1)crank rocker曲柄摇杆
1.In this study,a crank rocker,together with a leg fixed on a four-rod mechanism,is applied for driven-foot swinging.对驱动足采用了曲柄摇杆机构,将腿放在四杆机构的摇杆上,实现了腿前后摇摆行走。
英文短句/例句
1.Super-Quick-Return Mono-Side Swing Type Crank-Rocker Mechanism Design超急回单侧摆动型曲柄摇杆机构设计
2.A Study of Minimum Drive Angle of Crank and Rocker Mechanism关于曲柄摇杆机构最小传动角的研究
3.The Determination of Mininum Transmission Angle of Plane Crank-and-Rocker Mechanism;平面曲柄摇杆机构最小传动角的确定
4.Emulation design of crack block with Pro/E;基于Pro/E曲柄摇杆机构仿真设计
5.The Designing Method of Crank and Rocker Mechanism on Exilary Circled Graphic Solution;利用辅助圆图解法设计曲柄摇杆机构
6.Unbiased Crank and Rocker Mechanism with 90° Tilt Angle and Its Application90°摆角无偏置曲柄摇杆机构及其应用
7.Simulated Design & Upgrading of Crank & Rocker Plate Tilter曲柄摇杆式翻板机的仿真设计及改进
8.The Precision Analysis of Crank-rocker Mechanism Graphical Design曲柄摇杆机构图解法设计的精度分析
9.This paper expounded and proved some special geometric relations of the planar crank-rocker mechanisms, gave a new graphic method for designing the planar crank-rocker mechanisms.根据平面曲柄摇杆机构的一些特殊几何关系,给出了设计平面曲柄摇杆机构的新图解法。
10.This paper has used analytics to design Plane crank-rocker mechanism.采用几何解析法设计平面曲柄摇杆机构。
11.A Diagram Design Method for the Optimal Transmission Angle of the crank rocker Mechanism曲柄摇杆机构最佳传动角的图表设计方法
12.A Method for Designing of the Crank Rocker Mechanism According to Minimum Transmission Angle一种按最小传动角设计曲柄摇杆机构的方法
13.Analysis Method on Designing Crank-rocker Mechanism According to the Best Transmission Angle;按最佳传动角设计曲柄摇杆机构的解析法
14.The Design Illustrated by the Assistant Circle for the Brace Rocker Framework;曲柄摇杆机构的辅助圆图解设计法的探讨
15.The Application of the CAD in Crank and Rocker Machinery;计算机辅助设计在曲柄摇杆机构中的应用
16.Solving the least transmission angle in crank and rocker mechanism;精确求解曲柄摇杆机构中的最小传动角
17.A Discussion of Designing Winch Rocker Machine with the Triangle Method According to the Modulus K;按K设计平面曲柄摇杆机构解三角形法的探讨
18.Analysis of Designing Crank and Rocker Mechanism Simultaneously By K and 〔γ〕;同时按K和〔γ〕设计曲柄摇杆机构的解析法
相关短句/例句
Crank-rocker曲柄摇杆
1.In order to analyze the kinematics performance of elliptic-gear & crank-rocker weft insertion mechanism which had been proposed by the authors,kinematics mathematical models of the mechanism were established,and the corresponding analytic software was compiled.为了分析椭圆齿轮—曲柄摇杆引纬机构的运动学特性,建立了该机构的运动学数学模型,开发了辅助分析软件,分析了一些重要参数对该机构运动学特性的影响,得到了一组较佳的参数。
3)crank-rocker style曲柄摇杆式
1.Targeting the shortcomings in the traditional designing of the high speed crank-rocker style rice transplanter linkage mechanism, a flexible dynamic analysis of the mechanism, with the optimization of design method, was put forward in the article.针对传统设计方法在高速曲柄摇杆式水稻插秧机分插机构设计中的缺陷 ,提出对该机构进行弹性动力学分析 ,结合优化理论进行设
4)crank rocker mechanism曲柄摇杆机构
1.Design and Analysis of Crank Rocker Mechanism in Mechanical Torsional Vibration Vibrator;机械式扭振激振器用曲柄摇杆机构设计分析
2.The design of crank rocker mechanism about four cylinders and four strokes inter-combustion engine with pendulous piston;活塞摆动式内燃机曲柄摇杆机构设计
3.Dynamic closed graph of crank rocker mechanism design;曲柄摇杆机构设计的动态封闭图
5)Crank endplay device曲柄-摇杆机构
6)crank and rocker mechanism曲柄摇杆机构
1.Kinematics analysis of crank and rocker mechanism based on Matlab;基于Matlab的曲柄摇杆机构运动分析
2.Realization of motion simulation for crank and rocker mechanism;曲柄摇杆机构的运动仿真实现
3.Overall explanation and proof on three solution circle——one more discussion on auxiliary circled graphic designing method for crank and rocker mechanism;三解圆定理的全面表述与证明——再谈曲柄摇杆机构的辅助圆图解设计法
延伸阅读
机械原理:曲柄滑块机构用曲柄和滑块来实现转动和移动相互转换的平面连杆机构﹐也称曲柄连杆机构。曲柄滑块机构中与机架构成移动副的构件为滑块﹐通过转动副A ﹑B 联接曲柄和滑块的构件为连杆(图1 曲柄滑块机构简图 )。机构动动时﹐如铰链中心 B 的轨跡不通过曲柄的转动中心O ﹐称为偏置曲柄滑块机构(图1a 曲柄滑块机构简图 )﹐其中为偏距。如取不同的构件为机架﹐又可得到转动导杆机构(图1b 曲柄滑块机构简图 )﹑曲柄摇块机构(图1c 曲柄滑块机构简图 )和移动导杆机构(图1d 曲柄滑块机构简图)。如再将曲柄摇块机构中的导杆和滑块对换﹐即得到摆动导杆机构(图1e 曲柄滑块机构简图 )。如滑块B 的轨跡通过O ﹐则称为对心曲柄滑块机构(图2 对心曲柄滑块机构 )。 曲柄滑块机构广泛应用於往復活塞式发动机﹑压缩机﹑衝床等的主机构中。活塞式发动机以滑块为主动件﹐把往復移动转换为不整周或整周的迴转运动﹔压缩机﹑衝床以曲柄为主动件﹐把整周转动转换为往復移动。偏置曲柄滑块机构的滑块具有急回特性﹐锯床就是利用这一特性来达到锯条的慢进和空程急回的目的。对心曲柄滑块机构中(图2 对心曲柄滑块机构 )﹐当O A =AB 时﹐除D 点(AD =AB )的运动轨跡为直线外﹐连杆上其他点都沿椭圆轨跡运动﹐这种机构也称为椭圆仪。曲柄滑块的运动特性常用曲柄转角与滑块行程的关係曲线(图3 曲柄滑块机构简图运动特性 )来表示。
