伺服阀动态特性对冷轧机耦合振动的影响研究

IF 1.9 4区 工程技术 Q2 Engineering
Yujie Liu, Shen Wang, Jiebin Qi, Xuewei Wang, Xiaoqiang Yan
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引用次数: 0

摘要

冷轧机是复杂的电气-水力-机械系统,在生产过程中通常会检测到振动问题。本次研究发现,在生产过程中,轧机顶部和伺服阀后压力处出现频率为 80Hz 的振动。为了了解振动机理并探索抑制振动的测量方法,根据伺服阀的动态特性,提出了描述阀芯、8-DOF 冷轧机和液压系统的动态模型。得出了不同工况下阀芯位移和输出流量的振动规律的解析解和数值解。此外,还讨论了伺服阀动态特性对振动的影响以及伺服阀的优化问题。结果表明,伺服阀的动态特性对轧机的水力机械耦合振动有显著影响,可以通过改善轧机的动态特性来抑制振动。这项工作有望为抑制水力机械耦合振动提供一个新的视角。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Study on the Influence of Dynamic Characteristics of Servo Valve on Coupling Vibration of Cold Rolling Mill

Study on the Influence of Dynamic Characteristics of Servo Valve on Coupling Vibration of Cold Rolling Mill

The cold rolling mills are complex electro-hydro-mechanical systems in which vibrations are usually detected as issues during production process. In the present work, the vibrations with frequencies of 80Hz were found at top of the rolling mill and the pressure behind servo valve during the production process. In order to understand the vibration mechanism and to explore the measurements for vibration suppression, the dynamic models were proposed to describe valve spool, 8-DOF cold rolling mill, and hydraulic system based on the dynamic characteristics of servo-valve. The analytical solutions and numerical solutions were obtained for the vibration rules for the valve spool displacement and the output flow rate under different working conditions. Moreover, the influence of dynamic characteristics of servo-valve on the vibrations and optimization of the servo-valve were discussed. The results suggest that the dynamic characteristics of servo-valve have a significant influence on the hydro-mechanical coupled vibration of rolling mill and the vibrations can be dampened by improving the dynamic characteristics of rolling mill. This work is expected to provide a new perspective to suppress the hydro-mechanical coupled vibrations.

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来源期刊
CiteScore
4.10
自引率
10.50%
发文量
115
审稿时长
3-6 weeks
期刊介绍: The International Journal of Precision Engineering and Manufacturing accepts original contributions on all aspects of precision engineering and manufacturing. The journal specific focus areas include, but are not limited to: - Precision Machining Processes - Manufacturing Systems - Robotics and Automation - Machine Tools - Design and Materials - Biomechanical Engineering - Nano/Micro Technology - Rapid Prototyping and Manufacturing - Measurements and Control Surveys and reviews will also be planned in consultation with the Editorial Board.
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