基于神经网络的矫直机弯辊量自适应控制系统
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摘要
由于板材在加热、轧制和冷却过程中受到多种因素的影响,所以轧制出的板材存在中浪、边浪和瓢曲等板型缺陷,欲消除此类板型缺陷,矫直机需配备弯辊装置。中厚板辊式矫直机的弯辊系统是决定板材质量、提高矫直效率的关键环节。由于矫直过程是多变量、非线性、慢时变、强耦合的一个过程,而采用传统技术构建的弯辊量模型并未涉及时变因素和耦合因素的影响。所以本文将现有的弯辊量模型和神经网络技术相结合构造弯辊量自适应模型,使其具有自适应性和自学习的能力。本文的主要研究内容如下:
(1)弯辊量样本值管理系统的设计与实现。该部分的创建是以临钢十一辊全液压强力矫直机的二级监控系统为背景,该二级监控系统由自动化站、主操作站、主监控站、工程师站和服务器集群共同构成的分布式的计算机控制系统。本文以此为基础创建样本值管理系统,此系统具备管理应用样本表中现有样本值、通讯数据及实时数据的功能,也具有根据一定条件查询样本表中的样本值和添加、删除样本值的功能。
(2)弯辊量自适应模型的设计和实现。该部分创建了由解析数学模型和神经网络自学习系统构成的具有自适应功能的智能弯辊模型。通过神经网络模型将历史数据及标准样本对系统的影响导入模型,提高了模型的精确性和适应能力。通过试验对神经网络自学习系统的传递函数、学习函数、训练函数和隐层神经元个数进行了设计,使弯辊量自适应模型具有学习速度快、精度高和泛化能力强的特性。
(3)弯辊量自适应模型的应用。利用数据库技术、OPC技术、工业现场总线技术等,将弯辊量自适应模型、矫直机二级控制系统及基础自动化系统有机地结合起来,从而构建了完整的矫直机智能工艺设定系统。系统通过OPC,指挥矫直机监控系统控制PLC,再由PLC控制矫直机弯辊装置中的液压缸,进行对应的弯辊操作,以改善板型。整个系统在某厂的大型第三代全液压中厚板矫直机控制系统中投入应用。
Because the plates are affected by many factors during the heating, rollingand cooling process,the rolled plates have shape defects, such as wave in thepart of plates、waves in the edge of plates、buckling. In order to eliminate defects,the roller must be equipment the bending parts. The bending system of the plateroller leveler is a key part which decides sheet quality and improves thestraightening efficiency. Because the straightening process is a multivariable,nonlinear, slowly time-varying, and strong coupling process. The model usedconventional techniques does not involve time-varying and coupling factors.Therefore, the paper combines the Existing model of bending value with neuralnetwork to construct the bending amount of models and neural networktechnology combining construct the adaptive model of bending value, whichmakes that have adaptive capacity and the ability of learning by itself. Thispaper designs a neural network as a bending roll control model. This articlecontains the following sections:
(1) The design and implementation of bending value sample valuemanagement system. The creation’s background of this part is the monitoringsystems of11-high hydraulic powerful leveler of a factory. The two stepmonitoring system is consisted of the automation station, the main operatorstation, the main monitoring station, the engineer station and server clusterswhich together constitute the distributed computer control system. The papercreates the management system of sample value depend on the system. Thisprocedure interface owns the ability of managing sample value, communicationdata and real-time data, querying sample value from the sample table accordingto certain conditions and adding、deleting sample value in sample table.
(2) The design and implementation of the adaptive model of Bending value.The part creates a intelligent roll bending model with adaptive function which ismade up of analytical mathematical model and neural network. The neuralnetwork model makes the impact of historical data and standard samples to thesystem imported into the model to improve the accuracy of the model and ability to adapt. After many experience, it designs the learning function, the transferfunction, the training function, and the number of neurons in the hidden layer ofneural network to make it own fast learning speed, high accuracy andgeneralization.
(3) The application of the adaptive model of bending value. Using thedatabase technology, OPC technology, the industrial field-bus technologycombines the adaptive model of bending value with the monitoring system ofstraightening machine and the basic automation system, so that build acomplete process system of straightening machine. The system commands theleveler monitoring system to control the PLC by OPC, and then the PLCcontrols the roller and operate the bending rollers to improve the plate. Thesystem is applied in the control system of the large third-generation fullhydraulic plate straightening machine.
(1)弯辊量样本值管理系统的设计与实现。该部分的创建是以临钢十一辊全液压强力矫直机的二级监控系统为背景,该二级监控系统由自动化站、主操作站、主监控站、工程师站和服务器集群共同构成的分布式的计算机控制系统。本文以此为基础创建样本值管理系统,此系统具备管理应用样本表中现有样本值、通讯数据及实时数据的功能,也具有根据一定条件查询样本表中的样本值和添加、删除样本值的功能。
(2)弯辊量自适应模型的设计和实现。该部分创建了由解析数学模型和神经网络自学习系统构成的具有自适应功能的智能弯辊模型。通过神经网络模型将历史数据及标准样本对系统的影响导入模型,提高了模型的精确性和适应能力。通过试验对神经网络自学习系统的传递函数、学习函数、训练函数和隐层神经元个数进行了设计,使弯辊量自适应模型具有学习速度快、精度高和泛化能力强的特性。
(3)弯辊量自适应模型的应用。利用数据库技术、OPC技术、工业现场总线技术等,将弯辊量自适应模型、矫直机二级控制系统及基础自动化系统有机地结合起来,从而构建了完整的矫直机智能工艺设定系统。系统通过OPC,指挥矫直机监控系统控制PLC,再由PLC控制矫直机弯辊装置中的液压缸,进行对应的弯辊操作,以改善板型。整个系统在某厂的大型第三代全液压中厚板矫直机控制系统中投入应用。
Because the plates are affected by many factors during the heating, rollingand cooling process,the rolled plates have shape defects, such as wave in thepart of plates、waves in the edge of plates、buckling. In order to eliminate defects,the roller must be equipment the bending parts. The bending system of the plateroller leveler is a key part which decides sheet quality and improves thestraightening efficiency. Because the straightening process is a multivariable,nonlinear, slowly time-varying, and strong coupling process. The model usedconventional techniques does not involve time-varying and coupling factors.Therefore, the paper combines the Existing model of bending value with neuralnetwork to construct the bending amount of models and neural networktechnology combining construct the adaptive model of bending value, whichmakes that have adaptive capacity and the ability of learning by itself. Thispaper designs a neural network as a bending roll control model. This articlecontains the following sections:
(1) The design and implementation of bending value sample valuemanagement system. The creation’s background of this part is the monitoringsystems of11-high hydraulic powerful leveler of a factory. The two stepmonitoring system is consisted of the automation station, the main operatorstation, the main monitoring station, the engineer station and server clusterswhich together constitute the distributed computer control system. The papercreates the management system of sample value depend on the system. Thisprocedure interface owns the ability of managing sample value, communicationdata and real-time data, querying sample value from the sample table accordingto certain conditions and adding、deleting sample value in sample table.
(2) The design and implementation of the adaptive model of Bending value.The part creates a intelligent roll bending model with adaptive function which ismade up of analytical mathematical model and neural network. The neuralnetwork model makes the impact of historical data and standard samples to thesystem imported into the model to improve the accuracy of the model and ability to adapt. After many experience, it designs the learning function, the transferfunction, the training function, and the number of neurons in the hidden layer ofneural network to make it own fast learning speed, high accuracy andgeneralization.
(3) The application of the adaptive model of bending value. Using thedatabase technology, OPC technology, the industrial field-bus technologycombines the adaptive model of bending value with the monitoring system ofstraightening machine and the basic automation system, so that build acomplete process system of straightening machine. The system commands theleveler monitoring system to control the PLC by OPC, and then the PLCcontrols the roller and operate the bending rollers to improve the plate. Thesystem is applied in the control system of the large third-generation fullhydraulic plate straightening machine.
引文
[1]崔甫矫直原理与矫直机械[M].北京:冶金工业出版社,2004
[2]郭同铀韶钢全液压九辊热矫直机的结构和技术特点[J].宽厚板,2007,13(2):46-47
[3]李伟矫直机在中厚板工程中的设置和应用[J].2010,27(5):37-38
[4]齐滨宽厚板热矫直机中矫直模型的应用[J].2010,29(11):114-115
[5]鲁延桂沙钢2#5m宽厚板生产线的热矫直工艺[J].装备制造技术,2008,(5):84-86
[6]刘建永中厚板矫直机弯辊装置结构分析[J].山西冶金,2009,(1):1-3
[7] MatsuoA Curvature Behavior of Plates in Roller leveling Process[J],CAMP_ISIJ,2008,21(2):997
[8]郭同铀韶钢全液压九辊热矫直机的结构和技术特点[J].宽厚板,2007,13(2):47-48
[9]倪献娟2011年钢铁行业回顾及2012年展望[J].中国废钢铁,2011,(10):5-8.
[10]吴溪淳关于当前形势和研究“十二五”钢铁行业发展问题的思考[J].中国废钢铁,2010,(10):4-6
[11]形势政策国务院审议并通过汽车、钢铁产业调整振兴规划[J].气体分离,2009,(1):3-4.
[12]闫启平世界金融危机对中国废钢铁市场的影响及后市展望[J].2009,(2):29-30
[13]李国军中国钢铁企业发展现状、问题及对策研究[J].战略与研究,2010,(3):9-10
[14] S Kumar.Removal of shape during roller levelling[J].Minerals&Metals Review,2001,XXVII(7):36-41.
[15]田莉我国中厚板生产状况及发展趋势[J].中国钢铁业,2007,(4):15-18.
[16]王国栋我国中厚板生产技术进步20年[J].轧钢,2004,21(6):5-9.
[17]俞慧宝钢5m宽厚板热矫直机新工艺[J].宽厚板,2005,11(3):38-39
[18]胡高举宽厚板热矫直机技术研究[J].冶金设备,2005,(6):14-15
[19] NIE Yi960MPa Grade High Performance Weldable Structural Steel Plate Processedby_Using TMCP[J], Journal Of Iron And Steel Research,2010,17(2):63-66
[20]曾曦论“TMCP技术”在轧钢生产中的意义作用[J].理论与研究,2011(7):37-38
[21] Wang ZG, Wang H,Li Y R. Method for calculating the intermesh of straightenerand its influence on straingtening quality[J]. Journal of Wuhan Universityof Science and Technology,2009,32(4):347-350.
[22]张春林中厚板矫直机模拟及工艺优化[D].武汉科技大学,2010
[23]谢霄鹏2050热轧精整厚板矫直机控制模型实现关键技术研究[D].上海交通大学,2008
[24]王效岗十五辊组合矫直机关键技术及理论模型的研究[D].兰州理工大学,2008
[25]周存龙中厚板热矫直机压下模型[J].钢铁研究学报,2006,18(8):28-29
[26]周存龙中厚板辊式热矫直过程数学模型与数组模拟[D].沈阳:东北大学,2006
[27]崔丽中厚板辊式矫直过程弯辊作用分析[J].2012,24(2):8-10.
[28]时党勇ANSYS LS-DYNA8.1进行显示动力分析[M],北京:清华大学出版社,2005
[29]徐丽娜神经网络控制(第三版)[M].北京:电子工业出版社,2009
[30]王文军基于神经网络的自适应控制系统研究综述[J].计算机仿真,2005,22(8):132
[31]廖晓峰神经网络研究的发展趋势[R].成都:电子科技大学,2006
[32] Liu Sheng Lifting coefi cient prediction of flap rudder using BP neural network[J].Journal of Harbin Engineering University,2006,(27):83-87
[33]飞思科技产品研发中心神经网络理论与MATLAB7实现[M].北京:电子工业出版社,2005
[34]郑阿奇Oracle使用教程[M].北京:电子工业出版社2007
[35]金艳基于Visual Basic访问Oracle数据库方法的改进[J].2011,(5):5-6
[36]张学义基于Oracle数据库SQL查询优化研究[J].制造业自动化,2010,(11):116-117
[37]于洋COM组件在实现VB调用MATLAB中的应用[J].计算机工程与科学,2008,5(30):110-111
[38]张志涌精通MATLAB6.5[M].北京:北京航空航天出版设,2007
[39]谭炎MATLAB与VB混合编程技术研究[J].微计算机信息,2006,22(5):248-249.
[40]周竹生VB实现对MATLAB程序的调用[J].电脑开发与应用,2004,17(5):21-23.
[41]李永松基于VB与MATLAB的BP神经网络在地应力场分析中的应用[J].长江科学院学报,2009,26(6):24-25.
[42]苏磊OPC数据方位客户端的研究与实现[J].计算机工程,2010,36(11):80-81.
[43]刘国平基于OPC服务器自动化接口的客户端程序的设计[J].自动化技术与应用,2005,24(9):33-34.
[44]黄珍OPC技术及其在工程船舶实时监控系统中的应用[J].船电技术,2006,(3):43-44
[45]郭建明基于VB的OPC客户端程序设计与应用[J].湖南工业大学报,2007,21(6):83-84.
[46]王续彪基于VB的OPC客户端软件的设计与实现[J].自动化与仪表,2011,(2):46-47
[47]任巍曦基于VB的OPC服务器的设计与实现[J].电力科学与工程,2010,26(11):47-48
[48]郭建明基于VB的OPC客户程序设计与应用[J].湖南工业大学学报,2007,21(6):83-85
[49]肖俊OPC客户端订阅式数据采集的实现和研究[J].工业控制计算机,2011,24(8):69-69
[2]郭同铀韶钢全液压九辊热矫直机的结构和技术特点[J].宽厚板,2007,13(2):46-47
[3]李伟矫直机在中厚板工程中的设置和应用[J].2010,27(5):37-38
[4]齐滨宽厚板热矫直机中矫直模型的应用[J].2010,29(11):114-115
[5]鲁延桂沙钢2#5m宽厚板生产线的热矫直工艺[J].装备制造技术,2008,(5):84-86
[6]刘建永中厚板矫直机弯辊装置结构分析[J].山西冶金,2009,(1):1-3
[7] MatsuoA Curvature Behavior of Plates in Roller leveling Process[J],CAMP_ISIJ,2008,21(2):997
[8]郭同铀韶钢全液压九辊热矫直机的结构和技术特点[J].宽厚板,2007,13(2):47-48
[9]倪献娟2011年钢铁行业回顾及2012年展望[J].中国废钢铁,2011,(10):5-8.
[10]吴溪淳关于当前形势和研究“十二五”钢铁行业发展问题的思考[J].中国废钢铁,2010,(10):4-6
[11]形势政策国务院审议并通过汽车、钢铁产业调整振兴规划[J].气体分离,2009,(1):3-4.
[12]闫启平世界金融危机对中国废钢铁市场的影响及后市展望[J].2009,(2):29-30
[13]李国军中国钢铁企业发展现状、问题及对策研究[J].战略与研究,2010,(3):9-10
[14] S Kumar.Removal of shape during roller levelling[J].Minerals&Metals Review,2001,XXVII(7):36-41.
[15]田莉我国中厚板生产状况及发展趋势[J].中国钢铁业,2007,(4):15-18.
[16]王国栋我国中厚板生产技术进步20年[J].轧钢,2004,21(6):5-9.
[17]俞慧宝钢5m宽厚板热矫直机新工艺[J].宽厚板,2005,11(3):38-39
[18]胡高举宽厚板热矫直机技术研究[J].冶金设备,2005,(6):14-15
[19] NIE Yi960MPa Grade High Performance Weldable Structural Steel Plate Processedby_Using TMCP[J], Journal Of Iron And Steel Research,2010,17(2):63-66
[20]曾曦论“TMCP技术”在轧钢生产中的意义作用[J].理论与研究,2011(7):37-38
[21] Wang ZG, Wang H,Li Y R. Method for calculating the intermesh of straightenerand its influence on straingtening quality[J]. Journal of Wuhan Universityof Science and Technology,2009,32(4):347-350.
[22]张春林中厚板矫直机模拟及工艺优化[D].武汉科技大学,2010
[23]谢霄鹏2050热轧精整厚板矫直机控制模型实现关键技术研究[D].上海交通大学,2008
[24]王效岗十五辊组合矫直机关键技术及理论模型的研究[D].兰州理工大学,2008
[25]周存龙中厚板热矫直机压下模型[J].钢铁研究学报,2006,18(8):28-29
[26]周存龙中厚板辊式热矫直过程数学模型与数组模拟[D].沈阳:东北大学,2006
[27]崔丽中厚板辊式矫直过程弯辊作用分析[J].2012,24(2):8-10.
[28]时党勇ANSYS LS-DYNA8.1进行显示动力分析[M],北京:清华大学出版社,2005
[29]徐丽娜神经网络控制(第三版)[M].北京:电子工业出版社,2009
[30]王文军基于神经网络的自适应控制系统研究综述[J].计算机仿真,2005,22(8):132
[31]廖晓峰神经网络研究的发展趋势[R].成都:电子科技大学,2006
[32] Liu Sheng Lifting coefi cient prediction of flap rudder using BP neural network[J].Journal of Harbin Engineering University,2006,(27):83-87
[33]飞思科技产品研发中心神经网络理论与MATLAB7实现[M].北京:电子工业出版社,2005
[34]郑阿奇Oracle使用教程[M].北京:电子工业出版社2007
[35]金艳基于Visual Basic访问Oracle数据库方法的改进[J].2011,(5):5-6
[36]张学义基于Oracle数据库SQL查询优化研究[J].制造业自动化,2010,(11):116-117
[37]于洋COM组件在实现VB调用MATLAB中的应用[J].计算机工程与科学,2008,5(30):110-111
[38]张志涌精通MATLAB6.5[M].北京:北京航空航天出版设,2007
[39]谭炎MATLAB与VB混合编程技术研究[J].微计算机信息,2006,22(5):248-249.
[40]周竹生VB实现对MATLAB程序的调用[J].电脑开发与应用,2004,17(5):21-23.
[41]李永松基于VB与MATLAB的BP神经网络在地应力场分析中的应用[J].长江科学院学报,2009,26(6):24-25.
[42]苏磊OPC数据方位客户端的研究与实现[J].计算机工程,2010,36(11):80-81.
[43]刘国平基于OPC服务器自动化接口的客户端程序的设计[J].自动化技术与应用,2005,24(9):33-34.
[44]黄珍OPC技术及其在工程船舶实时监控系统中的应用[J].船电技术,2006,(3):43-44
[45]郭建明基于VB的OPC客户端程序设计与应用[J].湖南工业大学报,2007,21(6):83-84.
[46]王续彪基于VB的OPC客户端软件的设计与实现[J].自动化与仪表,2011,(2):46-47
[47]任巍曦基于VB的OPC服务器的设计与实现[J].电力科学与工程,2010,26(11):47-48
[48]郭建明基于VB的OPC客户程序设计与应用[J].湖南工业大学学报,2007,21(6):83-85
[49]肖俊OPC客户端订阅式数据采集的实现和研究[J].工业控制计算机,2011,24(8):69-69