摘要
目的为研究带长法兰汽车多楔轮的结构稳定性,实现零件轻量化,对多楔轮结构进行仿真研究和优化设计。方法通过建立有限元模型,使用ANSYS有限元软件进行不同齿数结构汽车多楔轮静动态分析,研究其变形量、应力分布规律及固有频率的变化情况。结果仿真结果表明,一阶至六阶的固有频率为56.62~1691.90 Hz,三齿为多楔轮最优齿数结构,其结构稳定性好,传动效率高。结论在实际工况中,激励源应避免出现在x轴和z轴方向。结构优化后的带长法兰汽车三齿多楔轮质量减少了3.2%,刚度基本不变,强度增加,为汽车多楔轮实际结构设计提供了一定的参考价值。
The work aims to study the structural stability of automotive multi-wedge wheel with long flange and realize the lightweight of parts by carrying out simulation study and optimization design of the multi-wedge wheel structure. The finite element model was established to conduct static and dynamic analysis on the automotive multi-wedge wheel with different tooth number structure by ANSYS finite software, so as to study the deformation, stress distribution law and change of inherent frequency. According to the simulation results, the first to sixth-order inherent frequencies ranged from 56.62 to 1691.90 Hz and the three-tooth structure was the optimal structure of the multi-wedge wheel, with good structural stability and high transmission efficiency. The excitation source should be avoided in the x-axis and z-axis directions in the actual working conditions, and the optimized structure of the three-tooth multi-wedge wheel reduces the mass by 3.2%, with the stiffness basically unchanged and the strength increased, which provides a certain reference value for the actual structural design of the automotive multi-wedge wheel.
作者
周金朝
刘蕾
王召宇
石文超
李萍
薛克敏
ZHOU Jin-zhao;LIU Lei;WANG Zhao-yu;SHI Wen-chao;LI Ping;XUE Ke-min(School of Materials Science and Engineering,Hefei University of Technology,Hefei 230009,China;Industry and Equipment Technology Institute,Hefei University of Technology,Hefei 230009,China)
出处
《精密成形工程》
北大核心
2022年第2期7-13,共7页
Journal of Netshape Forming Engineering
基金
大学生创新创业训练计划(201910359011)
校企合作项目(W2017JSKF0090)。
关键词
带长法兰多楔轮
模态分析
静力学分析
结构稳定性
形状优化
multi-wedge wheel with long flange
modal analysis
static analysis
structural stability
structure optimization
