锻压技术

伺服液压机的研究现状及发展趋势

英文标题：Advance and trend of servo hydraulic press

作者：陈超赵升吨范淑琴崔敏超贲宁宇

单位：西安交通大学

关键词：伺服液压机伺服电机塑性成形

分类号：TG315

出版年,卷(期):页码：2015,40(12):1-6

摘要：

伺服液压机是采用伺服电机驱动液压系统工作的一种新型液压机。将伺服液压机和普通液压机进行对比分析，介绍了伺服液压机的柔性高、结构紧凑、生产率高和节能等四大优势。介绍了国内外某些具有代表性公司的伺服液压机产品和国内一些高校在伺服液压机理论设计方面的工作，探讨了目前国内外伺服液压机的研究现状。分析结果表明，伺服液压机将成为未来锻压装备领域的主要发展方向之一，同时伺服液压机将会朝着高速化、高效化、智能化、标准化和多用途等方向继续发展。

Servo hydraulic press is a new type of hydraulic press which adopts servo motor to drive hydraulic system. Comparing with the general hydraulic press, it was introduced that servo hydraulic press has the advantages of good flexibility, compact structure, large productivity, energy conservation. The research status of servo hydraulic press at home and abroad was discussed by introducing some representative servo hydraulic press products produced by some famous companies at home and abroad, and the servo hydraulic press theory and design in some domestic colleges and universities. The analysis shows that the servo hydraulic press will become one of the main development directions in the field of forging in the future, and it will develop along the direction of high-speed, efficiency, intelligence, standardization and multifunction.

基金项目：

国家自然科学基金资助项目（51335009；51305333）；陕西省科学技术研究发展计划工业攻关计划项目（2014K07-23）

作者简介：陈超（1990-），男，博士研究生

参考文献：

［1］李贵闪.伺服驱动液压机浅析[J].锻压装备与制造技术，2011,46（6）:17-19.Li G S. Brief introduction of servo-driven hydraulic press[J]. China Metalforming Equipment & Manufacturing Technology, 2011,46（6）：17-19.
［2］韩江，肖扬，夏链，等.新型伺服液压机泵控液压缸液压系统的建模与仿真[J]. 液压与气动，2011，（10）：12-15.Han J, Xiao Y, Xia L, et al. Modeling and simulation of hydraulic servo pump system for new servo controlled hydraulic machine[J]. Chinese Hydraulics & Pneumatics,2011,（10）：12-15.
［3］杜鑫，孙苓生.交流伺服电机在数控卷簧流水线中的应用[J].电气传动，2005,35（12）：51-54.Du X, Sun L S. Application of AC servo motors in a digital control plane roll-up spring pipeline[J].Electric Drive,2005,35（12）：51-54.
［4］Liu G，Zhou J，Duszczyk J. Prediction and verification of temperature evolution as a function of ram speed during the extrusion of AZ31 alloy into a rectangular section[J].Journal of Materials Processing Technology，2007，(186):19-199．
［5］Fatemi-Varzaneh S M，Zarei Hanzaki A，Naderi M，et al. Deformation homogeneity in accumulative back extrusion processing of AZ31 magnesium alloy[J].Journal of Alloys and Compounds，2010，(507):207-214.
［6］李贵闪，严建文，翟华.伺服液压机研究现状及关键技术[J].液压与气动，2011，（5）：39-41.Li G S, Yan J W, Di H. Servo hydraulic press research state and key technology[J]. Chinese Hydraulics & Pneumatics, 2011,（5）：39-41.
［7］严建文，刘家旭，陈汝昌，等.智能液压机研究现状及关键技术[J].锻压装备与制造技术，2013，48（2）：15-17.Yan J W, Liu J X, Chen R C,et al. Research status and key technology of intelligent hydraulic press[J]. China Metalforming Equipment & Manufacturing Technology,2013,48（2）：15-17.
［8］韩江，黄迪森，夏链，等.基于模糊PID控制的新型伺服液压机位置控制系统研究[J].液压与气动，2012，（2）：87-90.Han J, Huang D S, Xia L, et al. Study of position control system for new servo controlled hydraulic machine based on fuzzy PID control[J]. Chinese Hydraulics & Pneumatics,2012,（2）：87-90.
［9］Osakada K，Mori K，Altan T，et a1． Mechanical servo press technology for metal forming[J].CIRP Annals Manufacturing Technology，2011，(60):651-672.
［10］郑洪波，孙友松，李绍培，等.节能型直驱泵控伺服液压机及其能耗实验研究[J].锻压技术，2014,39（1）:79-85.Zheng H B, Sun Y S, Li S P, et al. Research on energy-saving direct-drive pump-controlled servo hydraulic press and its energy consumption experiment[J].Forging & Stamping Technology,2014，39（1）:79-85.
［11］郑洪波.伺服直驱泵控液压系统及其节能机理研究[D].广东:广东工业大学，2012.Zheng H B. Research on Direct Drive Pump-Controlled Servo Hydraulic System and Its Energy-saving Mechanism[D].Guangdong: Guangdong University of Technology,2012.
［12］尚万峰.开关磁阻电动机伺服驱动新型机械压力机的关键技术研究[D].西安：西安交通大学，2007.Shang W F. Research on Key Techniques of Press Driven by Switched Reluctance Motor[D]. Xi′an: Xi′an Jiaotong University, 2007.
［13］曹阳，田晓燕，李巧梅，等.无阀液压伺服系统的研究进展[J].现代制造工程，2012，（9）：126-129.Cao Y, Tian X Y, Li Q M, et al. Research progress in valveless electro-hydraulic servo system[J]. Modern Manufacturing Engineering,2012,（9）：126-129.
［14］冼灿标，齐水冰，孙友松，等.直驱泵控伺服液压机节能分析及试验研究[J].机床与液压，2014，42（5）：45-115.Xian C B, Qi S B, Sun Y S, et al. Analysis and experiment research on energy-saving mechanism of direct drive pump-controlled servo hydraulic press[J]. Machine Tool & Hydraulics,2014,42（5）:45-115.
［15］冼灿标.直驱泵控伺服液压机动态特性与节能机理研究[D].广东：广东工业大学，2012.Xian C B. Research on Dynamic Performances and Energy-Saving mechanism of Direct Drive Pump-controlled Servo Hydraulic Press[D]. Guangdong: Guangdong University of Technology,2012.
［16］徐大任.AC伺服冲压机及其应用[J]. 机械工人, 2005, (4):19-21.Xu D R. AC servo press and its application[J]. Metal Working, 2005, (4):19-21.
［17］Sun P,Gracio J J,Ferreira J A. Control system of a mini hydraulic press for evaluating springback in sheet metal forming[J].Journal of Materials Processing Technology，2006，176：55-61.
［18］Wang C L,Cui Y X,Li C. Investigation of pitting corrosion damage of a hydraulic press trunk piston[J].Engineering Failure Analysis，2003，10：251-254.
［19］Fulland M,Sander M,Kullmer G,et al. Analysis of fatigue crack propagation in the frame of a hydraulic press[J].Engineering Fracture Mechanics，2007，75：892-900.
［20］李旭.新型开式快速伺服液压机及其动态特性的研究[D].西安：西安交通大学，2008.Li X. Research on a New Type of Open-back High Speed Servo-hydraulic Press and Dynamic Characteristic[D]. Xi'an: Xi'an Jiaotong University, 2008.
［21］何寄平，孙友松，郑宏波，等.泵控伺服液压机节能分析[J]. 锻压装备与制造技术，2009,44（6）:24-27.He J P, Sun Y S, Zheng H B, et al. Energy consumption analysis of AC servo driven hydraulic press[J]. China Metalforming Equipment & Manufacturing Technology, 2009,44（6）:24-27.
［22］孙友松，何寄平，方雅，等.交流伺服驱动与成形装备节能[J]. 锻压装备与制造技术，2009,（5）:26-31.Sun Y S, He J P, Fang Y, et al. The AC servo drive and energy-saving of the forming equipment[J]. China Metalforming Equipment & Manufacturing Technology, 2009,（5）:26-31.
［23］夏卫明，李辉，骆桂林，等.125 t混合伺服液压机的特点、技术方案及应用[J].锻压技术，2014,39（9）：74-85.Xia W M, Li H, Luo G L, et al. Characteristics，technical solutions and applications of 125 t hybrid servo hydraulic press[J]. Forging & Stamping Technology, 2014,39（9）：74-85.
［24］夏卫明，骆桂林，嵇宽斌.一种新型无级可调高速伺服液压机液压系统[J].锻压装备与制造技术，2012，47（5）：32-34.Xia W M, Luo G L, Ji K B. A new type of stepless adjustable hydraulic system for high-speed servo hydraulic press[J]. China Metalforming Equipment & Manufacturing Technology,2012,47（5）:32-34.
［25］黄迪淼.新型伺服液压机控制系统研究与开发[D].合肥:合肥工业大学，2012.Huang D M. Research and Development of the Control System in the New Servo Hydraulic Press[D].Hefei: Hefei University of Technology,2012.

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