三辊导向装置连杆机构的仿真优化设计
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摘要
为进一步完善三辊导向装置连杆机构的设计方法,在综合考虑设备的工艺要求、使用条件以及机构的传动性能的基础上,建立了多目标函数优化设计的数学模型。采用虚拟样机技术,利用ADAMS对完全参数化的机构模型进行了仿真优化以确定具有最优性能的设计参数。仿真结果表明,在给定的约束条件下,机构的综合工作性能得到显著改善。
In order to improve the method to design the linkage mechanism of three-roller guiding device installed at the exit of piercing mill,the mathematical model of the multi objective optimal design is established based on comprehensive consideration of the technical requirement,the operation condition and the transmission performance of the mechanism.The fully parameterized virtual prototyping model of mechanism is optimized by simulation to determine the design parameter in the ADAMS environment.Under the given constraints,the simulation results show that the comprehensive performance of the mechanism is significantly improved.
In order to improve the method to design the linkage mechanism of three-roller guiding device installed at the exit of piercing mill,the mathematical model of the multi objective optimal design is established based on comprehensive consideration of the technical requirement,the operation condition and the transmission performance of the mechanism.The fully parameterized virtual prototyping model of mechanism is optimized by simulation to determine the design parameter in the ADAMS environment.Under the given constraints,the simulation results show that the comprehensive performance of the mechanism is significantly improved.
引文
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[2]Heinz H.Bar feeding mechanism for machines for working rotating bar stock:U S,4295396[P].1981-10-20.
[3]赵桂珍.三辊抱芯机构数学模型的建立[J].包钢科技,2004,30(1):55-58.
[4]李莉,龙沾明.新型三辊抱芯装置的机构设计[J].钢管,2007,36(5):27-30.
[5]莫辉强.基于Matlab的三辊抱芯装置杆件参数设计[J].冶金设备,2011(4):11-13.
[6]邢预恩,张根保.Pro/Engineer在三辊导向装置运动系统的应用研究[J].制造业自动化,2011,33(22):54-56.
[7]万本振,王爱国.不等臂式三辊抱芯装置优化设计浅析[C]//中国金属学会轧钢学会钢管学术委员会六届二次年会论文集.北京:中国金属学会,2012:351-355.
[8]万本振,王创民.一种三辊抱芯装置:中国,CN102601117B[P].2014-06-18.
[9]陈华,韩建元,万本振.简析等臂式三辊抱芯装置的设计[J].钢管,2013,42(2):79-82.
[10]杨德照,程波,李亚凡,等.一种连杆机构定心辊装置的设计计算方法[J].钢管,2007,40(4):41-43.
[11]张艳如.新型三辊抱芯机构数学模型的建立[J].科技创新与生产力,2013(5):79-81.
[12]刘二龙.基于PLC的三辊抱芯机构数学模型的建立[J].山西冶金,2011(5):20-22.
[13]高忠江.一种三辊导向装置的标定方法:中国,CN101664763[P].2010-03-10.
[14]隋泉.基于PLC的液压伺服比例阀在无缝钢管生产过程中的应用[J].可编程控制器与工厂自动化(PLC&FA),2007(5):61-63.
[15]侯帅.三辊定心装置的定位调整及控制[J].轧钢,2013,30(5):29-30.
[16]Homer D.Eckhardt.Kinematic Design of Machines and Mechanisms[M].New York:McGraw-Hill Companies Inc,1998:135.
[17]陈立周,俞必强.机械优化设计方法[M].4版.北京:冶金工业出版社,2014.
[18]MSC,Software.MSC.ADAMS/View高级培训教程[M].邢俊文,陶永忠,译.北京:清华大学出版社,2004:105-106.