Dynamic Modeling of Oblique Crossing 3R Wrist with Virtual Link Method

Zhan Zhong Wang; Lin Zhang Cheng; Xiao Ke Fan; Yan Jun Han

doi:10.4028/www.scientific.net/AMR.422.55

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 422Dynamic Modeling of Oblique Crossing 3R Wrist with...

Dynamic Modeling of Oblique Crossing 3R Wrist with Virtual Link Method

Abstract:

Based on the theory of graph representation, links of the oblique crossing 3R wrist are devided into carriers and carried links, and contributions of the carried links to the generaliazed inertia forces can be divided into two parts. The first part is due to the motion with the carriers and the second part is due to the motion relative to their carriers. At the same time, the concept of virtual link is introduced to calculate the first part and carriers’ generaliazed inertia forces. The second part is derived with Lagrange Equation. At the end, an efficient and systematic dynamic equation in which the coupling effects of carried links can be identified individually and systematically, is developed. This method provides the basis for the design of driving chains and leads to a computer automated analysis for other geared robotic mechanisms.

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Periodical:

Advanced Materials Research (Volume 422)

Pages:

55-60

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.422.55

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Online since:

December 2011

Authors:

Zhan Zhong Wang, Lin Zhang Cheng, Xiao Ke Fan, Yan Jun Han

Keywords:

Dynamic Modeling, Oblique Crossing 3R Wrist, Virtual Link Method

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References

[1] Stefan Staicu. Planetary Gear Train for Robotics[C]// Proceedings of the 2005 IEEE International Conference on Mechatronics.Taipei, Taiwan. 2005:840-845

DOI: 10.1109/icmech.2005.1529371

Google Scholar

[2] Yang Ping, Zhong YiFang, Zhou Ji. Mechanism and Machine Theory, 2003,38 (1), P.43

Google Scholar

[3] Huo Wei. Robot Dynamics and Control[M]. Beijing: Higher Education Press, 2005(in Chinese)

Google Scholar

[4] Zhanzhong Wang, Dawei Zhang and Hongzhi Han. Design and Kinematics Analysis of Oblique crossing 3R Wrist[C]// Proceedings of the IEEE International Conference on Automation and Logistics. Jinan, China.2007:995-1000

DOI: 10.1109/ical.2007.4338712

Google Scholar

[5] Jorge Angeles. Fundamentals of robotic mechanical systems: theory, methods, and algorithms. New York: Springer, c2003.

Google Scholar

[6] Chen Dar-Zen, Wang Shinn-Chang. Machanism and Machine Theory, 1999, 34(1):105-121.

Google Scholar

[7] Chia- Pin Liu, Dar-Zen Chen, Yu-Tsung Chang. Machanism and Machine Theory, 2004, 39(11), P.1207

Google Scholar

[8] Huo Wei. Robot Dynamics and Control[M]. Beijing: Higher Education Press, 2005(in Chinese)

Google Scholar

[9] Wang Tingshu. Kinematics and Dynamics on Robot[M]. Xi'an: Xi Dian University Press, 1990 (in Chinese)

Google Scholar

[10] Xiong Youlun et al. Robotics[M]. Beijing: China Machine Press.1993.

Google Scholar

[11] Li Jie, Symbol Processing and Applying on MAPLE9.0[M]. Beijing: China Science Press, 2004 (in Chinese)

Google Scholar

[12] Zhang Xiaodan, Du Xiufeng, Li Xianglin et al. Technique of Graph Animation on Maple[M]. Beijing: Bei Hang University Press, 2005 (in Chinese)

Google Scholar