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Design and Experiment of Self-Propelled High-Stem Chrysanthemum coronarium Orderly Harvester

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  • Daipeng Lu

    (College of Mechanical and Electrical Engineering, Shihezi University, Shihezi 832003, China
    School of Agricultural Engineering, Jiangsu University, Zhenjiang 212013, China
    Institute of Agricultural Facilities and Equipment, Jiangsu Academy of Agricultural Science, Nanjing 210014, China)

  • Wei Wang

    (Institute of Agricultural Information, Jiangsu Academy of Agricultural Science, Nanjing 210014, China)

  • Yueyue Li

    (School of Agricultural Engineering, Jiangsu University, Zhenjiang 212013, China
    Institute of Agricultural Facilities and Equipment, Jiangsu Academy of Agricultural Science, Nanjing 210014, China)

  • Mingxiong Ou

    (School of Agricultural Engineering, Jiangsu University, Zhenjiang 212013, China
    Key Laboratory of Modern Agricultural Equipment and Technology, Ministry of Education, Jiangsu University, Zhenjiang 212013, China)

  • Jingtao Ma

    (School of Agricultural Engineering, Jiangsu University, Zhenjiang 212013, China
    Institute of Agricultural Facilities and Equipment, Jiangsu Academy of Agricultural Science, Nanjing 210014, China)

  • Encai Bao

    (Institute of Agricultural Facilities and Equipment, Jiangsu Academy of Agricultural Science, Nanjing 210014, China
    Key Laboratory for Protected Agricultural Engineering in the Middle and Lower Reaches of Yangtze River, Ministry of Agricultural and Rural Affairs, Nanjing 210014, China)

  • Hewei Meng

    (College of Mechanical and Electrical Engineering, Shihezi University, Shihezi 832003, China)

Abstract

To address the issues of low efficiency, high cost of manual harvesting, and the lack of mechanized harvesting technology and equipment for high-stem Chrysanthemum coronarium , a self-propelled orderly harvester was designed to perform key harvesting operations such as row alignment, clamping and cutting, orderly conveying, and collection. Based on the analysis of agronomic requirements for cultivation and mechanized harvesting needs, the overall structure and working principle of the machine were described. Meanwhile, the key components such as the reciprocating cutting mechanism and orderly conveying mechanism were structurally designed and theoretically analyzed. The main structural and operating parameters of the harvester were determined based on the geometric and kinematic conditions of high-stem Chrysanthemum coronarium during its movement along the conveying path, as well as the mechanical model of the conveying process. In addition, a three-factor, three-level Box-Behnken field experiment was also conducted with the experimental factors including the machine’s forward, cutting, and conveying speed, and evaluation indicators like harvesting loss rate and orderliness. A second-order polynomial regression model was established to analyze the relationship between the evaluation indicators and the factors using the Design-Expert 13 software, which revealed the influence patterns of the machine’s forward speed, reciprocating cutter cutting speed, conveying device speed, and their interaction influence on the evaluation indicators. Moreover, the optimal parameter combination, obtained by solving the optimization model for harvesting loss rate and orderliness, was forward speed of 260 mm/s, cutting speed of 250 mm/s, and conveying speed of 300 mm/s. Field test results showed that the average harvesting loss rate of the prototype was 4.45% and the orderliness was 92.57%, with a relative error of less than 5% compared to the predicted values. The key components of the harvester operated stably, and the machine was capable of performing cutting, orderly conveying, and collection in a single pass. All performance indicators met the mechanized orderly harvesting requirements of high-stem Chrysanthemum coronarium .

Suggested Citation

  • Daipeng Lu & Wei Wang & Yueyue Li & Mingxiong Ou & Jingtao Ma & Encai Bao & Hewei Meng, 2025. "Design and Experiment of Self-Propelled High-Stem Chrysanthemum coronarium Orderly Harvester," Agriculture, MDPI, vol. 15(17), pages 1-28, August.
    • Handle: RePEc:gam:jagris:v:15:y:2025:i:17:p:1848-:d:1737691
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    References listed on IDEAS

    as
    1. Wei Wang & Xiaolan Lv & Zhongyi Yi, 2022. "Parameter Optimization of Reciprocating Cutter for Chinese Little Greens Based on Finite Element Simulation and Experiment," Agriculture, MDPI, vol. 12(12), pages 1-18, December.
    2. Yue Jin & Jinwu Wang & Jia Chen & Zhiyu Song & Renlong Zhang & Ran Zhou, 2024. "Design and Experiment for Flexible Clamping and Conveying Device for Green Leafy Vegetable Orderly Harvester," Agriculture, MDPI, vol. 14(6), pages 1-17, June.
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