et al. Design and experiment research of subreflector adjusting system in large radio telescope antenna[J]. Manned Spaceflight,2016,22(1):69-73,87. [17] 许允斗,仝少帅,王贝,等. 2RPU-UPR并联机构在天线支撑中的应用[J]. 中国机械工程,2019,30(14):1748-1755. XU Yundou,TONG Shaoshuai,WANG Bei,et al. Application of 2RPU-UPR parallel mechanism in antenna support[J]. China Mechanical Engineering,2019,30(14):1748-1755. [18] XU Yundou,ZHANG Dongshen,YAO Jiantao,et al. Type synthesis of the 2R1T parallel mechanism with two continuous rotational axes and study on the principle of its motion decoupling[J]. Mechanism and Machine Theory,2017,108:27-40. [19] 翟亚普,杨彦东,董罡,等. 3-(P)SU&S并联机构的运动学分析与优化设计[J]. 机械设计,2017,34(8):19-25. ZHAI Yapu,YANG Yandong,DONG Gang,et al. Kinematic analysis and optimal design of 3-(P)SU&S parallel mechanism[J]. Journal of Machine Design,2017,34(8):19-25. [20] BERNABE L,RAYNAL N,MICHEL Y. A high performance parallel antenna pointing mechanism[C]//Conference Proceedings of the 15th European Space Mechanisms & Tribology Symposium,Noordwijk. 2013:25-27. [21] 吴超宇,钱小吾,余伟,等. 直线驱动型并联机器人工作空间分析与优化[J]. 农业机械学报,2018,49(1):381-389. WU Chaoyu,QIAN Xiaowu,YU Wei,et al. Work-space analysis and optimization of linear driven parallel robot[J]. Transactions of the Chinese Society for Agricultural Machinery,2018,49(1):381-389. [22] 陆海坤. 并联型天线座架构型研究与设计[D]. 西安:西安电子科技大学,2015. LU Haikun. Research and design of the antenna mount based on a parallel mechanism[D]. Xi'an:Xidian University,2015. [23] 段艳宾,李建军,侯雨雷,等. 射电望远镜天线副反射面并联调整机构设计[J]. 机械设计与制造,2013(8):222-225. DUAN Yanbin,LI Jianjun,HOU Yulei,et al. Configuration design of the adjusting parallel mechanism for sub-reflector of antenna of radio telescope antenna[J]. Machinery Design & Manufacture,2013(8):222-225. [24] ZENG Daxing,JING Guoning,HOU Yulei,et al. A novel decoupled parallel mechanism with two translational and one rotational degree of freedom and its performance indices analysis[J]. Advances in Mechanical Engineering,2016,8(5):1-10. [25] 侯雨雷,赵亚杰,周治宇,等. 3-RSR/SP并联车载天线机构运动及力学特性分析[J]. 中国机械工程,2017,28(23):2799-2808. HOU Yulei,Zhao Yajie,Zhou Zhiyu,et al. Kinematic and mechanics characteristic analysis of 3-RSR/SP parallel vehicle-borne antenna mechanisms[J]. China Mechanical Engineering,2017,28(23):2799-2808. |