1) meshing power
啮合功率
1.
The formulas are derived for determining the flowing direction of meshing power.
研究了2K H型差动轮系中传动比与功率比的关系,提出了利用传动比判定啮合功率流向的基本公式,得到了各种不同输入输出条件下差动轮系的传动比iaH和iHab的取值范围,建立了差动轮系的自锁条件。
2.
The relationship between flow direction of meshing power and transmitting ratios of differential gear train is researched.
研究了差动轮系的啮合功率流向与有关传动比之间的关系 ,得出了啮合功率流向特征值的解析表达式 ,并列出了啮合功率流向特征值与有关传动比的对应
3.
The relationship of efficiency,flow direction of meshing power and motion parameter of non-H closed epicyclic gear train are researched.
研究了非 H封闭式周转轮系的效率、啮合功率流动方向与有关运动参数之间的关系 ,得到了依据差动轮系及封闭传动链的有关传动比判断啮合功率流向的简捷方法 ,解决了用啮合功率法计算效率的难点问题 ;并在此基础上 ,推导出非 H封闭式周转轮系的效率计算的统一公式 ;此外 ,还分析了非 H封闭式周转轮系的自锁条件 。
2) Engaging power method
啮合功率法
3) mesh power losing
啮合功损
4) meshing frequency
啮合频率
1.
According to the working state of the gearbox in the second gear, the dynamic simulation is carried out, obtaining the revolution of the output shaft, mesh force of all gears and meshing frequency.
基于三维造型软件Pro/E构建BJ2020型齿轮变速箱的实体模型,并将其导入到ADAMS中,添加约束02和载荷后建立变速箱虚拟样机模型,根据变速箱在二档时的实际工况,对其进行动力学仿真,得到输出轴转速、各级齿轮啮合力及啮合频率。
5) engaging efficiency
啮合效率
1.
New arithmetic and application analysis of movable teeth transmission′s engaging efficiency;
活齿传动啮合效率的新算法与应用分析
2.
The Calculation of Engaging Efficiency For Translational Moving Gears;
平动齿轮机构啮合效率的计算
3.
A method to compute the engaging efficiency of swing movable teeth drives——slide rolling friction coefficient method is put forward and the concept of slide rolling friction coefficient method is proposed in this paper.
将活齿与内齿圈之间的滑动摩擦力和滚动摩擦力用滑滚摩擦力来代替 ,对摆动活齿传动进行受力分析 ,导出了有关的受力计算公式 ,进而推导出摆动活齿传动的啮合效率计算公式并给出了应用实例。
6) meshing efficiency
啮合效率
1.
The influence parameter analysis for meshing efficiency of swing movable teeth drive;
摆动活齿传动啮合效率的重要影响因素分析
2.
Study on gear meshing efficiency under condition of elasto-hydrodynamic lubrication;
弹流润滑状态下齿轮啮合效率的研究
3.
Transmission ratio calculation is chock correlated with the meshing efficiency calculation on the complex planetary gear mechanism,i.
将复合行星齿轮机构的传动比和啮合效率计算密切联系起来,即先用速比转换法求出传动比公式,然后根据传动比公式写出效率公式,同时,对传动比法进行了改进。
补充资料:齿轮双面啮合检查仪
见齿轮综合检查仪。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条