陀螺仪抗振稳定性的产生机理研究OA
Research on Mechanism of Vibration Resistance of Gyroscopes
陀螺仪是惯性导航系统的核心仪表,其精度水平和精度稳定性是最重要的性能.振动可引起陀螺仪浮子组件质心偏移,导致干扰力矩和漂移误差,是影响陀螺仪精度的关键因素之一.揭示了振动工况下陀螺仪浮子组件在接触面摩擦和材料塑性两种因素作用下质心偏移的机理,以及针对这种机理的线性动力学-非线性静力学联合分析方法.采用这种分析方法深入研究了接触面摩擦和材料塑性对马达中心残余位移的影响.结果表明:接触面摩擦的影响大于材料塑性;由于两种因素交互影响,在分析浮子组件质心偏移时需要同时考虑这两种因素;浮子组件振动过程中,势能以摩擦耗散和塑性耗散两种方式释放,其中摩擦耗散大于塑性耗散.该机理研究为提升陀螺仪抗振稳定性的结构设计和工艺设计提供了理论依据.
Gyroscope is the core instrument of inertial navigation systems,and the accuracy level and accuracy stability are its most important performance.Vibration,which is one of the key factors affecting the accuracy of gyroscopes,can cause centroid shift in the floated component of gyroscopes,resulting in interference torque and drift errors.This article reveals the mechanism of the centroid shift of gyroscope floated components under vibration conditions due to contact-surface friction and material plasticity.An analysis method hybridizing linear dynamics and nonlinear statics is proposed to investigate in depth the effects of contact surface friction and material plasticity on residual displacement of the motor center.The results indicate that the influence of contact surface friction is greater than that of material plasticity.The two factors need to be considered simultaneously in the analysis of centroid shift of floated components,allowing for the interaction of the two factors.During the vibration of the floated component,potential energy is released in the ways of frictional dissipation and plastic dissipation,with the former being greater than the latter.This mechanism study provides a theoretical basis for the structural and process design to improve the vibration resistance of gyroscopes.
江晓燚;王瑞超;龙旦风;吴智恒;夏焕雄
五邑大学,广东 江门 529020||广东省科学院 智能制造研究所,广州 510075五邑大学,广东 江门 529020广东省科学院 智能制造研究所,广州 510075广东省科学院 智能制造研究所,广州 510075北京理工大学,北京 100081
机械制造
陀螺仪精度漂移稳定性抗振质心偏移
gyroscopeaccuracydriftstabilityvibration resistancecentroid shift
《机械科学与技术》 2026 (5)
787-796,10
国家重点研发计划(2022YFB3403801)与广州制造业绿色发展技术协同创新中心(2023B04J0022)
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