Calculates the piston displacement , speed , acceleration , and analyzes the forces burden of the piston - joint - shank - framework 2 、计算了活塞位移、速度、加速度,分析了活塞连杆机构的受力。
In the field of mechanics , linkage mechanism can be seen as the original structure model theoretically of all other basic mechanisms 在机械学领域,连杆机构可视为其它基本机构的理论结构原型。
So the kineto - elasto - dynamic analysis to the piston - linkage mechanism of internal combustion engine has obvious realistic significance 因此对内燃机活塞、连杆机构的运动弹性动力分析具有十分重要的现实意义。
Crank and connecting rod mechanism is a kind of set - up , not only that the structure is complex , and that revolving speed is high 曲柄连杆机构是一种结构复杂的高速旋转机械,广泛地应用于各种机车发动机中。
That research to crank and connecting rod mechanism unbalanced moving and qualitative and quantitative description to it is important value 因此对曲柄连杆机构动不平衡的研究及其定性、定量的描述具有重要的意义。
In this dissertation , based on the elasto - dynamic analysis of flexible linkage mechanism , the dynamics equations of the mechanism are obtained 本文基于对弹性连杆机构的弹性动力学分析,建立了机构的有限元动态方程。
In this dissertation , based on the elasto - dynamic analysis of flexible linkage mechanism , the dynamics equations of the mechanism are obtained 本文基于对弹性连杆机构的弹性动力学分析,建立了机构的有限元动态方程。
Finally , the thesis take the mechanism of crankshaft and connecting rod in the engine as an example , develops visual assembly simulation system 最后以发动机的曲轴连杆机构和配气机构为实例,对可视化装配仿真系统进行初步开发。
With double oil cylinders , four - column guide and automatically balancing link rod structure to ensure the completely same cutting depth of each cutting position 采用双油缸,精密四柱平衡连杆机构,保证每一个裁断位置裁断深度完全相同。
The drive of the knitting elements is carried out by eccentric links drives , these results in reliable and smooth running , ensuring the best knitting action 成圈元件传动采用了偏心连杆机构,成圈运动平稳、可靠、高速、能保证最佳成圈配合。
