伺服压力机具有较强的冲压速度调节能力，在冲压成形领域中得到了广泛的研究和应用。首先对伺服压力机主传动部件的多种结构形式和性能特点进行了综述，并针对主轴运动控制的关键技术，包括交流伺服电机驱动控制、主轴运动状态空间模型及控制策略、滑块运动曲线的规划与实现等三方面的研究现状进行了详细介绍和分析，对比了国内外相关研究中主要控制方法的优缺点，通过分析可知，智能控制等现代控制理论和方法将在伺服压力机控制中发挥越来越重要的作用，并将逐步占据主导地位。最后提出了今后应重点解决的问题和研究方向。

[1]夏敏,向华,庄新村,等. 基于伺服压力机的板料成形研究现状与发展趋势[J].锻压技术，2013,38（2）:1-5.

Xia M,Xiang H,Zhuang X C,et al. Research status and development tendency of sheet metal forming using servo press [J]. Forging & Stamping Technology, 2013,38(2):1-5.

[2]Endou J. Innovation of press working by servo press [J]. Journal of the Japan Society for Technology of Plasticity, 2008, 49 (565): 100-104.

[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]AmadaAmerica, Inc. EMK M2 Series Turret Punch Press [EB/OL]. http://www.amada.com/site/Default.aspx?, 2013.

[5]Miyoshi K. Current trends in free motion presses [A]. Proceedings of 3rd JSTP International Seminar on Precision Forging[C].Japan: Nagoya, 2004.

[6]Nakagawa T. Servo motor drive press and markets trends in Japan [J]. Press Gijyutu, 2006, 44(9):18-29.

[7]Altan T. Servo press forming applications part Ⅱ: Drive systems [J]. Stamping Journal, 2007, 19 (4):12-13.

[8]Kurokata K. Hybrid AC servo press series [J]. Press Working, 2003,41(4):54-57.

[9]Komatsu Industries Corp. H2F Komatsu hybrid ac servo presses [EB/OL]. http://www.komatsusanki.co.jp/en/index.html, 2010.

[10]Bosga S G, Segura M. Design and tests of a hybrid servo drive system for a 1000 t mechanical press [A]. PESC Record-IEEE Annual Power Electronics Specialists Conference[C]. USA: Piscataway, 2008.

[11]Kumara S, Singh R. An intelligent system for selection of die-set of metal stamping press tool [J]. Journal of Materials Processing Technology, 2005, 164: 1395-1401.

[12]Yu W, Luo Y, Pi Y G. Fractional order modeling and control for permanent magnet synchronous motor velocity servo system[J]. Mechatronics,2013,23(7):813-820.

[13]Lin F J, Shyu K K, Lin Y S. Variable structure adaptive control for PM synchronous servo motor drive [J]. IEE Proceedings: Electric Power Applications, 1999, 146(2): 173-185.

[14]Alfonso G E, Víctor M H G, Manuel B S, et al. A new adaptive self-tuning fourier coefficients algorithm for periodic torque ripple minimization in permanent magnet synchronous motors (PMSM)[J].Sensors,2013,13(3)：3831-3847.

[15]Chou M C, Liaw C M, Chien S B, et al. Robust current and torque controls for PMSM driven satellite reaction wheel[J].IEEE Transactions on Aerospace and Electronic Systems,2011,47(1):58-74

[16]王永秀,梅志千,熊田忠,等. 交流伺服系统的鲁棒性设计[J]. 微特电机,2007,35(2):20-23.

Wang Y X, Mei Z Q, Xiong T Z, et al. The robustness design of AC servo system[J]. Small & Special Electrical Machines, 2007, 35(2):20-23.

[17]Zheng J M, Zhao S D, Wei S G. Fuzzy iterative learning control of electro-hydraulic servo system for SRM direct-drive volume control hydraulic press [J]. Journal of Central South University of Technology:English Edition, 2010, 17(2): 316-322.

[18]Wibowo W K, Jeong S K. Genetic algorithm tuned PI controller on PMSM simplified vector control [J].Journal of Central South University,2013, 20(11):3042-3048.

[19]El-Sousy F F M. Robust recurrent wavelet interval type-2 fuzzy-neural-network control for DSP-based PMSM servo drive systems [J]. Journal of Power Electronics,2013, 13(1):139-160.

[20]Grzesiak L M, Tarczewski T, Mandra S. Permanent magnet synchronous servo-drive with state position controller [A]. 13th International Power Electronics and Motion Control Conference[C].USA: Piscataway, 2008.

[21]于艳君,柴凤,程树康. 内置式永磁同步电动机非线性模型研究[J]. 微特电机,2009,37(4):1-3.

Yu Y J, Chai F, Cheng S K. Research onnonlinear model for IPMSM[J].Small & Special Electrical Machines,2009,37(4):1-3.

[22]何海兴,王坚. 基于dSPACE半实物仿真平台的永磁同步电动机数学模型的实现[J]. 变流技术与电力牵引,2006,29(5):40-45.

He H X, Wang J. Mathematical model realization of permanent magnetic synchronous machine based on dSPACE in the hardware in loop[J]. High Power Converter,2006,29(5):40-45.

[23]陈昊,王永,周建亮,等. 永磁同步电动机系统模型辨识[J]. 微特电机, 2013,41(1):7-10.

Chen H，Wang Y，Zhou J L, et al. System model identification of permanent magnet synchronous motor[J].Small & Special Electrical Machines, 2013,41(1):7-10.

[24]李亮亮,何勇,叶海翔. 永磁同步电动机神经网络逆系统简化模型的研究[J]. 微特电机, 2010,38(7):57-59.

Li L L, He Y, Ye H X. Simplified model study of neural network inverse system for permanent magnet synchronous motors[J]. Small & Special Electrical Machines, 2010,38(7):57-59.

[25]张宁,马孝义,陈帝伊,等. 永磁同步电动机的混沌数学模型及其线性反馈同步控制[J]. 微特电机, 2011, 39(2): 63-66.

Zhang N, Ma X Y, Chen D Y, et al. Chaotic mathematical model and linear feedback synchronization control for permanent magnet synchronous motor[J]. Small & Special Electrical Machines, 2011, 39(2): 63-66. 

[26]孙业树,周新云,李正明,等. 永磁同步电机交流伺服系统模型参考模糊控制[J]. 微电机,2003, 36(1):19-21.

Sun Y S, Zhou X Y, Li Z M，et al. Research on simulation of permanent magnet synchronous motor AC servo system model reference fuzzy adaptive controller[J]. Micromotors Servo Technique, 2003, 36(1):19-21.

[27]周莉. 基于Matlab/Simulink的曲柄滑块机构运动学分析及仿真[J]. 机械研究与应用,2012,20(4):62-63.

Zhou L. Kinematics analysis and simulation of slider-crack mechanism based on MATLAB/Simulink [J].Mechanical Research & Application,2012,20(4):62-63.

[28]Kim D H, Tsao T C. Robust performance control of electrohydraulic actuators for electronic cam motion generation[J]. IEEE Transactions on Control Systems Technology, 2000, 8(2): 220-227.

[29]Hu J G，Sun Y S，Zhang G C. Research on PLC controlling system of servo mechanical presses [A]. Proceedings-2013 5th Conference on Measuring Technology and Mechatronics Automation[C]. USA:Washington, 2013.

[30]宋清玉,郭宝峰,李建,等. 伺服压力机柔性加减速控制算法[J]. 农业机械学报,2013,44(6):269-273.

Song Q Y, Guo B F, Li J. Flexible acceleration and deceleration control algorithm for servo press[J]. Transactions of the Chinese Society for Agricultural Machinery,2013,44(6):269-273.

[31]陈岳云,郭为忠,高峰. 基于NURBS曲线的伺服压力机冲压过程建模与加工工艺轨迹规划[J]. 上海交通大学学报,2009,43(1):138-142.

Chen Y Y, Guo W Z, Gao F. NURBS-based feature modeling and trajectory planning for ram motion of servo mechanical presses[J]. Journal of Shanghai Jiaotong University,2009,43(1):138-142.

[32]尚万峰,赵升吨. 伺服压力机加工工艺的Bezier模型及其优化研究[J]. 西安交通大学学报,2012,46（3）:31-35.

Shang W F, Zhao S D. Servo press processing Bezier-model with optimum[J]. Journal of Xian Jiaotong University, 2012,46（3）:31-35.

[33]李团结,文群燕,蒋而进. 伺服输入曲柄滑块机构的控制模型[J]. 西安电子科技大学学报,2002,29（3）:415-418.

Li T J, Wen Q Y, Jiang E J. A control model of the slider-crank mechanism with a variable input speed[J]. Journal of Xidian University, 2002, 29（3）:415-418.

[34]Xie J, Zhao S D, Sha Z H, et al. Position servo control of the slider in double toggle mechanical press using Bezier curve model and fuzzy control [A]. IEEE International Conference on Automation Science and Engineering[C]. USA：Piscataway, 2011.

[35]李建,王建新,殷文齐,等. 伺服压力机滑块运动曲线拟合和计算[J]. 一重技术,2011,49（5）:1-3.

Li J, Wang J X，Yin W Q，et al. Research on fitting method and calculation of servo press slide motion path[J] Cfhi Technology, 2011,49（5）:1-3.

[36]刘清建. 数控系统运动控制及运行优化[D]. 天津: 天津大学, 2010.

Liu J X.Movement Control and Optimizing Operation of CNC System[D]. Tianjin: Tianjin University, 2010.