1) mesh gear
啮合轮齿
2) gear mesh
齿轮啮合
1.
An exact dynamic simulation of the gear mesh has come ture based on the advantage of Pro/E and ADAMS,taking the standard involute right tooth columnar gear as an example.
将Pro/E三维建模软件和ADAMS动力学仿真软件相结合,以标准渐开线直齿圆柱齿轮为例,进行了齿轮啮合的精确动力学仿真。
2.
Comparison is made between the three kinds of bearing arrangement modes in bearing life and gear mesh.
从轴承寿命和齿轮啮合2个方面对3种布置方式进行比较。
3) Gear engagement
齿轮啮合
1.
The machining errors of gear that relate to the nature of involute are studied with gear engagement theory and combining grinding-machining in this paper and they are summarized as transmissio.
本文综合运用了齿轮啮合理论,并以磨齿加工为例,系统地研究了与渐开线性质有关的齿轮加工误差产生的啮合机理,并将其概括为传动误差、回转轴相对位置误差及刀具误差。
4) gear meshing
齿轮啮合
1.
Based on the theories of digital conjugate surface and gear meshing,a method for machining Digital Gear Tooth Surfaces(DGTS) was proposed.
利用数字化共轭曲面原理和齿轮啮合原理对数字化齿面加工方法进行研究。
2.
By the aid of theory of conjugate surfacesand theory of gear meshing, the generation of two dimen-sional digital tooth surfaces presented by discrete pointswas investigated.
利用共轭曲面原理和齿轮啮合原理对以离散点表达的二维数字化齿面的展成加工进行了研究。
3.
Applying the research method of the theory of gear meshing,the author introduces the interrelated conception of t he sphere of gear research to the earn members.
本文主要应用齿轮啮合的研究方法来处理摆动定型导槽反凸轮机构,将齿轮研究领域内的相关概念推广到该类机构申去,从而揭示了摆动定型导槽反凸轮机构的本质特征,获得一组完整的重要参数的精确计算公式。
6) pinion gear tooth contact
小齿轮轮齿啮合
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