基于碳纳米的水性上光机干燥系统控制与仿真  

Control and Simulation of Drying System of Waterborne Coating Machine Based on Carbon Nano

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作  者:靳露 张明鸣 李晋尧 李海超 JIN Lu;ZHANG Ming-ming;LI Jin-yao;LI Hai-chao(Beijing Institute of Graphic Communication,Beijing 102600,China)

机构地区:[1]北京印刷学院机电工程学院,北京102600

出  处:《绿色包装》2021年第9期30-33,共4页Green Packaging

基  金:北京印刷学院基础研究重点项目(基于纳米碳的绿色印刷干燥设备关键技术研究Ea202003)。

摘  要:为了进一步提高水性上光机的效率,降低其能耗,进行水性上光机干燥系统的控制与仿真。对常规PID控制算法和模糊PID控制算法进行分析与比较,搭建Simulink下的模糊控制系统并且进行控制器的结构设计与仿真,比较常规PID与模糊PID两者的仿真曲线得出,使用模糊PID控制器的系统稳定性高于常规PID控制器,且稳态时间小于常规PID控制算法的稳态时间。模糊PID控制算法,可以解决超调量与快速性矛盾问题,优于常规PID控制算法,是水性上光机干燥系统的更好选择。In order to further improve the efficiency of the water-based glazing machine and reduce its energy consumption,the control and simulation of the drying system of the water-based glazing machine are carried out.The conventional PID control algorithm and the fuzzy PID control algorithm are analyzed and compared,the fuzzy control system under Simulink is built,and the controller structure design and simulation are carried out.The simulation curves of the conventional PID and the fuzzy PID are compared.The system stability of the fuzzy PID controller is higher than that of the conventional PID controller,and the steady-state time is less than that of the conventional PID control algorithm.Fuzzy PID control algorithm can solve the contradiction between overshoot and rapidity.It is better than conventional PID control algorithm and is a better choice for water-based coating machine drying system.

关 键 词:水性上光机 PID 模糊PID MATLAB仿真 

分 类 号:TS801.9[轻工技术与工程]

 

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