基于雷达波检测方法的处理线纠偏系统改进  

作　　者：刘刚[1] LIU Gang(Cold Mill Plant,Baoshan Iron&Steel Co.,Ltd.,Shanghai 200941,China)

机构地区：[1]宝钢股份冷轧厂,上海200941

出　　处：《自动化仪表》2023年第9期17-20,26,共5页Process Automation Instrumentation

摘　　要：针对冷轧处理线纠偏系统中的检测方法因光源、传感器等方面的众多故障导致机组不能正常运转的问题,为了确保冷轧处理线的稳定运行,通过系统性的对比分析,提出基于雷达波检测的冷轧处理线纠偏系统。该系统采用雷达波检测这种非接触式的检测方法。该方法不受炉内气氛影响且没有消耗品,对于高温退火炉尤为重要,可以提高炉内运行的稳定性。通过对多种检测方式进行对比分析,相较于传统检测方法,采用雷达波检测方法的纠偏系统在运行稳定、维护方便、节约成本等方面有着巨大优势。系统的改进提升了设备性能和控制稳定性,达到了便于维护的目的,为机组的稳定运行提供了保障。雷达波检测形式的纠偏系统的引入,对今后生产线纠偏技术性能的提升有一定的借鉴意义。Aiming at the problem that the detection method in the deviation correction system of cold rolling processing line cannot operate normally due to the many failures of light sources and sensors, to ensure the stable operation of the cold rolling processing line, a radar wave detection-based deviation correction system for cold rolling processing line is proposed through systematic comparative analysis. The system adopts the non-contact detection method of radar wave detection. This method is not affected by the furnace atmosphere and has no consumables, which is especially important for high-temperature annealing furnaces to improve the stability of furnace operation. By comparing and analyzing various detection methods, the deviation correction system using radar wave detection has great advantages in terms of stable operation, convenient maintenance and cost saving compared with the traditional detection methods. The improvement of the system enhances the performance and control stability of the equipment, achieves the purpose of convenient maintenance, and provides guarantee for the stable operation of the unit. The introduction of the deviation correction system in the form of radar wave detection has certain reference significance for the improvement of the technical performance of production line deviation correction in the future.

关 键 词：纠偏系统 退火炉 处理线 中心位置控制器 雷达波 带钢稳定性 检测光源 

分 类 号：TH868[机械工程—仪器科学与技术]