摘要
特钢轧机在运行过程中常因机电系统耦合作用引发振动,严重影响设备稳定性和产品质量。针对这一问题,本文提出了一种基于机电耦合机理的振动抑制策略,通过分析机电系统的动态特性,建立耦合模型,识别振动产生的关键因素。采用先进控制算法,实现对机电耦合振动的有效抑制。仿真与实验结果表明,该策略能显著降低轧机振动幅度,提高运行平稳性和生产效率。研究为特钢轧机振动控制提供了理论依据和技术支持。
关键词: 机电耦合;特钢轧机;振动抑制;动态模型;控制策略
Abstract
During operation, special steel rolling mills often experience vibrations caused by the coupling effect of electromechanical systems, which seriously affect equipment stability and product quality. To address this issue, this paper proposes a vibration suppression strategy based on the mechanism of electromechanical coupling. By analyzing the dynamic characteristics of the electromechanical system, a coupling model is established to identify the key factors causing vibrations. Advanced control algorithms are adopted to achieve effective suppression of electromechanical coupling vibrations. Simulation and experimental results show that this strategy can significantly reduce the vibration amplitude of rolling mills, improve operational stability, and enhance production efficiency. The research provides a theoretical basis and technical support for vibration control in special steel rolling mills.
Key words: Electromechanical coupling; Special steel rolling mill; Vibration suppression; Dynamic model; Control strategy
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