Improvement of the Back Taper Processing with Cycloid Rotational Indexing Machining Technique

Jia Li; Xing Ying

doi:10.4028/www.scientific.net/AMR.452-453.1450

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 452-453Improvement of the Back Taper Processing with...

Improvement of the Back Taper Processing with Cycloid Rotational Indexing Machining Technique

Abstract:

At present, in the cycloid rotational indexing processing back taper technique, machining requirements were achieved mainly through the method of using cycloid cluster to approach the involute, so that the processing efficiency was hindered. To solve this problem, this paper proposes an improved method that reduces the number of cycloids to enhance the processing efficiency. Firstly, the best approximating cycloid of the involute tooth profile is figured out. Then, the involute is segmented into sections, and the best approximating cycloid on each section is calculated. Each cycloid approaches the involute section to a maximum extent until completing the entire involute approximation. Finally, the simulative processing is carried out. The result demonstrates that the number of cycloids is one third of the previous and the machining time saves about 64%. This indicates that the improved method is feasible to machine back taper.

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Periodical:

Advanced Materials Research (Volumes 452-453)

Pages:

1450-1454

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.452-453.1450

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Online since:

January 2012

Authors:

Jia Li, Xing Ying

Keywords:

Back Taper, Cycloid, Involute, Process of Rotational Indexing, Processing Accuracy

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References

[1] Wang Li: Bus&Coach Technology. Forum Vol. 2 (1999), p.43

Google Scholar

[2] Gao Peng, in: Research on the Cycloid Rotational Indexing Method for Machining the Back-angled Shifterstops in the Automobile Synchronizer Sleeves, edited by Tianjin University (2006).

Google Scholar

[3] Li Jia, Gao Peng, He Jianghua: China Mechanical Engineering. Forum Vol. 18 (2007), p.650

Google Scholar

[4] Sun Huan: Theory of Machines and Mechanisms (Higher Education Press, Beijing 2006).

Google Scholar

[5] Wang Baomin: Mechanical Science and Technology. Forum Vol. 21 (2002), p.61

Google Scholar

[6] He Jianghua, in: A Study and Practice on the Machining Technology of Cycloid Rotational Indexing, edited by Tianjin University (2007).

Google Scholar

[7] Li Jia, He Jianghua, Li Guanghui: Chinese Journal of Mechanical Engineering. Forum Vol. 44 (2008), p.196

Google Scholar

[8] Li Guanghui, in: Application Study on the Cycloid Rotational Indexing Technology for Machining Automobile Synchronizer Sleeve, edited by Tianjin University (2008).

Google Scholar