1) meshing track
啮合迹线
1.
Solution of meshing track of new silent chain with inner-outer compound meshing mechanism
新型内-外复合啮合齿形链啮合迹线的求解
2) contact path
啮合迹
1.
Equations for describing the tooth surface of a face-gear were established,and the contact path was formed by differential geometry and meshing theory.
建立了面齿轮齿面方程,应用微分几何和啮合原理形成了齿面啮合迹;通过分析齿面啮合点处的弹性变形与其曲率的关系,得到了面齿轮上的齿面啮合域;最后分析了安装误差对传动误差和啮合域的影响,并确定了满足设计啮合域要求的安装误差变动范围。
3) locus of meshing point
啮合点轨迹
4) gearing line
啮合线
1.
The space perpendicular relationship between the gearing line and the straight generating lines of gear tooth in gear shaving is proved with the analytic mathematics,which can help people understand the relation deeply and can lay down a foundation for making further study of the meshing theory in gear shaving.
对普通剃齿时啮合线与齿面直母线的空间垂直关系进行了数学解析证明,以帮助人们对这一关系加深理解,为进一步深入研究剃齿啮合理论打下基础。
5) meshing limit line
啮合界线
1.
The equations of the meshing limit line in the first and second enveloping of the dual-torus double-enveloping toroidal worm drive are presented in this paper.
推导了双圆环面包络环面蜗杆磨齿啮合界线方程及其与相配蜗轮啮合的啮合界线方程。
6) Meshing line
啮合线
1.
In this paper,based on the setting mathematical model of hourglass worm gear drive by using the theory of gearing meshing and the knowledge of differential geometry,the program of drawing axial sketch of hourglass worm gear tooth meshing line is worked out and the worm gear tooth meshing line are simulated by using the computer graphic technology.
应用齿轮啮合原理和微分几何的有关知识 ,建立柱面包络环面蜗杆传动的数学模型 ,运用计算机图形技术 ,编制绘出环面蜗杆传动及齿面啮合线正等轴测图的计算机程序 ,在计算机上实现了蜗杆齿面及齿面上啮合线的计算机仿
2.
The gear teeth and meshing line are distorted in the meshing process as a result of wearing and rise in temperature.
实际应用中,由于磨损和受热等原因,使得齿轮齿廓以及啮合过程中啮合线都发生了畸变。
补充资料:啮合
咬合;像上下牙齿那样咬紧:齿轮错位,无法啮合。
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