它是机械结构中最常用的连杆机构。
It is the most commonly used linkage mechanism in machine construction.
平面四连杆机构的运动轨迹分析是《机械设计》课堂教学中的主要内容之一。
Movement trail analysis of the plane four links mechanism is one of the major contents in the teaching of the machinery devise curriculum.
详细论述了用于辊压机械中的齿轮连杆机构调整压辊间隙的工作原理及结构特性。
The working principle and the constructional characteristics of a gear link mechanism for the clearance adjustment of pressure rollers in rolling machinery are discussed in detail.
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。
In the field of mechanics, linkage mechanism can be seen as the original structure model theoretically of all other basic mechanisms.
改变这些杆的相对长度,这种四杆连杆机构就成为一种实用的机械装置,可以把等速转动转变为非等速转动,或者把连续转动转变成振荡运动。
With various relative lengths of the links, this four-bar linkage becomes a useful mechanism for converting uniform rotary to non-uniform rotary motion or continuous rotary to oscillatory motion.
四连杆机构作为典型运动机构广泛运用于各类机械传动设计。
The four-bar linkage, as a typical moving mechanism, is widely used in various kinds of mechanical driving mechanism design.
通过对机械优化设计原则及设计过程的总结,探讨平面连杆机构优化设计中几个关键环节的处理方法。
Through summarying for the machinery optimization design principle and process, the management method for the key questions in the course of optimization design plane - link mechanisms is discussed.
基于所完成的平面机械系统运动学分布式仿真软件,本文实现了平面四连杆机构、曲柄滑块机构的分布式仿真算例。
A typical four-bar mechanism and a typical slide-crank mechanism are used for test of the distributed simulation environment and applications developed in this thesis.
通过将机械结构中最常用的连杆机构巧妙地应用到模具的卸料中,实现冲压件的自动卸料,并详述自动卸料的工作原理。
By applying the link-pole framework, unload work was made easy and automatic. Principle of automatic unload was presented in this article.
通过将机械结构中最常用的连杆机构巧妙地应用到模具的卸料中,实现冲压件的自动卸料,并详述自动卸料的工作原理。
By applying the link-pole framework, unload work was made easy and automatic. Principle of automatic unload was presented in this article.
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