1) meshing force
啮合力
1.
Calculation and simulation of gear meshing force based on virtual prototyping technology;
基于虚拟样机技术的齿轮啮合力的计算与仿真
2.
The meshing force of the gearbox was computed by writing the sub-routing of contact force and the shifting process was realized through script control.
利用UG二次开发功能建立变速箱的CAD模型,在ADAMS/VIEW内通过装配建立模型的虚拟样机模型;通过编写接触力计算子程序实现了轮齿啮合力的计算,结合脚本控制语句实现了变速换挡过程的仿真。
3.
In order to obtain the data of dynamic meshing force of involute gears in meshing transmission process , computer simulation of involute gears meshing transmission simulation is proposed on the basis of MSC-ADAMS software.
为了获得渐开线齿轮啮合传动过程中的动态啮合力,提出了一种在MSC-ADAMS平台上的计算机仿真方 法。
2) Engaging power
啮合力
1.
The engaging power of the pump was zero.
结果表明该泵具有流量大、流量脉动小、工作轮齿间无啮合力、运行平稳、噪声低、机械效率高及径向间隙可以自动补偿等诸多优点。
3) mesh impulsive force
啮合冲力
4) meshing impact force
啮合接触力
1.
The results show that the fluctuation range of the normative chain drive is lower at medium speed,and the meshing impact force of the involute tooth profile sprocket is lower than .
通过Pro/Engineer建立了标准链条与直线齿廓和渐开线齿廓链轮啮合传动模型,基于多体动力学仿真软件ADAMS多体动力学仿真软件实现了模型在高转速时的动态仿真分析,结果表明在中低转速时直线齿廓链轮可降低链条波动,转速相同时链条与渐开线链轮啮合接触力较直线链轮低。
5) engaging force
啮合作用力
1.
This paper has analyzed the engaging force of gears used in fewer teeth difference planet transmission mechanism composed of circular arc gear and pin gear,provided the formula for the force calculation,and discussed the numerical solutions of engaging forces of gears with particular parameters.
讨论了圆弧针齿少齿差行星传动中轮齿间啮合作用力问题 ,给出了其计算表达式 ,并对特定参数的齿轮啮合作用力的数值解进行了讨论。
6) Engagement force
齿轮啮合力
1.
The solid prototype of the synchronization gear pump which is established by tridi- mensional software Solidworks designs to realize the gear pairs simulating assemble and engagement force simulation.
为了实现同步齿轮泵的齿轮副模拟装配和齿轮啮合力仿真,利用三维实体软件Solidworks建立了同步齿轮泵的实体模型,基于Hertz静力弹性接触理论,利用Solidworks插件Cosmsmotion进行了同步齿轮泵的啮合力仿真,得出了同步齿轮泵的啮合力分布特点。
补充资料:齿轮双面啮合检查仪
见齿轮综合检查仪。
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