讨论优化设计塑料注射成型机肘杆机构的方法。
The paper discusses the method of optimistic designing of joggle mechanism of plastic molding press.
分析发现,该广义肘杆机构冷锻压力机不会出现闷车情况。
The result shows that the cold forging press would not be jammed.
研究表明肘杆机构动态特性对模切精度的影响较小,但所产生的动压力对模切压力影响较大。
The research result indicates that dynamic characteristic of elbow-bar framework less influences the die-cutting precision, but the moving press brought by it has more influence.
对模切机模切加载过程进行分析,采用数学方法拟合了一条加载过程曲线,确定了肘杆机构可承受的最大模切压力值。
After the analysis of loading process, a loading curve is simulated by math method, which fixes on the most press value that can be endured by elbow-bar framework.
建立了一套肘杆机构活动平台加速度测试系统,对MW1050自动烫印模切机空载状态和加压工作状态进行了实测。
A set of acceleration test system of elbow-bar framework is founded for the material test of MW1050 automatic blocking die-cutter while it is load-off or not.
基于回路法建立了模切机双肘杆施压机构的运动数学方程,并绘出了双肘杆机构部分构件位移、速度、加速度的运动曲线。
Built up the sport mathematics equation of the elbow pole organization based on the loop method, and drew its displacement, velocity and acceleration exercise curve.
采用数值分析的方法对肘杆机构进行了分析,并针对分析结果设计实验,通过现场实测取得数据,验证了理论分析的正确性。
By way of analyzing the action mechanism of toys which can walk by two or four foots, the characteristics and points for attention in design of four-rod mechanisms were expounded.
为了研究模切机双肘杆施压机构的运动规律,基于回路法对双肘杆施压机构进行运动建模,并对其进行数值求解。
Motion analysis of the dual-elbow-bar mechanism based on the loop method was carried out, and the numerical derivation was given.
为了研究模切机双肘杆施压机构的运动规律,基于回路法对双肘杆施压机构进行运动建模,并对其进行数值求解。
Motion analysis of the dual-elbow-bar mechanism based on the loop method was carried out, and the numerical derivation was given.
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