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A New Design Method for Realizing Accurate Track of Hybrid-driven Five-bar Mechanism
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作者 ZHU Yonggang LU Xinsheng 《International Journal of Plant Engineering and Management》 2018年第4期226-233,共8页
The concept of virtual slider crank mechanism is proposed and decoupled to obtain parameters of controllable five bar mechanism without any principle error for any given trajectory. The model is simple and easy to sol... The concept of virtual slider crank mechanism is proposed and decoupled to obtain parameters of controllable five bar mechanism without any principle error for any given trajectory. The model is simple and easy to solve. This method has no convergence,flexible workspace and singularity of the mechanism problem. Through this method,we don’ t need any curve to fit the trajectory point. Using MATLAB program to calculate,the computation time can be reduced to less than 3% of the original. Finally,an example is given to illustrate the method which is meanwhile compared with the traditional five bar design method. 展开更多
关键词 hybrid-driven five-bar mechanism virtual crank slider mechanism decoupling algorithm
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Experimental Study of the Motion Modes of a Planar Mechanical System with Multi-Clearance Revolute Joints
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作者 Kifatsoa Kolani Mutuku Muvengei +1 位作者 Joshua Ngoret James Kimotho 《Open Journal of Applied Sciences》 2023年第11期2014-2031,共18页
Clearances in joints of a mechanical multibody system can induce impulsive forces, leading to vibrations that compromise the system’s reliability, stability, and lifespan. Through dynamic analysis, designers can inve... Clearances in joints of a mechanical multibody system can induce impulsive forces, leading to vibrations that compromise the system’s reliability, stability, and lifespan. Through dynamic analysis, designers can investigate the effects of the clearances on the dynamics of the multibody system. A revolute joint with clearance exhibits three motions which are;free-flight, impact and continuous contact motion modes. Therefore, a multibody system with n-number of revolute clearance joints will exhibit 3n motion modes which are a combination of the three motions in each joint. This study investigates experimentally the nine motion modes in a mechanical system with two revolute clearance joints. A slider crank mechanism has been used as the demonstrative example. We observed that the experimental curve exhibits a greater impact compared to the simulation curve. In conclusion, this experimental investigation offers valuable insights into the dynamics of planar mechanical systems with multiple clearance revolute joints. Utilizing a slider-crank mechanism for data acquisition, the study successfully confirmed seven out of nine motion modes previously identified in numerical research. The missing modes are attributed to inherent complexities in real-world systems, such as journal-bearing misalignment. 展开更多
关键词 slider Crank mechanism Dynamic Responses Revolute Clearance Joints Motion Modes
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