Mechanical and Control System Analysis of a Tandem Cold Mill to Solve a Torsional Drive System Problem

1989 American Control Conference Pub Date : 1989-06-21 DOI:10.1109/ACC.1989.4173606

K. Kaiser, G. Nessler

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Abstract

Flat rolled steel strip is reduced to its final thickness in a tandem cold mill. This mill consists of a series of close coupled rolling stands. In order to maximize strip quality it is necessary to have precise and quick response mill drives. During a modernization study of an existing mill it was discovered that the mill had a low torsional resonance that would be excited by improved, fast drives. This paper summarizes the steps taken to analyze and understand this problem. These steps included measuring the torsional resonance frequencies on the mill, modeling the mechanical and electrical systems and tuning the models. The measured resonance frequencies were found to vary with operating variables. A finite element model of the mechanical system was developed and tuned. Studies with this model showed that changes in the mechanical system to increase the frequencies by increasing stiffness were not practical. A model of the control and drive system was developed and tuned. The model was used to determine the effectiveness of applying analog filters in the control system to reduce the excitation of the resonant frequency.

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解决扭传动问题的冷连轧机机械及控制系统分析

扁轧带钢在冷连轧机中被压缩到最终厚度。这台轧机由一系列紧密相连的轧机架组成。为了最大限度地提高带钢质量，有必要有精确和快速响应轧机驱动。在对现有磨机的现代化研究中，发现磨机有一个低扭共振，可以通过改进的快速驱动器来激发。本文总结了分析和理解这个问题所采取的步骤。这些步骤包括测量磨机的扭振频率，对机械和电气系统进行建模，并对模型进行调整。所测得的共振频率随操作变量而变化。建立并调整了机械系统的有限元模型。利用该模型进行的研究表明，改变机械系统通过增加刚度来增加频率是不现实的。建立了控制和驱动系统的模型并进行了调整。该模型用于确定在控制系统中应用模拟滤波器以降低谐振频率激励的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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1989 American Control Conference

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