文章摘要
轮胎直压硫化金属内模具中鼓瓦电磁加热的温度控制器设计
Design of temperature controller for electromagnetic heating of drum shell in internal mold of tire direct vulcanization metal
投稿时间:2023-04-11  修订日期:2023-04-11
DOI:10.12136/j.issn.1000-890X.2025.04.0301
中文关键词: 直压硫化内模具  电磁线圈  电磁感应加热  温度控制  模糊PID控制  有限元分析
英文关键词: direct pressure vulcanization  electromagnetic coil  electromagnetic induction heating  temperature control  fuzzy PID control  finite element analysis
基金项目:中央高校基本科研业务费基地创新项目(JD2317)
作者单位E-mail
孙艳梅 北京化工大学?机电工程学院轮胎设计与制造工艺国家工程实验室 2020200597@mail.buct.edu.cn 
谭晶 北京化工大学?机电工程学院轮胎设计与制造工艺国家工程实验室  
焦志伟 北京化工大学?机电工程学院轮胎设计与制造工艺国家工程实验室  
阎华 北京化工大学?机电工程学院轮胎设计与制造工艺国家工程实验室  
丁玉梅 北京化工大学?机电工程学院轮胎设计与制造工艺国家工程实验室  
陈浩 北京化工大学?机电工程学院轮胎设计与制造工艺国家工程实验室  
杨卫民* 北京化工大学?机电工程学院轮胎设计与制造工艺国家工程实验室 yangwm@mail.buct.edu.cn 
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中文摘要:
      为提升轮胎直压硫化金属内模具电磁感应加热的温度控制精度,提高轮胎硫化质量,以多点位电磁线圈-鼓瓦模型为研究对象进行建模和有限元分析,确定了鼓瓦温度与电磁线圈的交流电电流强度之间的数学模型;在此基础上,建立了电磁线圈-鼓瓦模型的温度比例-积分-微分(PID)控制系统,并引入模糊算法进行优化。仿真结果表明,与PID控制相比,模糊PID控制温度曲线的上升时间缩短68.39%,调节时间缩短32.27%,超调量从0.097减小至0.009,减小90.72%,即引入模糊控制策略优化PID控制缩短了温度控制系统的响应时间和调节时间,减小了超调量,降低了鼓瓦温差,有效提高了鼓瓦加热时的温度控制精度。本研究可为轮胎直压硫化金属内模具电磁感应加热的温度控制技术提供有价值的参考。
英文摘要:
      In order to improve the temperature control precision of the metal inner mold of the tire direct vulcanization during electromagnetic induction heating and the quality of tire vulcanization,the multi-point electromagnetic coil-drum tile model was used as the research object for modeling and finite element analysis,and the mathematical model between the drum tile temperature and the AC current strength of the electromagnetic coil was determined.On this basis,the proportional-integral-derivative(PID) control system of the temperature of the electromagnetic coil-drum tile model was established and the fuzzy algorithm was introduced for optimization.The simulation results showed that compared with PID control,the rise time of the temperature curve of the fuzzy PID control was shortened by 68.39%,the adjustment time was shortened by 32.27%,and the overshoot was reduced from 0.097 to 0.009,which was reduced by 90.72%.Therefore,the introduction of the fuzzy control strategy to optimize the PID control shorted the response time and adjustment time of the temperature control system,decreased the overshoot,reduced the heating temperature difference of the drum tile and effectively improved the temperature control accuracy during the drum tile heating.This research could provide valuable reference for the temperature control technology of the electromagnetic induction heating for the metal internal mold of the tire direct vulcanization.
Author NameAffiliationE-mail
SUN Yanmei Beijing University of Chemical TechnologyNational Engineering Laboratory of Tire Design and Manufacturing Technology 2020200597@mail.buct.edu.cn 
TAN Jing Beijing University of Chemical TechnologyNational Engineering Laboratory of Tire Design and Manufacturing Technology  
JIAO Zhiwei Beijing University of Chemical TechnologyNational Engineering Laboratory of Tire Design and Manufacturing Technology  
YAN Hua   
DING Yumei Beijing University of Chemical TechnologyNational Engineering Laboratory of Tire Design and Manufacturing Technology  
CHEN Hao Beijing University of Chemical TechnologyNational Engineering Laboratory of Tire Design and Manufacturing Technology  
YANG Weimin Beijing University of Chemical TechnologyNational Engineering Laboratory of Tire Design and Manufacturing Technology yangwm@mail.buct.edu.cn 
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