Design of depth-control planting unit with single-side gauge wheel for no-till maize precision planter
Keywords:
no-till planter, maize precision planter, planting unit, depth control, single-side gauge wheel, residue, stubbleAbstract
Abstract: No-till planters are very popular for maize seeding in fields covered with residue in annual wheat-maize double cropping system in North China Plain. However, there is no suitable depth control mechanism for existing no-till maize planters, and as a result, it is hard to obtain consistent planting depth, uniform emergence, and good passing ability at the same time. For the above reasons, a proper planting unit with a new type of depth-control mechanism was developed in this study. The mechanism consists of a single-side gauge wheel, a parallel four-bar linkage, a pair of double-disc opener, a V-shape press wheel and a depth regulator, which can adjust the planting depth from 30 mm to 90 mm to satisfy the agronomic requirement under different field conditions. Based on analysis and calculation, the width of gauge wheel was set to 50 mm while the length of parallel four-bar linkage was set to 350 mm. Field experiment was conducted and the results indicated that the newly designed planting unit with single-side gauge wheel performed well with regard to planting depth uniformity and anti-blocking ability. The planting depth uniformity and seed spacing quality were 95.45% and 91.90%, respectively, when the average height of stubble was 22.5 cm and residue amount was 0.64 kg/m2 in the field. It can satisfy the requirement of no-till maize planting on the cropland with residue and stubble in North China Plain. Keywords: no-till planter, maize precision planter, planting unit, depth control, single-side gauge wheel, residue, stubble DOI: 10.3965/j.ijabe.20160906.2394 Citation: Zhang R, Cui T, Yin X W, Zhang D X, Li K H, Han D D, et al. Design of depth-control planting unit with single-side gauge wheel for no-till maize precision planter. Int J Agric & Biol Eng, 2016; 9(6): 56-64.References
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[21] Chinese Academy of Agricultural Mechanization Sciences. Agricultural Machinery Design Manual, China Agricultural Science and Technology Press, Beijing, 2007. (in Chinese)
[22] Zhao S H, Jiang E C, Yan Y X, Yang Y Q, Tian B L. Design and motion simulation of opener with bidirectional parallelogram linkage profiling mechanism on wheat seeder. Transactions of the CSAE, 2013; 29(14): 26-32. (in Chinese with English abstract)
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[25] Karayel D, Ozmerzi A. Effect of tillage methods on sowing uniformity of maize. Canadian Biosystems Engineering, 2002; 44: 2.23–2.26.
[2] Zhang D X. Discussion of agriculture machinery and agronomic integration of summer maize product in Huang-Huai-Hai Region. Agricultural Technology & Equipment, 2010; 13: 14–18. (in Chinese)
[3] Feng X J, Yang X, Sang Y Y. Development of maize precision planting machinery. Jiangsu Agricultural Sciences, 2010; 4: 422–424. (in Chinese) doi: 10.3969/j.issn.1674- 1161.2015. 01.028
[4] Liu J, Cui T, Zhang D X, Yang L, Gao N N, Wang B. Effects of maize seed grading on sowing quality by pneumatic precision seed-metering device. Transactions of the CSAE, 2010; 26(9): 109–113. (in Chinese with English abstract) doi: 10.3969/ j.issn.1002-6819.2010.09.017
[5] Choudhary M A, Guo P Y, Baker C J. Seed placement effects on seedling establishment in direct-drilled fields. Soil and Tillage Research, 1985; 6(1): 79–93. doi: 10.1016/0167-1987(85) 90008-X
[6] Gratton J, Chen Y, Tessier S. Design of a spring-loaded downforce system for a no-till seed opener. Canadian Biosystems Engineering, 2003; 45: 2.29– 2.35.
[7] Ministry of Agriculture, Agricultural Mechanization Management Division. China Conservation tillage, Beijing: China Agriculture Press, 2008: 100–102. (in Chinese)
[8] Karayel D, Özmerzi A. Comparison of vertical and lateral seed distribution of furrow openers using a new criterion. Soil and Tillage Research, 2007; 95(1-2): 69–75. doi: 10.1016/j. still.2006.11.001
[9] Li L. Planter profiling structure. Cereals and Oils Processing, 1981; 6: 8–17. (in Chinese)
[10] Sheng K. Studies on the arrangement of profiling wheel in the profiling mechanism of a planter. J. of Jilin Institute of Technology, 1995; 15(2): 224–229. (in Chinese with English abstract)
[11] Cui T, Zhang D X, Yang Li, Gao N N. Design and experiment of collocated-copying and semi-low-height planting-unit for corn precision seeder. Transactions of the CSAE, 2012; 28(S2): 18–23. doi: 10.3969/j.issn.1002- 6819.2012.z2.004
[12] Lin J, Qian W, Li B F, Liu Y F. Simulation and validation of seeding depth mathematical model of 2BG-2 type corn ridge planting no-till planter. Transactions of the CSAE, 2015; 31(9): 19–24. doi: 10.11975/j.issn.1002-6819.2015. 09.004
[13] Bai X H, Zhang Z L. Motion Simulation of profiling mechanism of a planter based on ADAMS. Journal of Agricultural Mechanization Research, 2009; 3: 40–42. (in Chinese with English abstract) doi: 10.3969/j.issn.1003- 188X.2009.03.013
[14] Zhao J H, Liu L J, Yang X J, Liu Z J, Tang J X. Design and laboratory test of control system for depth of furrow opening. Transactions of the CSAE, 2015; 31(6): 35–41. (in Chinese with English abstract) doi: 10.3969/j.issn.1002-6819.2015. 06.005
[15] Huang D Y, Zhu L T, Jia H L, Yu T T. Automatic control system of seeding depth based on piezoelectric film for no-till planter. Transactions of the CSAM, 2015; 46(4): 1–8. (in Chinese with English abstract) doi: 10.6041/j.issn.1000- 1298.2015.04.001
[16] Cai G H, Li H, Li H W, He J, Wang Q J, Ni J L. Design of test-bed for automatic depth of furrow opening control system based on ATmega128 single chip microcomputer. Transactions of the CSAE, 2011; 27(10): 11–16. (in Chinese with English abstract) doi: 10.3969/j.issn.1002-6819.2011. 10.002
[17] Yang L, Zhang R, Gao N, Cui T, Liu Q W, Zhang D X. Performance of no-till corn precision planter equipped with row cleaners. Int J Agric & Biol Eng, 2015; 8(5): 15–25. doi: 10.3965/j.ijabe.20150804.1846
[18] Altikat S, Celik A, Gozubuyuk Z. Effects of various no-till seeders and stubble conditions on sowing performance and seed emergence of common vetch. Soil and Tillage Research, 2013, 126(1): 72–77. doi: 10.1016/j.still.2012.07. 013
[19] Zhang J C, Yan X L, Xue S P, Zhu R X, Su G Y. Design of no-tillage maize planter with straw smashing and fertilizing. Transactions of the CSAM, 2012; 43(12): 51–55. (in Chinese with English abstract) doi: 10.6041/j.issn.1000-1298. 2012.12.010
[20] Su Y S, Gao H W, Zhang J G. Measurement and analysis on working performance of tine furrow openers on no-tillage soil. Journal of China Agricultural University, 1999; 4: 28–30. (in Chinese with English abstract)
[21] Chinese Academy of Agricultural Mechanization Sciences. Agricultural Machinery Design Manual, China Agricultural Science and Technology Press, Beijing, 2007. (in Chinese)
[22] Zhao S H, Jiang E C, Yan Y X, Yang Y Q, Tian B L. Design and motion simulation of opener with bidirectional parallelogram linkage profiling mechanism on wheat seeder. Transactions of the CSAE, 2013; 29(14): 26-32. (in Chinese with English abstract)
[23] The ministry of agriculture of the People's Republic of China. NY 1628-2008-T. Operating quality for no-tillage maize planter. Agriculture industry standard of the people's Republic of China, 2008-5-16. (in Chinese)
[24] Kachman S D, Smith J A. Alternative measures of accuracy in plant spacing for planters using single seed metering. Transactions of the ASAE, 1995; 38(2): 379–387. http://dx.doi.org/10.13031/2013.27843
[25] Karayel D, Ozmerzi A. Effect of tillage methods on sowing uniformity of maize. Canadian Biosystems Engineering, 2002; 44: 2.23–2.26.
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Published
2016-12-01
How to Cite
Rui, Z., Tao, C., Dandan, H., Dongxing, Z., Kehong, L., Yunxia, W., … Li, Y. (2016). Design of depth-control planting unit with single-side gauge wheel for no-till maize precision planter. International Journal of Agricultural and Biological Engineering, 9(6), 56–64. Retrieved from https://ijabe.migration.pkpps03.publicknowledgeproject.org/index.php/ijabe/article/view/2394
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Power and Machinery Systems
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