基于虚拟样机技术的某机动型雷达天线结构设计
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摘要
天线作为辐射和接收雷达电磁波的主体,具有相当高的阵面精度、刚度和强度,是雷达系统的重要组成部分。机动型雷达有限的空间和重量指标使雷达天线的刚度指标与空间尺寸、刚度指标与重量指标这些固有矛盾进一步加剧。雷达天线的结构设计成为机动型雷达设计和制造的关键。本文借助虚拟样机技术,结合结构分析理论,来实现某机动型平面阵列天线的主要结构设计指标,并且保证其结构的机械性能安全可靠。
文中主要基于ANSYS软件和ADAMS软件对天线结构及其相关结构进行仿真分析,主要工作可以分为两部分:第一部分,建立了雷达天线骨架结构和骨架支撑结构的仿真分析模型,利用ANSYS软件分别对模型进行有限元分析。其中,对天线骨架结构进行静力分析和运输状态下的动力分析,校核其刚度和强度,为设计过程中雷达天线的结构能否满足设计要求提供技术依据,而对骨架支撑结构则主要进行静力分析,以校核其强度能否满足雷达天线的工作安全。第二部分,建立了雷达天线液压举升机构的仿真分析模型,以液压油缸的四个安装支点位置为设计变量,以液压油缸的最大举升力为目标函数,应用ADAMS软件对液压举升机构进行试验设计仿真,为液压油缸安装支点位置的设计提供参考。
Antenna, the key component of the radar system, functions as the main part of transmitting and receiving radar electromagnetic wave. A rather highly surface precision and enough intensity and rigidity are required in the radar antenna, but the limited space and the weight target sharpen the initial contradictions acutely among the space, the rigidity and the weight. Moreover, the flexibility of the mobile radar accumulates these paradoxes. By means of the newly emerging Virtual Prototyping Technology and the theory of structural analysis, the structure of the planar antenna array of a mobile radar should be designed to meet the requirements.
With ANSYS software and ADAMS software, the simulation and analysis is introduced in the paper, discussing about the antenna structure and the related structure of the antenna. The study work of the paper involves mainly the following two sections: firstly, the simulation analysis model of the frame structure of the radar antenna and the support structure of the antenna frame structure are built up, and the finite element analysis will be performed respectively with ANSYS software. As for the simulation analysis model of the frame structure of the radar antenna, static analysis and model analysis in the transport state are conducted to check if the intensity and the rigidity satisfy the design indexes. However, it is essential for the safety check to perform static analysis on the simulation analysis model of the support structure of the antenna frame structure. Secondly, the simulation analysis model of the hydraulic lifting mechanism of radar antenna is built to carry on the dynamic analysis with ADAMS software, then taking the hinge points of the hydraulic cylinder as design variables, the maximum lift force as an objective, the design of experiments is processed by ADAMS software.
文中主要基于ANSYS软件和ADAMS软件对天线结构及其相关结构进行仿真分析,主要工作可以分为两部分:第一部分,建立了雷达天线骨架结构和骨架支撑结构的仿真分析模型,利用ANSYS软件分别对模型进行有限元分析。其中,对天线骨架结构进行静力分析和运输状态下的动力分析,校核其刚度和强度,为设计过程中雷达天线的结构能否满足设计要求提供技术依据,而对骨架支撑结构则主要进行静力分析,以校核其强度能否满足雷达天线的工作安全。第二部分,建立了雷达天线液压举升机构的仿真分析模型,以液压油缸的四个安装支点位置为设计变量,以液压油缸的最大举升力为目标函数,应用ADAMS软件对液压举升机构进行试验设计仿真,为液压油缸安装支点位置的设计提供参考。
Antenna, the key component of the radar system, functions as the main part of transmitting and receiving radar electromagnetic wave. A rather highly surface precision and enough intensity and rigidity are required in the radar antenna, but the limited space and the weight target sharpen the initial contradictions acutely among the space, the rigidity and the weight. Moreover, the flexibility of the mobile radar accumulates these paradoxes. By means of the newly emerging Virtual Prototyping Technology and the theory of structural analysis, the structure of the planar antenna array of a mobile radar should be designed to meet the requirements.
With ANSYS software and ADAMS software, the simulation and analysis is introduced in the paper, discussing about the antenna structure and the related structure of the antenna. The study work of the paper involves mainly the following two sections: firstly, the simulation analysis model of the frame structure of the radar antenna and the support structure of the antenna frame structure are built up, and the finite element analysis will be performed respectively with ANSYS software. As for the simulation analysis model of the frame structure of the radar antenna, static analysis and model analysis in the transport state are conducted to check if the intensity and the rigidity satisfy the design indexes. However, it is essential for the safety check to perform static analysis on the simulation analysis model of the support structure of the antenna frame structure. Secondly, the simulation analysis model of the hydraulic lifting mechanism of radar antenna is built to carry on the dynamic analysis with ADAMS software, then taking the hinge points of the hydraulic cylinder as design variables, the maximum lift force as an objective, the design of experiments is processed by ADAMS software.
引文
[1]张增太.机动式3D雷达结构总体设计探讨[LIl_电子机械工程,2004,20(5):11.13.
[2]张润逵.雷达结构与工艺[M].北京:电子工业出版社,2007.
[3]丁鹭飞,耿富录.雷达原理[M].西安:西安电子科技大学出版社,1997.
[4]宗伟.雷达天线加工技术研究.合肥:合肥工业大学硕士学位论文,2003.
[5]张雪芹,冯小明.波导缝隙相阵天线阵面平面度误差分析[J].火控雷达技术,2000,29(4):45 49.
[6]欧贺国.雷达阵列天线结构的有限元分析与实验研究.合肥:合肥工业大学硕士学位论文,2005.
[7]谭贵红.机动型雷达平面阵列天线的结构设计[LIl_现代电子,2001,(3):47-50.
[8]熊光楞,李伯虎,柴旭东.虚拟样机技术[J1.系统仿真学报,2001,13(1):114-117.
[9]席俊杰.虚拟样机技术的发展及应用[LIl_制造业自动化,2006,28(11):19-22.
[10]李丹,李印川.虚拟样机技术在制造业中的应用及研究现状[J]机械,2008,35(6):1-4.
[11]Wang G Gary.Definition clarification mad review- on virtualprototyping.Proceedings of the 2001 ASME Design Technical Conference andComputers in Engineering Conference,DETC2001/CIE-21265,Pittsburgh,Pennsylvania,200 1.
[12]李伯虎,柴旭东,熊光楞等.复杂产品虚拟样机工程的研究与初步实践[J]系统仿真学报,2002,14 f31:336--341.
[13]李瑞涛,方湄,张文明.虚拟样机技术的概念及应用[J].机电一体化,2000(5):17—19.
[14]陈立平,张云清,任卫群等.机械系统动力学分析及ADAMS应用教程[M].北京:清华大学出版社,2005.
[15]熊光愣,陈晓波,郭斌等.复杂产品设计的仿真现状与发展趋势[J].计算机集成制造系统,2002,8(9):673--677.
[16]Zhao Xiao-Qiong,Yaaag Xiao-Hong.ANSYS and 20 node brick solidelement[J].Joumal of YueyangNormalUniversity,2001,14(3):29—31.
[17]杨听广,王梅.一种低空三坐标雷达天线骨架结构设计[J].
[18]赵耀升.雷达阵列天线的结构设计与分析.长沙:国防科学技术大学硕士学位论文,2008.
[19]t勖成,邵敏.有限单元法基本原理和数值方法[M].北京:清华大学山版社,1997.
[20]蒋孝煜.有限元法基础[M].北京:清华大学出版杜,1992.
[21]段宝岩.天线结构分析、优化与测量[M].西安:西安电子科技大学出版社,1998.
[22]王真.单臂架起重机臂架结构变幅运动与动力数值仿真.武汉:武汉理工大学硕士学位论文,2003.
[23]周建兴.客车车身整体骨架强度与局部应力集中分析.武汉:武汉理工大学硕士学位论文,2004.
[24]孙军.车身结构分析及轻量化优化设计.镇江:江苏大学硕士学位论文,2004.
[25]Mario Di Paola.Digital Simulation of Wind Field Velocity.Journal of Wind Engineering and Industrial Aerodynamics,1998,4-8,(74-76):91-109.
[26]王之宏.风荷载的模拟研究[J].建筑结构学报,1994,15(1):44-52.
[27]张增太.风载荷在雷达天线结构设计中的考虑[J].现代电子,1997(4):58-61.
[28]张相庭.工程结构风载荷理论和抗风计算手册[M].上海:同济大学出版社,1990.
[29]叶尚辉.天线结构设计[M].西安:西北电讯工程学院出版社,1986.
[30]谢晶.某机动三坐标雷达天线的结构设计.南京:东南大学硕士学位论文,2006.
[31]惠增宏,高永卫,肖春生.矩形平面天线风载荷的实验研究[J].现代雷达,2006,28(3):63-65.
[32]袁士杰,吕哲勤.多刚体系统动力学[M].北京:北京理工大学出版社,1992.
[33]洪嘉振.计算多体系统动力学[M].北京:高等教育出版社。1999.
[34]郑建荣.ADAMS虚拟样机技术入门与提高[M].北京:机械工业出版社,2002.
[35]Tanizumi Kazuya,Yoshirmura Toshio,Hino Junichi.Modelling of dynamic behavior and control of truck cranes.Transaction of the Japan Society of Mechanical Engineers,1995(2):549-551.
[36]王国强,张进平,马若丁.虚拟样机技术及其在ADAMS上的实践[M].西安:西北工业大学出版社,2001.
[37]许平勇,曹鹏举.平行杆翻转举升机构及液压缸铰支点设计[J].起重运输机械,2008(5):23-25.
[38]曹鹏举,许平勇.一种雷达用车载液压升降机构的设计[J].起重运输机械,2009(10):24-27.
[39]李尊远.基于虚拟样机技术的悬架系统的建模仿真及优化.武汉:武汉理工大学硕士学位论文,2008.
[40]崔丹.液压挖掘机工作装置的建模与仿真分析.天津:河北工业大学硕士论文,2008.
[41]MSC.Software Corp.Using the ADAMS/View Function Builder.MSC.Software Corporation,USA,2003.
[42]MSC.Software Corp.Advanced ADAMS/View Training Guide.MSC.Software Corporation,USA,2003.
[43]ANSYS-CHINA Corp.ANSYS Workbench 11.0培训教程. ANSYS-CHINA Corp,China,2003.
[44]李兵,何正嘉,陈雪峰.ANSYS Workbench设计、仿真与优化[M].北京:清华大学出版社,2008.
[45]Sheldon Imaoka . Sheldon’s ANSYS.NET Tips and Tricks : Meshing in Workbench,2008.
[46]Eric Miller,Rod Scholl.Understanding DM:Parts and Bodies.The Focus,2006(47):1-3.
[47]Eric Miller.Understanding DM nfreeze.The Focus,2006(48):1-3.
[48]Eric Miller.What’s New in Workbench Meshing? .The Focus,2009(71):1-3. :Freeze and U
[49]李增刚.ADAMS入门详解与实例[M].北京:国防工业出版社,2006.
[2]张润逵.雷达结构与工艺[M].北京:电子工业出版社,2007.
[3]丁鹭飞,耿富录.雷达原理[M].西安:西安电子科技大学出版社,1997.
[4]宗伟.雷达天线加工技术研究.合肥:合肥工业大学硕士学位论文,2003.
[5]张雪芹,冯小明.波导缝隙相阵天线阵面平面度误差分析[J].火控雷达技术,2000,29(4):45 49.
[6]欧贺国.雷达阵列天线结构的有限元分析与实验研究.合肥:合肥工业大学硕士学位论文,2005.
[7]谭贵红.机动型雷达平面阵列天线的结构设计[LIl_现代电子,2001,(3):47-50.
[8]熊光楞,李伯虎,柴旭东.虚拟样机技术[J1.系统仿真学报,2001,13(1):114-117.
[9]席俊杰.虚拟样机技术的发展及应用[LIl_制造业自动化,2006,28(11):19-22.
[10]李丹,李印川.虚拟样机技术在制造业中的应用及研究现状[J]机械,2008,35(6):1-4.
[11]Wang G Gary.Definition clarification mad review- on virtualprototyping.Proceedings of the 2001 ASME Design Technical Conference andComputers in Engineering Conference,DETC2001/CIE-21265,Pittsburgh,Pennsylvania,200 1.
[12]李伯虎,柴旭东,熊光楞等.复杂产品虚拟样机工程的研究与初步实践[J]系统仿真学报,2002,14 f31:336--341.
[13]李瑞涛,方湄,张文明.虚拟样机技术的概念及应用[J].机电一体化,2000(5):17—19.
[14]陈立平,张云清,任卫群等.机械系统动力学分析及ADAMS应用教程[M].北京:清华大学出版社,2005.
[15]熊光愣,陈晓波,郭斌等.复杂产品设计的仿真现状与发展趋势[J].计算机集成制造系统,2002,8(9):673--677.
[16]Zhao Xiao-Qiong,Yaaag Xiao-Hong.ANSYS and 20 node brick solidelement[J].Joumal of YueyangNormalUniversity,2001,14(3):29—31.
[17]杨听广,王梅.一种低空三坐标雷达天线骨架结构设计[J].
[18]赵耀升.雷达阵列天线的结构设计与分析.长沙:国防科学技术大学硕士学位论文,2008.
[19]t勖成,邵敏.有限单元法基本原理和数值方法[M].北京:清华大学山版社,1997.
[20]蒋孝煜.有限元法基础[M].北京:清华大学出版杜,1992.
[21]段宝岩.天线结构分析、优化与测量[M].西安:西安电子科技大学出版社,1998.
[22]王真.单臂架起重机臂架结构变幅运动与动力数值仿真.武汉:武汉理工大学硕士学位论文,2003.
[23]周建兴.客车车身整体骨架强度与局部应力集中分析.武汉:武汉理工大学硕士学位论文,2004.
[24]孙军.车身结构分析及轻量化优化设计.镇江:江苏大学硕士学位论文,2004.
[25]Mario Di Paola.Digital Simulation of Wind Field Velocity.Journal of Wind Engineering and Industrial Aerodynamics,1998,4-8,(74-76):91-109.
[26]王之宏.风荷载的模拟研究[J].建筑结构学报,1994,15(1):44-52.
[27]张增太.风载荷在雷达天线结构设计中的考虑[J].现代电子,1997(4):58-61.
[28]张相庭.工程结构风载荷理论和抗风计算手册[M].上海:同济大学出版社,1990.
[29]叶尚辉.天线结构设计[M].西安:西北电讯工程学院出版社,1986.
[30]谢晶.某机动三坐标雷达天线的结构设计.南京:东南大学硕士学位论文,2006.
[31]惠增宏,高永卫,肖春生.矩形平面天线风载荷的实验研究[J].现代雷达,2006,28(3):63-65.
[32]袁士杰,吕哲勤.多刚体系统动力学[M].北京:北京理工大学出版社,1992.
[33]洪嘉振.计算多体系统动力学[M].北京:高等教育出版社。1999.
[34]郑建荣.ADAMS虚拟样机技术入门与提高[M].北京:机械工业出版社,2002.
[35]Tanizumi Kazuya,Yoshirmura Toshio,Hino Junichi.Modelling of dynamic behavior and control of truck cranes.Transaction of the Japan Society of Mechanical Engineers,1995(2):549-551.
[36]王国强,张进平,马若丁.虚拟样机技术及其在ADAMS上的实践[M].西安:西北工业大学出版社,2001.
[37]许平勇,曹鹏举.平行杆翻转举升机构及液压缸铰支点设计[J].起重运输机械,2008(5):23-25.
[38]曹鹏举,许平勇.一种雷达用车载液压升降机构的设计[J].起重运输机械,2009(10):24-27.
[39]李尊远.基于虚拟样机技术的悬架系统的建模仿真及优化.武汉:武汉理工大学硕士学位论文,2008.
[40]崔丹.液压挖掘机工作装置的建模与仿真分析.天津:河北工业大学硕士论文,2008.
[41]MSC.Software Corp.Using the ADAMS/View Function Builder.MSC.Software Corporation,USA,2003.
[42]MSC.Software Corp.Advanced ADAMS/View Training Guide.MSC.Software Corporation,USA,2003.
[43]ANSYS-CHINA Corp.ANSYS Workbench 11.0培训教程. ANSYS-CHINA Corp,China,2003.
[44]李兵,何正嘉,陈雪峰.ANSYS Workbench设计、仿真与优化[M].北京:清华大学出版社,2008.
[45]Sheldon Imaoka . Sheldon’s ANSYS.NET Tips and Tricks : Meshing in Workbench,2008.
[46]Eric Miller,Rod Scholl.Understanding DM:Parts and Bodies.The Focus,2006(47):1-3.
[47]Eric Miller.Understanding DM nfreeze.The Focus,2006(48):1-3.
[48]Eric Miller.What’s New in Workbench Meshing? .The Focus,2009(71):1-3. :Freeze and U
[49]李增刚.ADAMS入门详解与实例[M].北京:国防工业出版社,2006.