[1]胡子翔,等.机载轻质天线阵面的结构设计与仿真分析[J].机械与电子,2017,(07):36-38,42.
 HU Zixiang,YANG Yi,et al.Structural Design and Simulation Analysis of Airborne Light Antenna Array[J].Machinery & Electronics,2017,(07):36-38,42.
点击复制

机载轻质天线阵面的结构设计与仿真分析
分享到:

《机械与电子》[ISSN:1001-2257/CN:52-1052/TH]

卷:
期数:
2017年07期
页码:
36-38,42
栏目:
设计与研究
出版日期:
2017-07-25

文章信息/Info

Title:
Structural Design and Simulation Analysis of Airborne Light Antenna Array
文章编号:
1001-2257(2017)07-0036-03
作者:
胡子翔1 2杨 毅1李润生1
(1.中国电子科技集团公司第三十八研究所,安徽 合肥 230088; 2.国家级工业设计中心(中电38所),安徽 合肥 230088)
Author(s):
HU Zixiang1 2 YANG Yi1 LI Runsheng1
(1.No.38 Research Institute of CETC, Hefei 230088, China; 2.National Industrial Design Center(No.38 Research Institute of CETC), Hefei 230088, China)
关键词:
机载天线 结构设计 有限元分析 刚强度
Keywords:
airborne antenna structural design finite element analysis strength and stiffness
分类号:
TN959.73; TN820.82
文献标志码:
A
摘要:
设计了某机载轻质高频天线阵面的结构,采用平面印刷偶极子天线单元和紧耦合布阵技术,实现阵面的小型化和轻型化; 天线承力骨架采用立体框架形式,使用玻璃纤维蒙皮加泡沫夹心结构的复合材料,实现结构的轻质与抗力学环境设计要求。通过力学有限元仿真分析,验证了天线结构的刚强度满足设计要求。
Abstract:
In this paper, the structural design of a light high-frequency airborne antenna is proposed. The planar print dipole antenna unit and tight coupling deployment technology were used to realize the miniaturization and lightening of the array; Then, the space frame structure and the composite material with glass fiber as surface and foam as core were adopted to build the bearing frame to meet the design requirements of light weight and mechanical environment adaptability. The results of mechanical finite element analysis have verified that the strength and stiffness of the antenna structure can meet the design requirements.

参考文献/References:

[1] 陈小双,翟为刚,赵万里.美国及中国军用无人机的新发展与性能分析[J].舰船电子工程, 2011, 31(7): 26-28.
[2] 李刚,王军,王婧.无人侦察机任务载荷发展趋势[C]//尖兵之翼-2006中国无人机大会论文集,2006:461-466.
[3] 陈竹梅.机载电子设备结构轻型化设计与应用[J].电子机械工程, 2000(6):3-5.
[4] 张铁军,王李宁.某机载雷达模拟吊舱结构设计[J].电子机械工程, 2010, 26(1):25-27.
[5] 唐宝富.复合材料在相控阵天线结构中的应用[J].电子机械工程, 2002,18(3):35-40.
[6] 邱成悌, 蒋全兴.电子设备结构设计原理[M].南京:东南大学出版社,2001
[7] 曾攀.有限元分析及应用[M].北京:清华大学出版社,2004

相似文献/References:

[1]刘琳.某弹载雷达天线系统结构设计[J].机械与电子,2017,(09):24.[doi:1001-2257(2017)09-0024-03]
 LIU Lin.Structural Design of the Missile-Borne Radar Antenna System[J].Machinery & Electronics,2017,(07):24.[doi:1001-2257(2017)09-0024-03]
[2]张 尧.某无人机机载雷达结构轻型化设计[J].机械与电子,2017,(07):31.
 ZHANG Yao.Lightweight Design of Airborne Radar Structure for an Unmanned Aerial Vehicle[J].Machinery & Electronics,2017,(07):31.
[3]孟令森,吴 胜,王永娟,等.蛇形蠕动机器人行波运动和动力学研究[J].机械与电子,2017,(12):68.
 MENG Lingsen,WU Sheng,WANG Yongjuan,et al.Study on Snake-like Inchworm Robot's Locomotion and Dynamics[J].Machinery & Electronics,2017,(07):68.
[4]陈美芳.一种机载SAR天线稳定平台结构设计[J].机械与电子,2015,(01):40.
 CHEN Meifang.Structural Design of an Antenna Gyro-stabilized Platform of Airborne SAR[J].Machinery & Electronics,2015,(07):40.
[5]邵奎武,王长瑞,肖 竑.相控阵雷达用阵面电源的结构设计[J].机械与电子,2015,(04):18.
 SHAO Kuiwu,WANG Changrui,XIAO Hong.Structure Design of a Array Power Supply for Phased-array Radar[J].Machinery & Electronics,2015,(07):18.
[6]张玉叶,张小栋,江 城,等.一种下肢外骨骼康复机器人优化的结构设计与控制仿真分析[J].机械与电子,2015,(05):77.
 ZHANG Yuye,ZHANG Xiaodong,JIANG Cheng,et al.Optimized Physical Design and Simulation of a Lower-limb Exoskeletons' Rehabilitation Robot[J].Machinery & Electronics,2015,(07):77.
[7]李养良,李镜明,赵继亮,等.压载水专用全自动反冲洗卧式过滤器结构设计[J].机械与电子,2015,(08):22.
 LI Yangliang,LI Jingming,ZHAO Jiliang,et al.Automatic Backwash Horizontal Filter Structure Design for Ballast Water[J].Machinery & Electronics,2015,(07):22.

备注/Memo

备注/Memo:
收稿日期:2017-04-01
作者简介:胡子翔(1985-),男,湖北十堰人,工程师,博士,主要从事雷达结构设计与仿真工作。
更新日期/Last Update: 2017-07-25