Fabrication and field performance test of a tractor-mounted 6-row cabbage collector |
Han, Kwang-Min
(Hyundai Agricultural Machinery)
Ali, Mohammod (Department of Agricultural Machinery Engineering, Graduate School, Chungnam National University) Swe, Khine Myat (Department of Agricultural Machinery Engineering, Graduate School, Chungnam National University) Islam, Sumaiya (Department of Agricultural Machinery Engineering, Graduate School, Chungnam National University) Chung, Sun-Ok (Department of Agricultural Machinery Engineering, Graduate School, Chungnam National University) Kim, Dae-Geon (Korea Agricultural Machinery Industry Cooperative) |
1 | Lee CH, Kim WS, Choi CH, Noh HS, Hong SJ. 2018. Analysis of trends on patents for unmannedtechnology used in agriculture. Korean Journal of Agricultural Science 45:114-119. [in Korean] DOI |
2 | Park JG, Jung HM, Kang BS, Mun SK, Lee SH, Lee SH. 2016. Analysis of mechanical properties of agricultural productsfor development of a multipurpose vegetable cutting machine. Korean Journal of Agricultural Science 43:432-440. [in Korean] DOI |
3 | Stout BA, Bakker FW, Ries SK. 1966. Developing a mechanical cabbage harvester. Transactions of the ASABE 9:860-861. DOI |
4 | Choi YS, Han BH, Yoo SN. 2017. Harvesting performance of an experimental pick-up type pulse crop harvester for green kernel black bean. Korean Journal of Agricultural Science 44:114-122. [in Korean] DOI |
5 | Chung SO, Kim YJ, Choi MC, Lee KH, Ha JK, Kang TK, Kim YK. 2016. Development of a hydraulic power transmissionsystem for the 3-point hitch of 50-kW narrow tractors. Korean Journal of Agricultural Science 43:450-458. [in Korean] DOI |
6 | Han GO, Yeo MS, Hong SJ. 2017. Ways of reducing the perception gap between rural residents and urban-to-ruralmigrants: Focus on the area of hongseong-gun. Korean Journal of Agricultural Science 44:440-450. [in Korean] DOI |
7 | Hong JT, Choi Y, Park WK, Jeon HJ, Lee CH. 2000c. Development of Chinese Cabbage Harvester(III): Field Test of Chinese cabbage Harvester For High Precision. pp.75-80. In Proceeding of Korea Socierty for Agricultural Machinery. [in Korean] |
8 | Dong DD, Luxin X, Jun W, Fanfei D. 2016. Development and tests of a self-propelled cabbage harvester in China. p. 162459786. In Proceeding of ASABE Annual International Meeting. DOI: 10.13031/aim.20162459786. DOI |
9 | Hong JT, Choi Y, Kim YK, Jeon HJ, Park WK, Hwang H. 2002. Development of Chinese Cabbage harvester(IV): Manufacture and Performance Test of The Prototype Harvester. pp.114-120. In Proceeding of Korea Socierty for Agricultural Machinery. [in Korean] |
10 | Hong JT, Choi Y, Sung JH, Kim YK, Lee GY. 2000b. Development of Chinese Cabbage Harvester (II): Design Factor Study for Manufacturing of Chinese Cabbage Harvesting Device. pp.67-74. In Proceeding of Korea Socierty for Agricultural Machinery. [in Korean] |
11 | KOSIS (Korean Statistical Information Service). 2019. Vegetable production leafy and stem vegetables. Korean Statistical Information Service. Accessed in https://kosis.kr/statHtml/statHtml on 19 April 2020. [in Korean] |
12 | Hong JT, Sung JH, Jeon HJ, Kim YK, Lee GY. 2000a. Development of Chinese Cabbage Harvester(I): A Fundamental Study for Developing a Chinese Cabbage Harvester. pp.59-66. In Proceeding of Korea Socierty for Agricultural Machinery. [in Korean] |
13 | Kim HJ, Choi YS. 2020. Performance evaluation of a Chinese cabbage harvester with pulling mechanism and design of a preprocessing unit. Journal of Agriculture & Life Science 54:99-108. [in Korean] |