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Contents:2018,Vol:23,Issue(4):226-233 |
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Citation: |
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ZHU Yonggang, LÜ Xinsheng. A New Design Method for Realizing Accurate Track of Hybrid-driven Five-bar Mechanism[J]. International Journal of Plant Engineering and Management, 2018, 23(4): 226-233 |
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| A New Design Method for Realizing Accurate Track of Hybrid-driven Five-bar Mechanism |
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| ZHU Yonggang1, LÜ Xinsheng2 |
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1. Anhui Sanlian College, Hefei 230061, China;
2. School of Machinery Engineering, Hefei University of Technology, Hefei 230009, China |
| Abstract: |
| 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. |
| Key words:
hybrid-driven five-bar mechanism
virtual crank slider mechanism
decoupling algorithm
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| Received: 2018-02-25
Revised:
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| DOI: 10.13434/j.cnki.1007-4546.2018.0404 |
| Funds: This paper is supported by National Innovation Training Project (201710959044),Anhui Province Quality Engineering Project (2016jyxm0336), and Anhui Province Educational Department University Natural Science Research Project (KJ2017A523) |
| Corresponding author:
Email: |
Author description: ZHU Yonggang is an associate professor, Institute of Mechanical Engineering, Anhui Sanlian College. His research interest are mechanical engineering, tribology. 351921811@qq.com
LÜ Xinsheng is a professor, School of Mechanical Engineering, Hefei University of Technology. His research interest is mechanical engineering. luxsh_50@163.com
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References: |
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[1] Yang J T. Theoretical and experimental trajectory study on the controlled five bar linkage[D]. Wuhan:Wuhan University of Science & Technology, 2009(in Chinese)
[2] Wen Q Y, Li T J, Liu X Y. Design of the controllable five-bar mechanism with a hybrid input for generating arbitrary complex function relationships[J]. Journal of Xidian University(Natural Science Edition) 2003,30(4):542-545(in Chinese)
[3] Men X J, Li H. Achieving accurate trajectory with Hybrid driven five bar mechanism[J]. Journal of Hebei Institute of Technology, 2004,26(2):18-22(in Chinese)
[4] Chen Z H, Zhang W B. Power distribution of a given trajectory generation for a hybrid-driven five-bar mechanism[J]. Journal of Shandong University (Engineering Edition), 2008,1(38):1-4(in Chinese)
[5] Chen G Y, He H N. Study of the generation of locus for linkage with two degrees of freedom[J]. Journal of Southeast University, 1990,20(3):7-12(in Chinese)
[6] Zhou S L. Study on theory and experiment of hybrid drive five bar mechanisms realizing trajectories[D].Shanghai:Shanghai JiaoTong University, 2001(in Chinese)
[7] Yin Y S. Design and research on mechanisms realizing rectangular track[J]. Journal of Machine Design,1991,4:14-16(in Chinese)
[8] Yu W W, Han M, Xia W X. Study on mechanism realizing rectangular track[J]. Shaanxi Coal, 2007,3:34-35(in Chinese)
[9] Ning X X, Gu R S, Zhai N F. A new mechanism enveloped in rectangular path[J]. Journal of Machine Design,1987,6:36-41(in Chinese)
[10] Li C N. Study on the square path mechanism[J]. Mechanical Science and Technoloy for Aerospace Engineering, 1993,47(3):60-64(in Chinese) |
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