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摘要:
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针对原卷板机开环控制系统的性能不稳定、卷板精度不足的缺陷,现卷板机采用了基于PLC的液压同步闭环控制改造。改造过程中,尽量采用成熟技术。改造后的硬件组成为液压同步驱动设备、SIEMENS 公司的S7-300和SMART 1000IE等,液压系统主油缸的工作压力为19.5 MPa,上辊加压力10500 kN。研究结果表明,改造后的卷板机实现了弯曲过程的数字控制,弯曲过程自动补偿,同步控制精度达到或小于±0.5 mm,能够自由地设定端部预弯直边长度,连续弯曲无后角。控制系统性能稳定,安全便捷。
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For the issue that the open-loop control system of the original version of bending machine is neither stable nor precise enough, the new version was improved with a hydraulic synchronous closed-loop control system based on the technique of PLC. The mature technology was applied during the modified process. The modified hardware was composed of hydraulic synchronous driver devices, S7-300 and SMART 1000IE produced by SIEMENS and so on. The working pressure of the main hydraulic cylinder was 19.5 MPa. The dynamic pressure of the upper roll was 10500 kN. It is found that the modified bending machine can realize digital control and automatic compensation in the bending process. The precision of the synchronization control can achieve or less than ±0.5 mm. The machine can set the length of the preflex straight flange at the end. Also, it can flex materials continuously without a relief angle. Therefore, the new controlling system is stable, safe and convenient.
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基金项目:
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湖北省教育厅科研项目(B2014179)
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作者简介:
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宋亚林(1964-),男,学士,副教授
江宁(1975-),男,硕士,工程师
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参考文献:
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[1]卜锋斌,丁肖良,戴贇.水平下调式三辊卷板机卷板工艺的数学建模[J].机电设备,2005,(3):21-24. Bu F B, Ding X L, Dai Y. Mathematical modeling for bending process of the level down-regulating styled three roller bending machine[J]. Mechanical and Electrical Equipment, 2005,(3):21-24.
[2]宋亚林.插装阀在液压式三辊卷板机上的使用性能分析[J].机床与液压,2013,41(2): 122-140.Song Y L. The application of cartridge valve in the three roller bending machine[J]. Machine Tool & Hydraulics, 2013,41(2): 122-140.
[3]廖永锋,张久林.步进式加热炉提升框架液压同步控制研究[J].冶金设备,2013,205(4):36-39. Liao Y F, Zhang J L. Study on hydraulic synchro control of lifting frame for walking beam reheating furnace [J]. Metallurgical Equipment, 2013,205(4):36-39.
[4]张根宝, 唐记弘.S7-300PLC 在全自动包装机中的应用[J]. 包装工程,2009,(1): 68-70.Zhang G B, Tang J H. Application of S7-300 PLC on automated packaging machine[J]. Packaging Engineering, 2009, (1): 68-70.
[5]周科, 陈柏金, 冯仪, 等.基于PLC控制的液压同步顶升系统[J].机床与液压,2007,35(12): 149-150.Zhou K, Chen B J, Feng Y, et al. Hydraulic synchronous lift system based on PLC control [J]. Machine Tool & Hydraulics, 2007, 35(12): 149-150.
[6]李贵闪,翟华.电液比例控制技术在液压机中的应用[J].锻压装备与制造技术,2005,40(6):28-30.Li G S, Zhai H. Application of electro-hydro proportional control in hydraulic press[J]. China Metal Forming Equipment & Manufacturing Technology,2005,40(6):28-30.
[7]刘延俊.液压与气压传动[M].北京:清华大学出版社,2010. Liu Y J. Hydraulic and Pneumatic Transmission[M]. Beijing: Tsinghua University Press, 2010.
[8]刘忠伟.液压同步控制系统及其在巨型水压机上的应用[J].液压气动与密封,2007,27(1):7-10.Liu Z W. Hydraulic synchronization control system and its application on giant hydraulic press[J]. Hydraulics Pneumatics & Seals, 2007,27(1):7-10.
[9]白柳.液压同步开环与闭环控制的比较[J].液压气动与密封, 2010,30(1):1-3.Bai L. The comparison of synchronous open-loop control with closed-loop control of hydraulic[J]. Hydraulics Pneumatics & Seals, 2010,30(1):1-3.
[10]罗小宝,王同卫,王燕华.PLC 液压同步顶升技术在高速路天桥改造中的应用[J].山东交通科技,2014,(3):28-30. Luo X B, Wang T W, Wang Y H. Application of PLC controlled hydraulic synchronization jacking technique in overbridge redevelopment [J]. Shandong Traffic Science & Technology, 2014,(3):28-30.
[11]李丰安,张根宝,樊明霞.西门子S7-200在纸袋糊口机同步控制系统中的应用[J]. 包装工程, 2007,(3):97-99.Li F A, Zhang G B, Fan M X. Application of S7-200 PLC on synchronized control system of mouth sticking machine[J]. Packing Engineering, 2007,(3):97-99.
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