1) cosine tooth profile
余弦齿廓
2) Cosine gear
余弦齿轮
1.
Based on the mathematical models of the cosine gear drive,the calculation approach of the contact ratio of the drive was deduced,and the influences of related design parameters on the contact ratio were discussed.
推导了余弦齿轮传动的重合度计算公式,进一步讨论了余弦齿轮传动重合度随齿数、模数、分度圆压力角等参数的变化规律,并与渐开线齿轮传动进行了对比。
2.
Study on the NC hobbing method of cosine gear based on space meshing theory,NC machining simulation is made in the corresponding software.
本文首先从相对运动学的观点分析入手,总结了关于齿廓曲面的各种已有和可能有的加工方法,运用空间啮合理论和离散原理,研究余弦齿轮的数控滚切加工新方法,并编制相应软件进行了加工仿真实验。
3) cosine gear pump
余弦齿轮泵
1.
Flow rate of cosine gear pump and analysis of its pulse characteristics
余弦齿轮泵的流量及其脉动特性分析
4) profile
[英]['prəʊfaɪl] [美]['profaɪl]
齿廓
1.
To create involute profile of gear by using the Auto CAD;
模拟加工过程中生成渐开线齿轮齿廓的方法
2.
To Create Involute Profile of Gear by Using AutoCAD;
用AutoCAD生成渐开线齿轮齿廓的方法
3.
In this system,the geometric figure of the enveloping tooth profile is generated.
通过滚齿加工过程图形仿真系统可以精确地获得齿廓曲线。
5) tooth profiles
齿廓
1.
In this paper, taking the equdistant curve of short spoke epicycloid as original tooth profiles (external gear), the conjugate internal gear tooth profiles (quasi-cycloid) and the pinion cutter tooth for cutting the internal gear are obtained.
本文以短幅外摆线的等距线为原始齿廓(外齿轮),求取了与之共轭的内齿轮齿形(准摆线齿形)及切削这种内齿轮的插齿刀齿形,并寻求了用三圆弧替代插齿刀齿形的方法。
2.
A mathematical model of parametric equations of theoretical and practical tooth profiles is established.
提出并分析了偏心轮推杆行星传动的传动原理 ,建立了理论齿廓和实际齿廓方程 ;证明了定传动比 ,采用不同的安装方式 ,可得到 6种不同的传动
3.
The inefficient single wave harmonic drive caused by interference of tooth profiles has not been solved by exact theoretical analvsis;Screw is used in the paper as mathematical tool.
齿廓干涉引起单波谐波传动失效的问题迄今没有精确的理论分析方法。
6) Gear Profile
齿廓
1.
This paper introduces a method of fast and precise generation of involute gear profile in AutoCAD,based on the powerful drawing capacity of AutoCAD and fast tabulating and calculation of Excel.
本文基于AutoCAD强大的绘图功能,结合Excel快速制表与计算功能,给出AutoCAD中快速、精确生成齿廓渐开线的方法。
补充资料:廓廓
1.安定貌。 2.辽阔貌。
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