With a focus on the design of tooth profiles of non-circular gears with addendum modifications that conform to the given complex transmission ratio curves and based on a series of discrete point sets on the pitch curves, the criteria for tooth profile distortion and undercut in non-circular gears were proposed. With the constraint of no tooth profile distortion and undercut, the addendum modification coefficient was introduced into the calculation of the distorted and undercut segments of the tooth profile of a non-circular gear, and the addendum modification coefficient of each contact point of the non-circular gear was obtained. Based on the generating principle for gear shaping with gear cutters, a theoretical model for calculating the tooth profile of non-circular gears with addendum modification was derived. The cutting and radial feeding motions of the pinion cutter were ignored, and only the meshing motion was considered. The involute tooth profiles of the pinion cutter enveloped the tooth profile of the non-circular gear. 3D automatic non-circular gear model generation software was developed, which was a secondary development product of the software UG. A non-circular gear in a rice potted seedling transplanting mechanism was designed, and the transplanter was developed and tested. The test results showed that the designed tooth profile of non-circular gear achieved the variable transmission ratios required by the transplanting mechanism. When the transplanting efficiencies were 140 plants/min, 160 plants/min and 180 plants/min, the transplanter completed the rice potted seedling transplanting operation with high quality.
Keywords: non-circular gear; tooth profile generation; addendum modification coefficient; enveloping characteristics; transplanting mechanism
DOI: 10.25165/j.ijabe.20201306.5659

Citation: Zhou M L, Yang Y C, Wei M X, Yin D Q. Method for generating non-circular gear with addendum modification and its application in transplanting mechanism. Int J Agric & Biol Eng, 2020; 13(6): 68–75.

non-circular gear; tooth profile generation; addendum modification coefficient; enveloping characteristics; transplanting mechanism

Ye J, Chen J N, Zhao X, Sun X C, Xia X D, Gao Q F. Design and applications of generalized eccentric noncircular gears. China Mechanical Engineering, 2018; 29(5): 565–571. (in Chinese)

Quintero Riaza H F, Cardona Foix S, Jordi Nebot L. The synthesis of an N-Lobe noncircular gear using Bezier and B-Spline nonparametric curves in the design of its displacement law. Journal of Mechanical Design，2007:981–985．

Chen Y Q, Li W C, Zhang J, Xu Y. Modeling and kinematics simulation of non-circular gear. Mechanical Engineer, 2016; 11: 19–21. (in Chinese)

Wang J, Fan J M, Feng Y. Research on meshing principle and active design method of uniform-variable gear drive. Journal of Mechanical Transmission, 2019; 43(9): 9–13. (in Chinese)

Sun L, Shen J H, Zhou Y Z, Ye Z Z, Yu G H, Wu C Y. Design of non-circular gear linkage combination driving type vegetable pot seedling transplanting mechanism. Transactions of the CSAE, 2019; 35(10): 26–33. (in Chinese)

Bae K Y, Yang Y S. Design of a non-circular planetary-gear-train system to generate an optimal trajectory in a rice transplanter[J]. Journal of Engineering Design, 2007, 18(4):361–372.

Ye B L, Yi W M, Yu G H, Gao Y, Zhao X. Optimization design and test of rice plug seedling transplanting mechanism of planetary gear train with incomplete eccentric circular gear and non-circular gears. Int J Agric & Biol Eng, 2017; 10(6): 43–55.

Yin D Q, Wang J Z, Zhang S, Zhang N Y, Zhou M L. Optimization design and experiments of a rotary-extensile type flowerpot seedling transplanting mechanism. Int J Agric & Biol Eng, 2019; 12(6): 45–50.

Zhang M, Kong D Y, Zhao J L, Liu Y P, Hu C B. Solid modeling methods and wire-cutting process simulation of non-circular gears. Applied Mechanics and Materials, 2011; 86: 730–734.

Liu Y P, Wang P, Xian X L, Zhang S Y. Design of the tooth profile of pascal curve gear. Journal of Mechanical Transmission, 2015; 39(3): 50–52.

Wang P, Liu Y P, He G P. Drawing of enclosed non-circular gear tooth profiled based on conversion method of tooth profile. Journal of Mechanical Transmission, 2014; 38(8): 74–76. (in Chinese)

Wang H C, Liu J. Tooth profile design and kinematic mechanism simulation of higher-order elliptic gears based on MAPLE. Journal of Applied Sciences, 2014; 14(4): 362–367. (in Chinese)

Shi Y, Wang S Z. Research on numerical algorithm of non-circular gear's tooth profile. Mechanical Science and Technology for Aerospace Engineering, 2013; 32(8): 1130–1133. (in Chinese)

Yu G H, Yu J P, Tong J H, Ye B L, Zheng S Y. Design of a conjugate concave non-circular gear mechanism. China Mechanical Engineering, 2016; 27(16): 2155–2159, 2165. (in Chinese)

Wu C Y, Jin Y Z, He L Y. Numerical algorithm of tooth profile of noncircular gear based on the characteristics of cutter envelope. China

Mechanical Engineering, 2008; 19(15): 1796–1799. (in Chinese)

Bair B-W. Computer aided design of elliptical gears. Journal of Mechanical Design, 2002; 124(4): 787–793.

Bair B-W. Computer aided design of elliptical gears with circular-arc teeth. Mechanism and Machine Theory, 2004; 39(2): 153–168.

Bair B-W. Computer aided design of non-standard elliptical gear drives. Journal of Mechanical Engineering Science, 2002; 216(4): 473–482.

Zheng F Y, Cheng D F, Liu Y Y. A generic algorithm of non- circular gear tooth profile. Journal of Mechanical Transmission, 2013; 37(4): 64–66. (in Chinese)

Zheng F Y, Cheng D F, Liu Y Y. A generic algorithm of non-circular bevel gear tooth profile. Journal of Mechanical Transmission, 2013; 37(5): 57–59. (in Chinese)

Liu Y P, Wang P, Li J. Design the elliptical gear tooth profile via analytical method. Machinery Design and Manufacture, 2015; 5: 214–216.

Al-Sabeeh A K. Irregular gears for cyclic speed variation. Mechanism and Machine Theory, 1991; 26(2): 171–183.

Li J G, Wu X T, Li Z X. Analysis of tooth undercutting in noncircular gears based on numerical computation model of shaping. Transactions of the CSAM, 2007; 38(6): 138–142. (in Chinese)

Zhao Y. Analysis and synthesis of agricultural machinery. Beijing: China Machine Press, 2008. (in Chinese)

Zhou M L, Sun L, Du X Q, Zhao Y, Xin L. Optimal design and experiment of rice pot seedling transplanting mechanism with planetary Bezier gears. Transactions of the ASABE, 2014; 57(6): 1537–1548.

Li J G, Wu X T, Mao S M, He J L. Numerical computation of tooth profile of noncircular gear. Journal of Xi’an Jiaotong University, 2005; 1: 75–78. (in Chinese)

Ju F T, Huang Z P. Solution of curvature radius in curvilinear motion. Physics Bulletin, 2010; 1: 73–74.

Wu G H, Yu G H, Xiang X J, Wang L W. Design and test of rice potted-seedling transplanting mechanism with three transplanting arms. Transactions of the CSAE, 2017; 33(15): 15–22. (in Chinese)

Ye B L, Wu G H, Yu G H, Jin X J, Sun L. Optimized design and tests on rice potted seedling transplanting mechanism of planetary gear train with non-circular gears. Transactions of the CSAM, 2016; 48(11): 68–73. (in Chinese)