Error Analysis and Accuracy Synthesis for
 Linkage Mechanism of High-Precision Press

doi:10.16183/j.cnki.jsjtu.2019.03.003

Abstract

Abstract: The development of high precision molding equipment is the key for near-net shape technology in our country. Research and development of parallel driven mechanical press with multi-link becomes important trends. How to determine the key error sources which influence the precision of servo press, thus to distribute the accuracy of the main parts economically and reasonably, is important for the design of high precision servo press. Based on the available research results, the definition, index and affecting factors of servo press’s precision are discussed. Then the structural characteristics of symmetry multi-linkage mechanism are analyzed, and precision analysis models of kinematics output are developed based on loop incremental theory; through sensitivity analysis, the key error sources are identified; considering the manufacturing cost and the constraints of mechanism reliability, the accuracy of the main parts is distributed. A case study of 4-RRPaR&PRPa R servo press is presented by using Monte Carlo method for demonstration of the proposed approaches. The result shows that the error factors which have relatively important influence on the servo press’s precision can be identified effectively, and the requirement of mechanism reliability can be satisfied by adjusting these factors’ tolerance.

Key words: parallel driven multi-linkage press, precision modeling, sensitivity analysis, accuracy synthesis

CLC Number:

TH 161

QIAN Huanan,TAO Jing,YU Suiran. Error Analysis and Accuracy Synthesis for Linkage Mechanism of High-Precision Press[J]. Journal of Shanghai Jiaotong University, 2019, 53(3): 269-275.

References

［1］SHAN Z D, QIN S Y, LIU Q, et al. Key manufacturing technology & equipment for energy saving and emissions reduction in mechanical equipment industry［J］. International Journal of Precision Engineering and Manufacturing, 2012, 13(7): 1095-1100. ［2］ZHANG F Q, LUO Z H, ZENG C. Development on preparation of silicon steel strip by near-net shape technology［J］. Applied Mechanics and Materials, 2013, 320: 336-344. ［3］OSAKADA K, MORI K, ALTAN T, et al. Mechanical servo press technology for metal forming［J］. CIRP Annals-Manufacturing Technology, 2011, 60(2): 651-672. ［4］GUO W T, GUO W Z, GAO F. Type synthesis of 4-DOF and 5-DOF parallel mechanisms considering passive constraining limbs［C］//ASME 2014 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. Buffalo, NY, USA: ASME, 2014. ［5］HE J, GAO F, MENG X D, et al. Type synthesis for 4-DOF parallel press mechanism using GF set theory ［J］. Chinese Journal of Mechanical Engineering, 2015, 28(4): 851-859. ［6］HUANG X, MA C X, WU S X, et al. Design and research of a novel type of mechanical presses driven by three servo motors in parallel［J］. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2013, 227(3): 580-591. ［7］李国红. 高速精密压力机多连杆机构运动精度的可靠性研究［D］. 南京: 南京农业大学, 2015. LI Guohong. Study on reliability of kinematic accuracy for multi-link mechanism of high-speed precision press［D］.Nanjing: Nanjing Agricultural University, 2015. ［8］莫志翔, 余德汝, 王石刚. 手术机器人远程运动中心机构的误差分析方法［J］. 上海交通大学学报, 2014, 48(8): 1189-1193. MO Zhixiang, YU Deru, WANG Shigang. Tolerance analysis method of mechanism of remote center of motion in surgical robot［J］. Journal of Shanghai Jiao Tong University, 2014, 48(8): 1189-1193. ［9］CHAKER A, MLIKA A, LARIBI M A, et al. Accuracy analysis of non-overconstrained spherical parallel manipulators［J］. European Journal of Mechanics—A/Solids, 2014, 47: 362-372. ［10］白勇军. 大型重载伺服机械压力机的关键技术及实验研究［D］. 上海: 上海交通大学, 2012. BAI Yongjun. Key technologies and experimental research on heavy-duty servo mechanical presses with parallel topology ［D］. Shanghai: Shanghai Jiao Tong University, 2012. ［11］余治民, 刘子建, 艾彦迪, 等. 大型数控龙门导轨磨床几何误差建模与基于可靠性理论的精度分配［J］. 机械工程学报, 2013, 49(17): 142-151. YU Zhimin, LIU Zijian, AI Yandi, et al. Geometric error model and precision distribution based on reliability theory for large CNC gantry guideway grinder［J］. Journal of Mechanical Engineering, 2013, 49(17): 142-151. ［12］LI J G, DING J, YAO Y X, et al. Workshop oriented tolerance synthesis for spatial PKM［J］. Journal of Harbin Institute of Technology, 2015, 22(2): 8-17. ［13］柳乔, 赵延明, 刘德顺, 等. 双点压力机主传动链关键机构尺寸与公差优化设计［J］. 机械设计与研究, 2013, 29(5): 11-14. LIU Qiao, ZHAO Yanming, LIU Deshun, et al. Optimization design of dimensions and tolerance for key mechanism in main transmission chain of two point press［J］. Machine Design and Research, 2013, 29(5): 11-14. ［14］牛瑞霞, 周志伟, 詹俊勇, 等. 双点压力机滑块运动精度分析［J］. 锻压装备与制造技术, 2017, 52(3): 20-22. NIU Ruixia, ZHOU Zhiwei, ZHAN Junyong, et al. Analysis of slider movement accuracy for double point press［J］. China Metalforming Equipment & Manufacturing Technology, 2017, 52(3): 20-22. ［15］鹿新建. 高速精密压力机多连杆驱动机构研究［D］. 南京: 南京农业大学, 2012. LU Xinjian. Research on multi-link drive mechanism of a high-speed precision press［D］. Nanjing: Nanjing Agricultural University, 2012.

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Error Analysis and Accuracy Synthesis for Linkage Mechanism of High-Precision Press

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