纯电动悬臂茶树修剪机的设计与试验

Abstract

Abstract: To address issues of high labor intensity, few applicable machines and poor working conditionsin tea plant management in hilly and mountainous areas, a self-propelled lightweight cantilever tea pruning machine was designed. Based on the agronomic requirements for tea garden management, the overall structure and working principle of the machine were analyzed. An innovative “folding + rotation” arm structure was designed and dynamic simulation analysis was carried out. The key components of the walking device were theoretically analyzed and selected. After creating the prototype, field slope climbing performance test and tea plant pruning test were carried out. The results show that the maximum climbing ability of the pruning machine was 25°, the working performance of the pruning machine was stable, the missed detection rate was 0.55%, the tear rate of tea plants after pruning was 1.36%, and all performance indicators met the requirements of DG/T 110—2024. This study provided a new solution for tea plant pruning in hilly and mountainous areas.

Key words: hilly and mountainous areas, tea plant, pruning machine, cantilever structure, pure electric

CLC Number:

S571.1
S126

REN Ning, XUE Xianglei, ZHENG Hang, SHEN Shuai, YU Guohong. Design and Experimentation of a Pure Electric Cantilever Tea Plant Pruner[J]. Journal of Tea Science, 2026, 46(1): 111-121.

References

[1] 梅宇, 梁晓. 2023年我国茶叶产销及进出口形势分析[J]. 中国茶叶, 2024, 46(4): 18-26.
Mei Y, Liang X.Analysis of china's tea production, sales, import and export situation in 2023[J]. China Tea, 2024, 46(4): 18-26.
[2] 俞国红, 郑航, 叶云翔, 等. 轻便自走式采茶机的设计与试验[J]. 浙江农业学报, 2023, 35(9): 2233-2239.
Yu G H, Zheng H, Ye Y X, et al.Design and experiment on portable self-propelled tea picker[J]. Acta Agriculturae Zhejiangensis, 2023, 35(9): 2233-2239.
[3] 卞贤炳. 大宗茶蓬面高度感知方法及乘坐式采茶机仿形采收装置设计与试验[D]. 杭州: 浙江理工大学, 2023.
Bian X B.Design and experiment on the height perception method of ordinary tea canopy and the profiling harvesting device of the riding tea picker [D]. Hangzhou: Zhejiang Sci-Tech University, 2023.
[4] 韩余, 肖宏儒, 宋志禹, 等. 我国茶园机械化作业模式研究[J]. 中国农业科技导报, 2016, 18(3): 74-81.
Han Y, Xiao H R, Song Z Y, et al.Research on mechanization technology mode of tea plantation and management[J]. Journal of Agricultural Science and Technology, 2016, 18(3): 74-81.
[5] Han Y, Xiao H R, Song Z Y, et al.Design and experiments of 4CJ-1200 self-propelled tea plucking machine[J]. International Journal of Agricultural and Biological Engineering, 2021, 14(6): 75-84.
[6] 杨化林, 钟岩, 姜沅政, 等. 基于时间与急动度最优的并联式采茶机器人轨迹规划混合策略[J]. 机械工程学报, 2022, 58(9): 62-70.
Yang H L, Zhong Y, Jiang Y Z, et al.Hybrid strategy of parallel tea picking robot trajectory planning based on optimal time and jerk[J]. Journal of Mechanical Engineering, 2022, 58(9): 62-70.
[7] 沈惠平, 吉恩成, 丁文芹, 等. 6-DOF混联采茶机器人机构设计与动平衡分析[J]. 农业机械学报, 2023, 54(5): 416-426.
Shen H P, Ji E C, Ding W Q, et al.Mechanism design and dynamic balance analysis of 6-DOF hybrid robot for tea-picking[J]. Transactions of the Chinese Society for Agricultural Machinery, 2023, 54(5): 416-426.
[8] Terada J. Traveling type tea leaf plucking machine for sweeping dew: JP2003102234A [P].2001-10-01[2025-06-23].
[9] 韩余, 宋志禹, 陈巧敏, 等. 弧型往复双动式采茶切割器优化与试验[J]. 农业工程学报, 2022, 38(24): 35-43.
Han Y, Song Z Y, Chen Q M, et al.Optimization and experiment of arc type reciprocating double-acting tea picking cutter[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2022, 38(24): 35-43.
[10] 王先伟, 吴明晖, 周俊, 等. 采茶机器人导航避障及路径规划研究[J]. 农业装备与车辆工程, 2019, 57(12): 121-124.
Wang X W, Wu M H, Zhou J, et al.Research on tea picking robot’s navigation, barrier avoidance and path planning[J]. Agricultural Equipment & Vehicle Engineering, 2019, 57(12): 121-124.
[11] Yamada Y, Shan T X N. Self-propelled tea garden tending machine: JP2005021090A [P].2003-07-03[2002-06-036].
[12] 韩余, 宋志禹, 陈巧敏. 4CJ-1200F智能采茶机设计与试验[J]. 智能化农业装备学报(中英文), 2022, 3(1): 1-6.
Han Y, Song Z Y, Chen Q M, et al.Design and experiment of 4CJ-1200E intelligent tea plucking machine[J]. Journal of Intelligent Agricultural Mechanization (in Chinese and English), 2022, 3(1): 1-6.
[13] 陈乐. 履带自走式采茶机行走底盘设计与试验[D]. 合肥: 安徽农业大学, 2024.
Chen L.Tracked self-propelled tea picker traveling chassis design test [D]. Hefei: Anhui Agricultural University, 2024.
[14] 吴先坤. 履带自走式采茶机的设计与试验研究[D]. 合肥: 安徽农业大学, 2017.
Wu X K.Design and experimental study on self-propelled tea-picking machine [D]. Hefei: Anhui Agricultural University, 2017.
[15] Zhang D Z, Zhang R R, Chen L P, et al.Adaptive tracking and cutting control system for tea canopy: design and experimental evaluation[J]. Agriculture, 2025, 15(5): 557. doi: 10.3390/agriculture15050557.
[16] Yu R D, Xie Y H, Li Q M, et al.Development and experiment of adaptive oolong tea harvesting robot based on visual localization[J]. Agriculture, 2024, 14: 2213. doi: 10.3390/agriculture14122213.
[17] 郑旭芝, 王碧林. 茶叶规模生产与经营管理[M]. 北京: 中国农业科学技术出版社, 2017
Zheng X Z, Wang B L.Scale production and management of tea [M]. Beijing: China Agricultural Science and Technology Press, 2017.
[18] 刘永智. 无线遥控的履带式微耕机研发[D]. 锦州: 辽宁工业大学, 2021.
Liu Y Z.Development of wireless remote control tracked micro-cultivator [D]. Jinzhou: Liaoning University of Technology, 2021.
[19] 苏瑞娟. 果园小型履带式电控底盘的设计与试验[D]. 泰安: 山东农业大学, 2023.
Su R J.Design and test of small crawler electronic control chassis for orchard [D]. Tai′an: Shandong Agricultural University, 2023.
[20] 王锋, 杨玲, 谢守勇, 等. 一种三角履带式果园动力底盘的设计与研究[J]. 农机化研究, 2019, 41(5): 91-96.
Wang F, Yang L, Xie S Y, et al.Design and research of a triangular track orchard power chassis[J]. Journal of Agricultural Mechanization Research, 2019, 41(5): 91-96.
[21] 宋扬扬, 李为宁, 李兵, 等. 履带式智能采茶机的设计与试验[J]. 农机化研究, 2020, 42(8): 123-127.
Song Y Y, Li W N, Li B, et al.Design and test of crawler type intelligent tea picker[J]. Journal of Agricultural Mechanization Research, 2020, 42(8): 123-127.

Design and Experimentation of a Pure Electric Cantilever Tea Plant Pruner

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