文献类型: 外文期刊
第一作者: Pan, Feng
作者: Pan, Feng;Chen, Jincheng;Wang, Baiwei;Fang, Ziheng;Liang, Jinxin;He, Kangkang;Ji, Chao;Pan, Feng;Chen, Jincheng;Wang, Baiwei;Fang, Ziheng;Liang, Jinxin;He, Kangkang;Ji, Chao;Fang, Ziheng;Liang, Jinxin;He, Kangkang;Ji, Chao
作者机构:
关键词: precision agriculture; maize; seed-fertilizer synchronous application; hole fertilizing; regulatory systems; field experiment
期刊名称:AGRICULTURE-BASEL ( 影响因子:3.6; 五年影响因子:3.8 )
ISSN:
年卷期: 2025 年 15 卷 13 期
页码:
收录情况: SCI
摘要: The disadvantages of traditional strip fertilization technology for corn planting in China include low fertilizer utilization rates, unstable operation quality, and environmental pollution. Therefore, in this study, a synchronous hole fertilization device for corn planting based on real-time intelligent control is designed, aiming to reduce fertilizer application and increase efficiency through the precise alignment technology of the seed and fertilizer. This device integrates an electric drive precision seeding unit, a slot wheel hole fertilization unit, and a multi-sensor coordinated closed-loop control system. An STM32 single-chip micro-computer is used to dynamically analyze the seed-fertilizer timing signal, and a double closed-loop control strategy (the position loop priority is higher than the speed loop) is used to correct the spatial phase difference between the seed and fertilizer in real time to ensure the precise control of the longitudinal distance (40 similar to 70 mm) and the lateral distance (50 similar to 80 mm) of the seed and fertilizer. Through the Box-Behnken response surface method, a field multi-factor test was carried out to analyze the mechanism of influence of the implemented forward speed (A), per-hole target fertilizing amount (B), and plant spacing (fertilizer hole interval) (C) on the seed-fertilizer alignment qualification rate (Y-1) and the coefficient of variation in the hole fertilizing amount (Y-2). The results showed that the order of primary and secondary factors affecting Y-1 was A > C > B, and that the order affecting Y-2 was C > B > A; the comprehensive performance of the device was best with the optimal parameter combination of A = 4.2 km/h, B = 4.4 g, and C = 30 cm, with Y-1 as high as 94.024 +/- 0.694% and Y-2 as low as 3.147 +/- 0.058%, which is significantly better than the traditional strip application method. The device realizes the precise regulation of 2 similar to 6 g/hole by optimizing the structural parameters of the outer groove wheel (arc center distance of 25 mm, cross-sectional area of 201.02 mm(2), effective filling length of 2.73 similar to 8.19 mm), which can meet the differentiated agronomic needs of ordinary corn, silage corn, and popcorn. Field verification shows that the device significantly improves the spatial distribution of the concentration of fertilizer, effectively reduces the amount of fertilizer applied, and improves operational stability and reliability in multiple environments. This provides technical support for the regional application of precision agricultural equipment.
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