印染机械上是通过曲柄摇杆机构实现摆布动作的。
In the machine industry of printing and dyeing, swing-cloth movetion is completed by crank-rocker Mechanism.
本文介绍了一种刚体导引的曲柄摇杆机构几何综合法。
This paper introduced a kind of geometric synthesis method for a crank rocker mechanism guided by a rigid body.
本文讨论在己知最小传动角条件下设计曲柄摇杆机构的方法。
This paper discusses the method for designing of crank rocker mechanism under given minimum transmission Angle conditions.
电动机单向旋转,用曲柄摇杆机构换向,实现悬点的往复直线运动。
The prime motor rotates in a fixed direction and the alternating motion of the carrier bar is accomplished by the crank-rocker mechanism.
阐述了确定行程速比系数和的平面曲柄摇杆机构最小传动角位置和大小的新方法。
According to its equivalent mechanism-crank rocker mechanism, driving performance and minimum driving Angle position of movable tooth is analyzed.
在曲柄摇杆机构中,当以摇杆为原动件时,工作一个循环以后,直观看出有两次死点位置出现。
In the crank and rocker mechanism, when the rocker acts as the driving link, there will be two dead points in one working cycle.
对曲柄摇杆机构极限位置进行运动倒置分析,作出相应辅助圆,从而设计出满足条件要求的机构。
Analyzing the motion inversion of the limit of the crank rocker mechanism, drawing the relative supplementary circle, and designing the mechanism up to requirement.
本文介绍了糖果裹包机的具有最佳传动角的曲柄摇杆机构的设计,采用微机控制,给出了硬件和软件程序框。
The paper introduces the designs of best transmission angle of crank sliding block mechanism for candy packaging machine controled by computer.
本发明用于剑杆织机摇杆开口装置上的曲柄摇杆机构,运行稳定、可靠,结构简单、噪声低、操作方便且制造成本低。
The invention is a crank-rocker mechanism used on a rocker opening device of a rapier loom with stable, reliable operation, simple structure, low noise, easy operation and low manufacturing costs.
通过试验,得到了装盒平稳模拟的理想速度,找到了盖盖装置中盖盖瞬时的运动规律,并对其曲柄摇杆机构进行了模拟。
Though experiment the idea velocity of cartooning balanced emulation has been educed, instantaneous movement rule of capping in capping device, crank rocker mechanism has been emulated also.
为了提高立方氮化硼超硬材料的抛光效率,采用计算机仿真技术开发了曲柄摇杆抛光机构。
To raise the polishing efficiency of Cubic boron nitride (CBN) superhard material, crank rocker arm mechanism has been developed by using Computer Simulation Technology.
为了提高立方氮化硼超硬材料的抛光效率,采用计算机仿真技术开发了曲柄摇杆抛光机构。
To raise the polishing efficiency of Cubic boron nitride (CBN) superhard material, crank rocker arm mechanism has been developed by using Computer Simulation Technology.
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