Design and experiment of a Chinese chive harvester
Abstract
Keywords: harvester, clamping mechanism, test design, lodging rate, Chinese chive
DOI: 10.25165/j.ijabe.20231602.7067
Citation: Feng Y L, Yin X C, Jin H R, Tong W Y, Ning X F. Design and experiment of a Chinese chive harvester. Int J Agric & Biol Eng, 2023; 16(2): 125-131.
Keywords
Full Text:
PDFReferences
Yang Z H. High quality and high yield cultivation techniques for leeks. Vegetables, 2012; 11: 19-20. (in Chinese)
Sun X Y. Talking about the current state of research on automated vegetable harvesting machinery. Agricultural Machinery, 2008; 11: 43. (in Chinese)
Harrell R C, Adsit P D, Munilla R D, Slaughter D C. Robotic Picking of Citrus. Robitica, 2012; 8: 269-278.
Geng R Y, Zhang T Z, Luo H, Yang L. Analysis of the development trend of agricultural machinery in China. Transactions of the CSAM, 2004; 35(4): 208-210. (in Chinese)
Song J, Zhang T Z, Xu L M, Tang X Y. Research Actuality and Prospect of Picking Robot for Fruits and Vegetables. Transactions of the CSAM, 2006; 37(5): 158-162. (in Chinese)
Wei Y, Qin G M, Jin Y, Li Q. Research status and development trend of leafy vegetable harvesting machinery. Agricultural Development and Equipment,2016; 8: 98-100.(in Chinese)
Han J Y, Lu B Y, Guo A R, Wang J. The Present Situation and Developing Direction of Agricultural Automation in China. Journal of Agricultural Mechanization Research, 2003; 3: 8-10.(in Chinese)
Van N N, Suguru Y. Development of prototype harvester for head lettuce. Engineering in Agriculture, Environment and Food, 2015; 8(1): 18-25.
Didamony M I E, Shal A M E. Fabrication and evaluation of a cabbage harvester prototype. Agriculture, 2020; 10(12): 1–11.
Wang T X, Li R X. Study on mechanical properties and harvesting and cutting table of Chinese chive. Proceedings of the International Annual Conference of CSAM, 2012; 2: 130-134. (in Chinese)
Gao G H, Xie H F, Wang T B. EDEM simulation and test of drawing mechanical properties of vegetable harvester in facility. Transactions of the CSAE, 2017; 33(23): 24-31. (in Chinese)
Xun G L, Wang J S, Zhang J S. Experiment on geometric and mechanical properties of Chinese chives at ripe harvest time. Agricultural Engineering Institute, 2020; 10(6): 94-97. (in Chinese)
Gao L, Yuan Y W, Yi J G, Kong D G. Improved design and test of a small leek harvester. Food and Machinery, 2016; 4: 117-119. (in Chinese)
Hyeon-Jong Jun. Development of a stem-cutting type harvester for non-head leafy green vegetables. PhD thesis, KangWon National University, Samcheok, Republic of Korea, 2006.
Shi X. Study on body leveling system of self-propelled corn combine harvesting locomotive. Jilin University, 2017. (in Chinese)
Miao P. Study on intelligent control system for electric leaf vegetable harvesting. Jiangsu University, 2020. (in Chinese)
Zhang J. Experiment of electric leek harvester in greenhouses. Agricultural Machinery Technology Extension, 2020; 2: 58-59. (in Chinese)
Du D, Wang J, Xie L, Deng F. Design and field test of a new compact self-propelled cabbage harvester. Transactions of the ASABE, 2019; 62(5): 1243–1250.
Zheng Z A, Cui B C, Gao W K, Wei Y B, Wu M, Li A C. Design and field test of a special Chinese herbal medicine harvester. Int J Agric & Biol Eng, 2022; 15(5): 109–115.
Lu J Q, Yang X H, Feng X, Li Z H, Li J C, Liu Z Y. Design and experiment of sowing depth control device for potato seeder. Transactions of the CSAE, 2020; 36(12): 13-21. (in Chinese)
Copyright (c) 2023 International Journal of Agricultural and Biological Engineering
This work is licensed under a Creative Commons Attribution 4.0 International License.