Design and Research of Ginkgo Leaves Retractable Picker
Volume 3, Issue 2, December 2019, Pages: 134-139
Received: Aug. 26, 2019;
Accepted: Sep. 12, 2019;
Published: Oct. 7, 2019
Views 23 Downloads 5
Dengjie Yang, Department of Mechanics, Shandong Huayu Institute of University, Dezhou, China
Jiali Kong, Department of Mechanics, Shandong Huayu Institute of University, Dezhou, China
Xiaoxiao Su, Department of Mechanics, Shandong Huayu Institute of University, Dezhou, China
Follow on us
Ginkgo biloba is an ancient plant, widely distributed in China. Ginkgo biloba leaves have very high medicinal value, and play a positive role in the treatment of many diseases. In order to solve the problem of ginkgo leaves picking, a retractable ginkgo leaves picking machine was designed according to its plane mechanism principle. In single-person operation, the plucker exerts force on the push rod and transfers the force to the plucker through the telescopic rod. The two pluckers cooperate with each other. The ginkgo leaves are picked by opening and closing state, and the ginkgo leaves are collected by the leaf storage device. The utility model has the advantages of simple structure and convenient operation, reduces the labor intensity of the picking workers to a certain extent, and reduces the danger of the picking workers.
Telescopic Rod, Support Rod, Picker, Leaf Storing Device
To cite this article
Design and Research of Ginkgo Leaves Retractable Picker, Applied Engineering.
Vol. 3, No. 2,
2019, pp. 134-139.
Copyright © 2019 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/
) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Wang Yusheng, Deng Wenlong, Xue Chunsheng. Pharmacology and Application of Traditional Chinese Medicine [M].2 Edition. Beijing: People's Health Publishing House, 2000.
Wang Chao, Wang Hong. Clinical application of Ginkgo biloba extract [J]. Chinese Medical Guidelines, 2012, 10 (11): 86-87.
Jin B. Cytological, physiological, and transcriptomic analyses of golden leaf coloration in Ginkgo bilobaL [J]. Horticulture Research, 2018, 5 (1).
Gevrek F. Histopathological, immunohistochemical, and stereological analysis of the effect of Gingko biloba (Egb761) on the hippocampus of rats exposed to long-term cellphone radiation.[J]. Histology & Histopathology, 2017: 11943.
Ren X J, Yang Z B, Ding X, et al. Effects of Ginkgo biloba leaves (Ginkgo biloba) and Ginkgo biloba extract on nutrient and energy utilization of broilers [J]. Poultry Science, 2018.
Fu W, He X, Xu S, et al. Changes in nutrients and decay rate of Ginkgo biloba leaf litter exposed to elevated O3 concentration in urban area.[J]. Peerj, 2018, 6 (3): e4453.
He Jian. Research Progress of Ginkgo biloba leaves [J]. Chinese Pharmacy, 2011, 22 (15): 1434-1436.
Wang Feijuan. Research Progress of Flavonoids in Ginkgo biloba Leaves [J]. Northwest Journal of Pharmacy, 2010 (2): 155-156.
Sun Hong, Xuemei, Ginkgo biloba leaf scientific picking methods [J]. Science and technology enrichment guide, 1997 (9): 43-44.
Du Gaofeng. Matters needing attention in Ginkgo leaf picking [J]. Southwest Horticulture, 1999, 27 (4): 53-54.
Yao Jianlin. Ginkgo Leaf Harvesting and Ginkgo Tree Protection [J]. Anhui Forestry, 1997 (2): 17-17.
Tang Benxing. Ginkgo biloba leaf picker: China, CN201220606750. X [P]. 2013-05-15.
Guo Zhiyue, Wang Wei, Zhuangyu, etc. Design of Agricultural Information Acquisition System Based on SolidWorks [J]. Forest Engineering, 2015, 31 (4): 92-97.
Leiqian, Yang Yongfa. Design of Portable Variable Diameter Spherical Rosa roxburghii Harvester [J]. Forestry Machinery and Woodworking Equipment, 2017, 47 (3): 26-28.
Yang Dengjie, Zhang Cunmeng, Zhu Daigen, et al. Design of retractable ginkgo leaf picker [J]. Forestry machinery and woodworking equipment, 2017, 45 (7): 30-31.