Land widths and relief angles of a dual-cone double-enveloping hourglass worm gear hob are important factors that influence the life and the hobbing performance of the hob. Both of them are obtained by generating relief surfaces of the hob. Due to the reason that all teeth of this type of hob have different profiles with each other, all of the relief surfaces are difficult to generate for keeping all cutting teeth with uniformed relief angles and uniformed land widths. For the purpose that land widths and relief angles could be machined precisely, this paper puts forward a designing and generating method for grinding the relief surfaces. The relief surfaces are ground using the same double-cone grinding wheel as grinding the helical surfaces of the worm. Based on the theory of gearing, the mathematical model for grinding relief surfaces is built. Motion parameters when grinding the different points of the land edges on different teeth of the hob are solved. A generating simulation is built by putting those motion parameters into a four-axis hourglass worm-grinding machine. The results of the simulation show that the relief surfaces can be ground continuously and the land widths and the relief angles meet the requirements.
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December 2018
Research-Article
A Designing and Generating Method for Grinding Relief Surfaces of a Dual-Cone Double-Enveloping Hourglass Worm Gear Hob
Chengjie Rui,
Chengjie Rui
College of Engineering,
China Agricultural University,
Beijing 100083, China
e-mail: ruichengjie@126.com
China Agricultural University,
Beijing 100083, China
e-mail: ruichengjie@126.com
Search for other works by this author on:
Haitao Li,
Haitao Li
Key Laboratory of Optimal Design of Modern
Agricultural Equipment in Beijing,
China Agricultural University,
Beijing 100083, China
e-mail: h89533@cau.edu.cn
Agricultural Equipment in Beijing,
China Agricultural University,
Beijing 100083, China
e-mail: h89533@cau.edu.cn
Search for other works by this author on:
Wenjun Wei,
Wenjun Wei
Professor
College of Engineering,
China Agricultural University,
Beijing 100083, China
e-mail: mech01@cau.edu.cn
College of Engineering,
China Agricultural University,
Beijing 100083, China
e-mail: mech01@cau.edu.cn
Search for other works by this author on:
Xuezhu Dong
Xuezhu Dong
Professor
College of Engineering,
China Agricultural University,
Beijing 100083, China
e-mail: h.li@cau.edu.cn
College of Engineering,
China Agricultural University,
Beijing 100083, China
e-mail: h.li@cau.edu.cn
Search for other works by this author on:
Chengjie Rui
College of Engineering,
China Agricultural University,
Beijing 100083, China
e-mail: ruichengjie@126.com
China Agricultural University,
Beijing 100083, China
e-mail: ruichengjie@126.com
Haitao Li
Key Laboratory of Optimal Design of Modern
Agricultural Equipment in Beijing,
China Agricultural University,
Beijing 100083, China
e-mail: h89533@cau.edu.cn
Agricultural Equipment in Beijing,
China Agricultural University,
Beijing 100083, China
e-mail: h89533@cau.edu.cn
Jie Yang
Wenjun Wei
Professor
College of Engineering,
China Agricultural University,
Beijing 100083, China
e-mail: mech01@cau.edu.cn
College of Engineering,
China Agricultural University,
Beijing 100083, China
e-mail: mech01@cau.edu.cn
Xuezhu Dong
Professor
College of Engineering,
China Agricultural University,
Beijing 100083, China
e-mail: h.li@cau.edu.cn
College of Engineering,
China Agricultural University,
Beijing 100083, China
e-mail: h.li@cau.edu.cn
1Corresponding author.
Contributed by the Power Transmission and Gearing Committee of ASME for publication in the JOURNAL OF MECHANICAL DESIGN. Manuscript received March 14, 2018; final manuscript received July 27, 2018; published online September 18, 2018. Assoc. Editor: Hai Xu.
J. Mech. Des. Dec 2018, 140(12): 123301 (12 pages)
Published Online: September 18, 2018
Article history
Received:
March 14, 2018
Revised:
July 27, 2018
Citation
Rui, C., Li, H., Yang, J., Wei, W., and Dong, X. (September 18, 2018). "A Designing and Generating Method for Grinding Relief Surfaces of a Dual-Cone Double-Enveloping Hourglass Worm Gear Hob." ASME. J. Mech. Des. December 2018; 140(12): 123301. https://doi.org/10.1115/1.4041053
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