Axial Deformation of the Planetary Differential Micro-Displacement Mechanism with Finite Element Analysis

Shu Tian Fan; Xian Peng Guo

doi:10.4028/www.scientific.net/AMM.684.358

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 684Axial Deformation of the Planetary Differential...

Axial Deformation of the Planetary Differential Micro-Displacement Mechanism with Finite Element Analysis

Abstract:

Based on the study of planetary differential roller screw, a planetary differential micro-displacement mechanism is designed for tool compensation. Axial stiffness is an important factor of over-all properties of planetary roller screw. The structure of planetary differential roller screw is similar to planetary roller screw. The axial stiffness was analyzed with Hertz contact theory and confirmed with the ANSYS. Finally, the theoretical values and simulation values were compared to verify the simplified model, and the error was analyzed. The results show that the relative error between simulation values and theoretical values are less than 5%. Therefore, the simplified model of the finite element is reasonable.

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Proceedings of 2014 International Conference on Mechanics and Mechanical Engineering

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Periodical:

Applied Mechanics and Materials (Volume 684)

Pages:

358-363

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.684.358

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Online since:

October 2014

Authors:

Shu Tian Fan*, Xian Peng Guo

Keywords:

Axial Stiffness, Error Analysis, Finite Element Analysis (FEA), Hertz Contact Deformation, Planetary Differential Roller Screw

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References

[1] Lie-run Rong. Summary of micro-displacement mechanism [J]. Mechatronics 2005, the second phase. (In Chinese).

Google Scholar

[2] Sheng-yi Li, Huang Changzheng, Wang Guilin. Research micro displacement mechanism [J]. Aviation Precision Manufacturing Technology, 2000. 8, Volume 30 Issue 4. (In Chinese).

Google Scholar

[3] D.E. Schinstock , T.A. Haskew, Dynamic Load Testing of Roller Screw EMA's[C]. Th Proceedings of the 31st IECEC: 1996, 1: 221–226.

DOI: 10.1109/iecec.1996.552874

Google Scholar

[4] S. A. Velinsky, B. Chu, T. A. Lasky . Kinematics and Efficiency Analysis of The Planetary Roller Screw Mechanism[J]. Journal of Mechanical Design, 2009, 131(1): 1-8.

DOI: 10.1115/1.3042158

Google Scholar

[5] M. H. Jones, S. A. Velinsky. Contact Kinematics in The Planetary Roller Screw Mechanism[J]. The Proceedings of The ASME International Design Engineering Technical Conferences, (2012).

Google Scholar

[6] M. Falkner, T. Nitschko, etal. Roller Screw Lifetime Under Oscillatory Motion: From Dry to Liquid Lubrication[C]. The Proceedings of ESMATS, San Sebastian, 2003, 9: 299-301.

Google Scholar

[7] Qian-zhong Jin, Jia-jun Yang, Jian-li Sun. A comparative study [J] ball screw and planetary roller screw vice static stiffness. Mechanical Science and Technology, 1999, 18 (2): 230 -232. (In Chinese).

Google Scholar

[8] Fang Cheng. Two-stage planetary roller screw drive design and accuracy [D], Nanjing: Nanjing University, 2009: 46 -67. (In Chinese).

Google Scholar

[9] Jia-jun Yang, Zheng-xingWei, Ji-sheng Zhu et. Planetary roller screw vice load distribution and stiffness calculation [J]. Huazhong University of Science and Technology (Natural Science and Technology Edition), 2011, Volume 39, Issue 4. (In Chinese).

Google Scholar

[10] Shang-jun Ma, Geng Liu, Rui-ting Tong et. Vice planetary roller screw axial elastic deformation finite element analysis [J]. Mechanical transmission, 2012, Volume 36, No. 07. (In Chinese).

Google Scholar