提出了一种分析摆线针轮行星传动中针齿与摆线轮齿间啮合力的新方法。
A new method is proposed for analysing the meshing force exerted between the pin teeth and the cycloidal gear teeth in the course of the cycloidal pin gear epicyclic transmission.
通过实验证明齿轮的啮合力、激振频率均与理论相符,样机模型与实际吻合,具有可行性。
The experiment proved that the gear meshing force, excitation frequency is consistent with the theory. Consistent with the actual prototype model is feasible.
介绍了平面式并联齿轮泵的结构原理,对主从动齿轮的液压径向力,啮合力分别进行了分析。
This paper introduces the structure principle of parallel gear pump in plane, analyses the hydraulic forces and mesh forces in radial direction of driving and driven gear.
其次,对多齿轮泵的静力学特性作了分析,证明了中心轮径向液压力、啮合力及总作用力平衡。
Secondly, analyzing statics characteristic of the multi-gear pump demonstrates that radial hydraulic pressure, meshing force and resultant force are balanced on the center wheel.
在综合分析了普通齿轮泵的结构特点及存在问题的基础上,提出了无啮合力齿轮泵的结构原理。
Based on analysis of the structural features and the cause of a conventional gear pump, the structural principle of the gear pump without mesh_force is presented.
同时考虑非线性齿轮啮合力和非线性油膜力的影响,建立齿轮-转子-滑动轴承系统的动力学模型。
The nonlinear gear mesh force and nonlinear oil film force were considered synchronously, the dynamic model of geared rotor-oil journal bearing system was proposed.
其强大的电起动马达以及低噪音,增强啮合力学保证安全,快速,安静的发动机在所有情况下启动。
Its powerful electric starter motor as well as low-noise, enhanced meshing mechanics guarantee safe, fast, and quiet engine starts in all situations.
其次,本文在确定了凸轮-针轮副的啮合力的基础上,对整个机构的内齿板、行星轴承、配重及其输入轴进行了受力分析。
Secondly, the forces of inner cam rings, planetary bearings, counter weights and input shaft are solved after the acting force between the cam and the rollers has been calculated.
基于虚拟样机仿真研究了齿轮偏心、轴偏心、轮齿磨损等缺陷对啮合力的影响,为深入研究齿轮传动系统动态特性提供了理论参考依据。
The effect of decentrations and teeth shape imperfections were examined by virtual prototyping model, which provided references to research on dynamic characteristics of gear driving device.
该液压启动机以闭合力啮合,从而确保该辊保持间隙的固定宽度,该闭合力大于由被压片材料对该辊所施加的力。
The actuators are engaged with a closing force in excess of the force exerted by the sheeted material against the rollers thereby ensuring that the rollers maintain a gap of fixed width.
该液压启动机以闭合力啮合,从而确保该辊保持间隙的固定宽度,该闭合力大于由被压片材料对该辊所施加的力。
The actuators are engaged with a closing force in excess of the force exerted by the sheeted material against the rollers thereby ensuring that the rollers maintain a gap of fixed width.
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