煤矿机械
煤礦機械
매광궤계
Coal Mine Machinery
2015年
8期
62-63,64
,共3页
凸轮%从动件%轮廓线%动力学模型
凸輪%從動件%輪廓線%動力學模型
철륜%종동건%륜곽선%동역학모형
cam%follower%profile%dynamics model
为了反映高速凸轮从动部件输出端的运动规律、提高机构运行的稳定性,建立了凸轮机构的动力学模型以及从动部件的运动方程,进而优化了凸轮轮廓曲线设计方法。通过测试,分析了工作频率对凸轮运行时轮廓线的影响,可为优化高速凸轮机构设计提供参考。
為瞭反映高速凸輪從動部件輸齣耑的運動規律、提高機構運行的穩定性,建立瞭凸輪機構的動力學模型以及從動部件的運動方程,進而優化瞭凸輪輪廓麯線設計方法。通過測試,分析瞭工作頻率對凸輪運行時輪廓線的影響,可為優化高速凸輪機構設計提供參攷。
위료반영고속철륜종동부건수출단적운동규률、제고궤구운행적은정성,건립료철륜궤구적동역학모형이급종동부건적운동방정,진이우화료철륜륜곽곡선설계방법。통과측시,분석료공작빈솔대철륜운행시륜곽선적영향,가위우화고속철륜궤구설계제공삼고。
In order to reflect the motion regular output high-speed cam mechanism follower and improve the operation stability of the cam institutions, a dynamic model of the CAM mechanism as well as the slave unit movement equation, the design method of CAM contour curve was optimized further. Then the working frequency of CAM contour line at runtime was analyzed through test. This study can provide reference for optimization of high-speed CAM mechanism design.