Transactions of Materials and Heat Treatment

Title：Design and applied research on novel permanent magnet motors for servo direct driving mechanical press

Authors： Zhao Shengdun Liang Jintao Zhao Yongqiang Xie Jia

Unit： Xi‘an Jiaotong University

KeyWords： servo press permanent magnet axial flux motor (PM-AFM) permanent magnet transverse flux motor (PM-TFM) flux switching permanent magnet (FSPM) flywheel energy storage

ClassificationCode：

year,vol(issue):pagenumber：2014,39(4):59-65

Abstract：

In order to research the novel permanent magnet motors used for direct driving servo mechanical press， the appropriate transmission mechanisms of mechanical press were discussed, so that the performance requirements of servo driving motor were determined. Various permanent magnet motor were introduced respectively, the topology structures adapted to mechanical press servo driving were designed, and then motor prototype and performance testing platform were fabricated to verify the performance characteristics of direct driving mechanical press. General purpose servo driver was developed to independently control the current of each phase，which led to make use of reluctance torque and improve capability of field-weakening. Energy storage methods during braking process were discussed, and the integrated energy storage system combining flux switching motor and flywheel was designed, which could improve the superiority of mechanical press on energy conservation.

Funds：

国家自然科学基金资助项目 (51335009); 国家科技重大专项资助项目(2011ZX04016-081-03)

赵升吨（1962-），男，博士，教授，博士生导师

Reference：

[1]孙友松, 周先辉, 黎勉, 等. 交流伺服压力机及其关键技术[J]. 锻压技术, 2008, 33(4): 1-8.

Sun Yousong, Zhou Xianhui, Li Mian, et al. AC servo presses and their key techniques [J]. Forging & Stamping Technology, 2008, 33(4): 1-8.

[2]Osakada K, Matsumoto K, Otsu M, et al. Precision extrusion methods with double axis servo-press using counter pressure [J]. CIRP Annals Manufacturing Technology, 2005, 54 (1): 245-248.

[3]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): 34-38.

Shang Wanfeng, Zhao Shengdun. Servo press processing bezier-model with optimum[J]. Journal of Xian Jiaotong University, 2012, 46(3)：34-38.

[4]尚万峰, 邵丽红, 赵升吨. SRM直驱伺服压力机的柔性控制建模与带负载仿真[J]. 锻压技术, 2011, 36(5): 57-62.

Shang Wanfeng, Shao Lihong, Zhao Shengdun. Simulation of flexible control model of servo press with loads directly driven by SRM [J]. Forging & Stamping Technology, 2011, 36(5): 57-62.

[5]Atallah K, Wang J B. A rotor with axially and circumferentially magnetized permanent magnets[J]. IEEE Transactions on Magnetics, 2012, 48(11): 3230-3233.

[6]Rahman M K, Patel R N, Ward T G, et al. Application of direct-drive wheel motor for fuel cell electric and hybrid electric vehicle propulsion system [J].IEEE Transactions on Industry Applications, 2006, 42 (5): 1185-1192.

[7]Yan G J, Hsu L Y, Wang J H, et al. Axial-flux permanent magnet brushless motor for slim vortex pumps [J]. IEEE Transactions on Magnetics, 2009, 45(10): 4732-4735.

[8]Mitcham A J. Transverse flux motor for electric propulsion of ships[A]. IEE Colloquium on New Topologies for Permanent Magnet Machines [C].London,1997.

[9]Kang D H, Weh H. Design of an integrated propulsion, guidance, and levitation system by magnetically excited transverse flux linear motor (TFM-LM) [J]

[10]Fodorean D, Giurgea S, Djerdir A, et al. Numerical approach for optimum electromagnetic parameters of electrical machines used in vehicle traction applications [J]. Energy Conversion and Management, 2009, 50(5): 1288-1294.

[11]Quddes M R, Sekino M, Ohsaki H, et al. Electromagnetic design study of transverse flux enhanced type superconducting wind turbine generators [J]. IEEE Transactions on Applied Superconductivity, 2011, 21(3): 1101-1104.

[12]Polinder H, Mecrow B C, Jack A G, et al. Conventional and TFPM linear generator for direct-drive wave energy conversion [J]. IEEE Transactions on Energy Conversion, 2005, 20(2): 260-267.

[13]Lee J Y, Hong D K, Woo B C, et al. Performance comparison of longitudinal flux and transverse flux permanent magnet machines for turret applications with large diameter [J]. IEEE Transactions on Magnetics, 2012, 48(2): 915-918.

[14]Cheng M, Hua W, Zhang J Z, et al. Overview of stator-permanent magnet brushless machines [J]. IEEE Transactions on Industrial Electronics, 2011, 58(11): 5087-5101.

[15]Zhu Z Q, Pang Y, Howe D, et al. Analysis of electromagnetic performance of flux-switching PM machines by non-linear adaptive lumped parameter magnetic circuit model [J]. IEEE Transactions on Magnetics, 2005, 41(11): 4277-4287.

[16]Hua W, Zhu Z Q, Howe D. Analysis and optimization of back EMF waveform of a flux-switching permanent magnet motor [J]. IEEE Transactions on Energy Conversion, 2008, 23(3): 727-733.

[17]Zhu Z Q, Chen J T. Advanced flux-switching permanent magnet brushless machines [J]. IEEE Transactions on Magnetics, 2005, 41(6): 1447-1453.

[18] Ayman M, Refaire E L, Thomas M, et al. Comparison of synchronous PM machine types for wide constant-power speed range operation [J]. The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, 2008, 27(5): 967-984.

[19]张维煜, 朱熀秋. 飞轮储能关键技术及其发展现状[J]. 电工技术学报, 2011,26(7):141-146.

Zhang Weiyu, Zhu Huangqiu. Key technologies and development status of flywheel energy storage system [J]. Transactions of China Electrotechnical Society, 2011, 26(7): 141-146.

[20]戴兴建, 邓占峰, 刘刚, 等. 大容量先进飞轮储能电源技术发展状况[J]. 电工技术学报, 2011, 26(7): 133-140.

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