考虑传动间隙的起落架摆振特性分析OA
Analysis of Landing Gear Shimmy Characteristics Considering Transmission Clearance
为研究某起落架齿轮传动式前轮操纵系统存在传动间隙时的摆振特性,本文首先通过简化理论分析合理地设计防摆阻尼;其次通过理论分析结果和摆振试验结果两种维度校验起落架摆振刚柔耦合多体动力学联合仿真模型;然后将齿轮传动侧隙和扭力臂轴向、径向传动间隙等非线性因素同时考虑进摆振动力学分析中,实现含传动间隙的起落架刚柔耦合非线性动力学建模;最后基于此模型开展多因素对摆振响应特性差异研究.研究发现,间隙会导致起落架等幅振荡,其中齿轮传动侧隙对机轮摆角的影响大于扭力臂间隙,且间隙大小与摆角呈近似正比关系.此外,增大垂直载荷有助于抑制摆振,滑行速度主要影响机轮摆动频率.研究成果为起落架防摆系统设计提供理论参考.
To investigate the vibration characteristics of a landing gear gear-driven nose wheel steering system under transmission clearance conditions,this paper first conducts a simplified theoretical analysis to reasonably design anti-sway damping.Subsequently,the landing gear vibration coupled rigid-flexible multi-body dynamics simulation model is validated using both theoretical analysis results and vibration test results.Then,nonlinear factors such as gear transmission clearance and torque arm axial and radial transmission clearance are simultaneously considered in the vibration dynamics analysis,achieving a coupled rigid-flexible nonlinear dynamics model for landing gear with transmission clearance.Based on this model,a multi-factor study on the differences in vibration response characteristics is conducted.The results reveal that gaps can cause the landing gear to oscillate with constant amplitude,with gear transmission clearance having a greater effect on wheel swing angle than torque arm clearance.Additionally,the gap size is approximately proportional to the wheel swing angle.Increasing vertical load helps suppress vibration,while taxi speed primarily affects the wheel swing frequency.These findings provide theoretical reference for the design of landing gear anti-sway systems.
汪瑞;蔡君辉;陈潇;潘昊洋;李大让;包旭丹;张振华
北京特种机械研究所,北京 100143北京特种机械研究所,北京 100143北京特种机械研究所,北京 100143北京特种机械研究所,北京 100143北京特种机械研究所,北京 100143北京特种机械研究所,北京 100143北京特种机械研究所,北京 100143
航空航天
摆振特性齿轮传动传动间隙非线性防摆系统设计
shimmy characteristicsgear-driventransmission clearancenonlinearanti-shimmy system design
《南京航空航天大学学报(自然科学版)》 2026 (3)
606-614,9
国家自然科学基金(51805503)北京市自然科学基金(3202035).
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