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Optimal design of transplanting mechanism with differential internal engagement non-circular gear trains

Authors

Maile Zhou
zhoumaile@126.com
School of Agricultural Engineering; and Key Laboratory of Modern Agricultural Equipment and Technology, Jiangsu University, Zhenjiang, China.
Jiajia Yang
School of Agricultural Engineering, Jiangsu University, Zhenjiang, China.
Tingbo Xu
School of Agricultural Engineering, Jiangsu University, Zhenjiang, China.
Jianjun Yin
School of Agricultural Engineering; and Key Laboratory of Modern Agricultural Equipment and Technology, Jiangsu University, Zhenjiang, China.
Xinzhong Wang
School of Agricultural Engineering, Jiangsu University, Zhenjiang, China.

This study aimed at the problems of unequal speed transmission ratio mutual restriction and side gap accumulation of the transplanting mechanism with single-degree-of-freedom K-H-V non-circular planetary gear train, which leads to poor trajectory and attitude, and poor precision of movement. This study has proposed a simple structure of transplanting mechanism with differential internal engagement non-circular planetary gear trains, which reconstructs the complex transplanting trajectory and attitude of the planting arm through single-stage unequal speed transmission. The working principle of the transplanting mechanism was analysed, and the kinematic theoretical model of the transplanting mechanism was established. The optimal design software for the transplanting mechanism was developed based on the visual platform. The dimensions optimisation on the transplanting mechanism was completed considering the requirements with strong coupling, and multi-objective and a set of superior mechanism parameters were obtained. The design theory and method of the internal engagement non-circular gear pair were proposed based on the generating principle. The correctness and accuracy of the trajectory and attitude of the transplanting mechanism were verified through virtual simulation experiments. The experiments show that the designed transplanting mechanism with internal engagement non-circular planetary gear trains was compact in structure, the trajectory meets the requirements of multi-objective transplanting, and the trajectory and attitude can be accurately reproduced, which provides a new feasible solution for the innovative design of the transplanting mechanism.

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How to Cite

Zhou, M. (2022) “Optimal design of transplanting mechanism with differential internal engagement non-circular gear trains”, Journal of Agricultural Engineering, 53(3). doi: 10.4081/jae.2022.1412.
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