Abstract
In order to solve the deliquesced fertilizer adheres to fertilizer conveying pipe, and leads to fertilizer conveying pipe blocked, a kind of fertilizer amount adjusting mechanism of deep-fertilization machinery for paddy field was designed. This adjusting mechanism was taken as research object, the distance between hinge axis and the center of blade connection seat, the distance between hinge axis and sliding limited post axis, the rotation angular velocity of cam ring and the angular velocity of blade rotating around hinge axis were taken as objective function, the diameter of fertilizer through-hole, the number of blades and the changing range of curvature radius of guide chute were taken as constraint conditions, the aided design and analysis software for fertilizer amount adjusting mechanism was programmed by VB software, through which kinematics optimization was carried out for fertilizer amount adjusting mechanism. The obtained optimal parameter ranges are: the radius of inner ring of cam is 30mm, the number of blade is 6, the distance between the hinge axis and the center of blade connection seat is 47.5mm, the distance between hinge axis and sliding limited post axis is 12.5mm, the rotation angular velocity of cam ring is 25-35r/min, the angular velocity of blade rotating around hinge axis is 30-35r/min. According to optimization results, the fertilizer amount adjusting mechanism was simulated by Pro/E software, the simulation results were validated by experiment. The results show that the adjustable range of diameter of fertilizer through-hole for fertilizer amount adjusting mechanism is 9-56mm, the sliding limited post of blade and the guiding chute of cam ring have good sliding performance, and the designed fertilizer amount adjusting mechanism can satisfy the expected design requirements.
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References
Yuan, Z.: Research on Fertilizer Deep Application Technology for Paddy Field. Chinese Agricultural Mechanization (12), 38–39 (1996)
Wang, J., Ji, W., Feng, J., et al.: Design and Experimental Investigation of the Liquid Fertilizer Applicator. Transactions of the CSAE 24(6), 157–159 (2008)
Wang, J., Wang, J., Ge, Y.: Design and Experiment on Liquid Fertilizer Device of Deep-fertilization. Transactions of the Chinese Society for Agricultural Machinery 40(4), 58–63 (2009)
Feng, L., Guo, S., Li, Y.: Composition Motion of a Point and the Method for Full- Process Analysis. Journal of Air Force Engineering University 3(5), 86–87 (2002)
Tang, H., Wang, L., Shi, Y.: On the Establishment of System Info of Composite Movement of a Point. Journal of Xi’an University of Arts & Science 13(4), 44–46 (2010)
Wang, J., Wang, J., Ge, Y., et al.: Optimization Design on Pricking Hole Mechanism of Deep-fertilization Liquid Fertilizer Applicator. Transactions of the Chinese Society for Agricultural Machinery 41(4), 52–55 (2010)
Wang, J., Wang, J., Ju, J.: Dynamics Optimization for Pricking Hole Mechanism of Deep-Fertilization Liquid Fertilizer Applicator. Transactions of the CSAE 27(1), 165–169 (2011)
Yu, G., He, Y., Chen, J., et al.: Automatic Search of Pareto Solutions of Multi-objective for Rotary Transplanting Mechanism Kinematic. Transactions of the Chinese Society for Agricultural Machinery 40(6), 47–52 (2009)
Wu, C., Zhao, Y., Chen, J.: Optimization Design of Rice Trans Planter Separating-planting Mechanism with Visualization Human-computer Interaction Method. Transactions of the Chinese Society for Agricultural Machinery 39(1), 73–74 (2008)
Xi, X., Wang, J., Lang, C., et al.: Optimal Design and Simulation on Pricking Hole Mechanism of Liquid Fertilizer Applicator. Transactions of the Chinese Society for Agricultural Machinery 42(2), 80–83 (2011)
Yin, J., Wu, C., Liu, Y.: Optimization Design of Birotary Arm Type of Separating -transplanting Mechanism with Differential Eccentric Gear Train. China Mechanical Engineering 23(24), 2930–2935 (2012)
Feng, J., Jiang, Y.: Mechanism and Performance Test of Pivot Turning System with Single Driving for Rice Combineharvester. Transactions of the Chinese Society of Agricultural Engineering 29(4), 30–35 (2013)
Chen, J., Zhao, Y.: Parameters Optimization of Transplanting Mechanism with Planetary Elliptic Gears for High-speed Transplanter. Transactions of the Chinese Society for Agricultural Machinery 34(5), 46–49 (2003)
Wang, J., Ju, J., Wang, J.: Experimental Study on Pricking Hole Performances of Deep Application Liquid Fertilizer Device. In: 2011 Fourth International Conference on Intelligent Computation Technology and Automation, vol. 1(2), pp. 71–76 (2011)
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Wang, J., Zou, D., Wang, J., Yang, X. (2014). Optimization Design on Deep-Fertilization Fertilizer Amount Adjusting Mechanism for Paddy Field. In: Li, D., Chen, Y. (eds) Computer and Computing Technologies in Agriculture VII. CCTA 2013. IFIP Advances in Information and Communication Technology, vol 419. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-54344-9_16
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DOI: https://doi.org/10.1007/978-3-642-54344-9_16
Publisher Name: Springer, Berlin, Heidelberg
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