Kinematic analysis and experiment of planetary five-bar planting mechanism for zero-speed transplanting on mulch film
Abstract
Keywords: seedling transplanting, mulch-film, planetary five-bar mechanism, zero-speed transplanting, parameter optimization
DOI: 10.3965/j.ijabe.20160904.2073
Citation: Liu J D, Cao W B, Tian D Y, Tang H Y, Zhao H Z. Kinematic analysis and experiment of planetary five-bar planting mechanism for zero-speed transplanting on mulch film. Int J Agric & Biol Eng, 2016; 9(4): 84-91.
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Manes G S, Dixit A, Singh A, Mahal J S, Mahajan G. Feasibility of mechanical transplanter for paddy transplanting in Punjab. AMA-Agricultural Mechanization in Asia Africa and Latin America, 2014; 44(3): 14-.
Parish R L. Current developments in seeders and transplanters for vegetable crops. HortTechnology, 2005; 15(2): 346–351.
Tong J H, Li J B, Jiang H Y. Machine vision techniques for the evaluation of seedling quality based on leaf area. Biosystems Engineering, 2013; 115(3): 369–379.
Thomas E V. Development of a mechanism for transplanting rice seedlings. Mechanism and Machine Theory, 2002; 37(4): 395–410.
Feng Q C, Zhao C J, Jiang K, Fan P F, Wang X F. Design and test of tray-seedling sorting transplanter. Int J Agric & Biol Eng, 2015; 8(2): 14–20.
Kumar G V P, Raheman H. Development of a walk-behind type hand tractor powered vegetable transplanter for paper pot seedlings. Biosystems Engineering, 2011; 110(2): 189–197.
Ryu K, Kim G, Han J. AE—Automation and emerging technologies: development of a robotic transplanter for bedding plants. Journal of Agricultural Engineering Research, 2001; 78(2): 141–146.
Sakaue O. Development of seedling production robot and automated transplanter system. JARQ (Japan), 1996; 30(4): 221–226.
Tian S B, Qiu L C. Design on plug seedling automatic transplanter in greenhouse. Advanced Materials Research, 2011; 317: 586–589.
Liu Y, Li Y X, Li B,Wang T, Lu Y T, Li F. Design and testing of key components in above-film transplanter. Agricultural Research in the Arid Areas, 2013; 31(1): 231–235. (in Chinese with English abstract)
Jin X P, Wang X L, Mao E R, Song Z H. An expert system for aided design of rice transplanter chassis systems. Advanced Materials Research, 2013; 655: 1710–1713.
Nagasaka Y, Saito H, Tamaki K, Seki M, Kobayashi K, Taniwaki K. An autonomous rice transplanter guided by global positioning system and inertial measurement unit. Journal of Field Robotics, 2009; 26(6-7): 537–548.
Weise G, Nagasaka Y, Taniwaki K. Research note (PM—power and machinery): An investigation of the turning behaviour of an autonomous rice transplanter. Journal of Agricultural Engineering Research, 2000; 77(2): 233–237.
Chen J, Wang B H, Zhang X, Ren G Y, Zhao X. Kinematics modeling and characteristic analysis of multi-linkage transplanting mechanism of pot seeding transplanter with zero speed. Transactions of the CSAE, 2011; 27(9): 7–12. (in Chinese with English abstract)
Zhao Y, Huang J M, Zhang G F, Zhao X. Kinematic analysis and optimization of transplanting mechanism with deformable elliptic gears transmission. Transactions of the CSAM, 2011; 42(4): 48–52. (in Chinese with English abstract)
Choi W C, Kim D C, Ryu I H, Kim K U. Development of a seedling pick-up device for vegetable transplanters. Transactions of the ASAE, 2002; 45(1): 13–19.
Bae K Y, Yang Y S. Design of a non-circular planetary-gear-train system to generate an optimal trajectory in a rice transplanter. Journal of Engineering Design, 2007; 18(4): 361–372.
Zhou M, Sun L, Du X, Zhao Y, Xin L. Optimal design and experiment of rice pot seedling transplanting mechanism with planetary bezier gears. Transactions of the ASABE, 2014; 57(6): 1537–1548.
Duraisamy V, Subbulakhsmi S, Senthilkumar T. Studies on standardisation of spacing and transplanting depth for a self propelled rice transplanter. AMA-Agricultural Mechanization in Asia Africa and Latin America, 2011; 42(1): 42–44.
He Y P, Chen Q C, He R Y, Yu H M. Optimal design and kinematic analysis for planting system of garlic planting machinery. Transactions of the CSAM, 2011; 42(2): 9–15. (in Chinese with English abstract)
Ye B L, Liu A, Yu G H. Parameters optimization with human-computer interaction method and experiment of vegetable seedling pick-up mechanism. Transactions of the CSAM, 2013; 44(2): 57–62. (in Chinese with English abstract)
Qu G., Wang J, Liao X, Application of MATLAB cubic spline to non-circle gear discrete pitch line. Mech. Eng. Automation, 2007; 3(3): 7–8. (in Chinese with English abstract)
Feng J, Qin G, Song W T, Liu Y J. The kinematic analysis and design criteria of the dibble-type transplanters. Transactions of the CSAM, 2002; 33(5): 48–50. (in Chinese with English abstract)
Yu G., Zhang W, Sun L, Zhao Y. Application of planetary gear train with eccentric gears and non-circular gear in backward rotary transplanting mechanism. Transactions of the CSAE, 2011; 27(4): 100–105. (in Chinese with English abstract)
D’Odorico P, Porporato A, Ecohydrology of arid and semiarid ecosystems:an introduction in Dryland Ecohydrology, P. D'Odorico and A. Porporato, Ed. Springer Netherlands, 2006; p. 1–10.
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