摘要
针对升降回转测试平台的底座结构,利用SolidWorks软件进行了三维建模。为检验升降回转测试平台底座的安全性,在Simulation模块中对方形底座结构和圆形底座结构进行了有限元分析和结果对比。在确定使用圆形底座结构后,对升降回转测试平台底座结构进行了优化设计。将底座框架的稀疏大孔改为密集小孔,节省了原材料;将底座横梁下T字形加强筋改为工字形加强筋,增强了底座的抗变形能力和使用可靠性。
For the design scheme of lifting and rotary testing platform,the three-dimensional modeling is established with Solidworks software,to verify the safety of the test platform base.In the Simulation module,the finite element analysis of the square and circular substructures is carried out,and the analysis results are compared.After determining the use of circular structure base,the base of the lifting and rotary test platform is optimized.The original sparse large holes are changed to the base into dense small holes,which saves raw materials.In order to enhance the-non-deformation and service reliability of the base,an“I”type stiffener is added under the base beam instead of T-shaped one.
作者
范明星
苏建新
吕玉湖
FAN Mingxing;SU Jianxin;LYU Yuhu(School of Mechanical&Automotive Engineering,Kaifeng University,Kaifeng 475005,China;School of Mechatronics&Electronical Engineering,Henan University of Science&Technology,Luoyang 471003,China;Valve College,Kaifeng University,Kaifeng 475005,China)
出处
《中原工学院学报》
CAS
2022年第2期39-44,共6页
Journal of Zhongyuan University of Technology
基金
国家自然科学基金项目(51775171)。
关键词
升降回转测试平台
底座结构设计
结构优化
有限元分析
lifting and rotary testing platform
structural design of foundation
structural optimization
finite element analysis
