【作者】 闻治梁；

【导师】 肖建；

【作者基本信息】 西南交通大学 ， 电力电子及电力传动， 2007， 硕士

【摘要】 现代化冷连轧生产的特点就是轧制速度的大幅度提升。在高速轧轧制的过程中，连轧机组的动态响应分析与控制相当重要，而动态控制的好坏很大程度上依赖于反映连轧动态过程的动态模型。本文结合思创电气工程有限公司“冷连轧机过程控制及其优化控制算法研究”科研项目，对冷连轧机动态模型及其控制算法进行了研究。冷连轧机的自动控制是一种复杂的机-电-工艺的综合控制系统，变量较多，彼此相互影响、相互制约。而各机架参数又通过带钢，特别是张力相互联系起来。因此，一旦在某个机架上出现了调节量或干扰量的变化，不仅破坏了该机架的稳态，而且也会通过机架间的张力的变化传递给各个机架，从而使整个连轧机组的稳态遭到破坏，严重影响连轧机组的生产产量和生产质量。因此，基于改善连轧机组过程控制系统的复杂性，消除机架间的耦合作用，提高连轧机组轧制过程的稳定性，本文对相邻机架间的解耦控制进行了深入的研究，并针对冷连轧过程中的重复性，提出了一种迭代学习控制算法。本文首先简述了带钢冷连轧计算机控制的发展现状，概述了迭代学习控制理论及其在国内外的应用现状。其次简述了冷连轧过程控制系统的组成，详细分析了ATC系统、AGC系统及AFC系统的基本结构和控制原理。然后给出了冷连轧轧制过程的基本参数和基本方程，在此基础上建立了冷连轧机基于稳态工作点的线性化动态模型，说明了相邻机架间各状态变量的耦合作用。以三连轧模型为控制对象，设计了最优解耦控制器，仿真结果从理论试验的角度验证了此方法的有效性。最后针对冷连轧过程的重复性、不确定性和高实时性，提出了一种迭代学习控制算法，并证明了此算法的收敛性，为迭代学习在轧钢领域的应用提供了一定的理论保证，同时也为迭代学习控制理论应用于实际工程进行了一次尝试。更多还原

【Abstract】 High-speed rolling is one of the most important characteristics of modern cold tandem rolling mill.When the rolling mill runs fast, the dynamic response and the control of rolling mill are very important, and the result of dynamic control depends on the dynamic model which reflects the dynamic process of tandem rolling mill.Based on Strong Electrical Engineering Co. LTD. practical project, which is the "rolling process control system and optimization algorithm of cold tandem rolling mill control".This studay aims to investigate the dynamic model of rolling process and the control algorithm.The autocontrol systems of tandem rolling mill are nonlinear, strong coupled complex systems with many variables.Every stand contact each other via a steel strip, especially with the tension.Hence, once the regulated variable or the disturbance of one stand varies, the stable rolling process of this stand will be destroyed, and the stable rolling process of other stands will also be destroyed via the variety of tension,so as to destroy stability of the whole rolling system.The yield and quality of rolling mills will be influenced seriously. In order to improve complexity of rolling process control system, to eliminate the interference between abutting stands, and also to improve the stability of the rolling process, this studay presents a optimal decoupling algorithm.Take the repetitive property of rolling process into account, an algorithm of ILC(Iterative Learning Control) of cold tandem rolling mill is proposed.First, the computer control technique of cold tandem rolling mill is summarized, and the principle of ILC and the applied actuality of ILC domestic and oversea are introduced. Secondly, the components of cold tandem rolling process control system are introduced.This studay also analyzes the frame and the control theory of ATC(Automatic Tension Control) system, AGC(Automatic Gauge Control) system and AFC(Automatic Form Control) system particularly. Thirdly, the basic parameters and equations of rolling process are presented.A linearized dynamic model which illustrates the interference between abutting stands is presented. For instance the linearized dynamic models of cold tandem rolling mill with three stands, an optimal decoupling controller has been designed in this note, and the simulation result shows the effectiveness and correctness of the proposed approach.Considering the high real time property, repetitive property and uncertainty of cold tandem rolling process ,an algorithm of ILC is presented.This studay also proves the convergence of this algorithm.These provide theory basis for using ILC theory in cold tandem rolling process control. At the same time, this is a sample of using ILC theory in practical industrial systems.更多还原