纺织学报 ›› 2012, Vol. 33 ›› Issue (5): 135-139.
郑宝平, 蒋高明, 夏风林, 张琦, 秦文
ZHENG Bao-Ping, JIANG Gao-Ming, XIA Feng-Lin, ZHANG Qi, QIN Wen
摘要: 经编机梳栉电子横移控制系统由于无法满足高速的要求而成为高速经编机全电子化的一个瓶颈。针对采用位置控制模式的高速经编机电子横移系统定位时间长、动态响应不足等缺陷,研究了一种基于双PID速度控制模式经编机电子横移控制系统。控制系统中,先基于工艺预先规划出横移速度曲线,再结合运动控制卡和伺服驱动设计出双PID控制算法,保证整个横移运动的位移可控和低刚性冲击。通过理论分析和实验测试,证实该控制系统能够满足高速经编机高速度、高精度、高响应和高频率启停的横移工艺要求。
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[1] Xia FL, Ge MQ. Motion Rule of Electronically Pattern System on a High Speed Warp Knitting Machine[J]. Fibers & Textiles in Eastern Europe,2009,17(4):64-67.[2] 孔震,蒋高明,夏风林. 经编机伺服控制系统的参数调节方法[J]. 纺织学报,2008,29(10):102-108.KONG Zhen, JIANG Gaoming, XIA Fenglin. Parameters adjusting methods of warp knitting servo-control system[J]. Journal of Textile Research,2008 , 29(10): 102-108.[3] Temiz I, Dogan Z. Experimental Analysis of Different Control Methods for the Speed Control of Alternative-Current Servo Motors[J]. International Review of Electrical Engineering-IREE,2011,6(1) :215-222.[4] 蔡一,郝双晖,郑伟峰,等. 交流伺服直线位移平台高速定位控制[J].机械设计与制造,2010(6):88-90.CAI Yi, HAO Shuanghui, ZHENG Weifeng, et al. High-speed positioning control for beeline displacement platform[J]. Machinery Design & Manufacture, 2010(6):88-90.[5] 常雪峰,陈幼平,艾武,等.一种高响应数模混合式直线伺服系统[J]. 中国机械工程,2006,17(24):2600-2603.CHANG Xuefeng, CHEN Youping, AI Wu, et al. A High Response Linear Servo System with Digital-Analogue Control[J]. China Mechanical Engineering, 2006,17(24):2600-2603.[6] 郝双晖,蔡一,郑伟峰,等. 基于前馈控制的交流伺服系统高速定位控制[J].微特电机,2010(2):35-37.HAO Shuanghui, CAIYi, HENG Weifeng, et al. Research on High-Speed Positioning of AC Servo System Based on Feedforward Control[J]. Micro motor, 2010(2):35-37.[7] 项占琴,李瑞忠.交流伺服电机动态定位系统基于高速终端反馈的改进[J].工程设计学报,2004,11(4):201-204.XIANG Zhanqi, LI Ruizhong. Improvement of AC servo motor dynamic position control system[J].Journal of Engineering Design, 2004,11(4):201-204.[8] 夏风林,葛明桥,蒋高明. 高速经编机梳栉横移运动的优化设计[J]. 纺织学报,2009,30(5):106-109.XIA Fenglin, GE Mingqiao, JIANG Gaoming. Optimizing design of shogging motion of the guide bar on high speed warp knitting machine[J]. Journal of Textile Research, 2009,30(5):106-109.[9] Li De Jun, Xu Le Ping. The Design for Warp knitting Machine Traversing Control System Based on DSP[J]. International Conference on Computational Intelligence and Security,2009:558-562.[10]夏风林,蒋高明,葛明桥. 高速经编机电子横移系统运动精度分析[J]. 纺织学报,2009,30(3):106-110.XIA Fenglin, JIANG Gaoming, GE Mingqiao. Moving precision analysis of electronic shogging system on high speed warp knitting machine[J]. Journal of Textile Research,2009,30(3):106-110.[11] 丛爽,李泽湘.实用运动控制技术[M]. 北京:电子工业出版社,2006:169-170.CONG Shuang, LI Zexiang. Applied Motion Control Technologies[M]. Beijing: Electronic Industry Press, 2006:169-170.[12] Petrovas A, Lisauskas S, Rinkeviciene R. Digital Automatic Control System with PID Controller[J]. ELEKTRONIKA IR ELEKTROTECHNIKA,2011,4:13-16.[13] 蒋存波,张淑祯,覃彦芝. 一种单参数P I D控制算法参数整定方法研究[J]. 自动化与仪表,2010(7):32-36.JIANG Cunbo, ZHANG Shuzhen, TAN Yanzhi. Parameter Tuning Method of a Single—parameter PID Control Algorithm[J]. Automtion and Instrumentation, 2010(7):32-36. |
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