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河南农业大学丁力副教授等:大豆玉米带状复合种植分驱变量施肥系统设计与试验

2026-04-24 00:49:32

丁力，王凯选，袁业超，李源源，陈欢欢，张政，王谦益，于畅畅，李赫*

(河南农业大学机电工程学院，郑州450002，中国)

摘要：针对现有复合种植无法做到每个排肥单体排肥量的独立控制、肥料易受潮凝固结块以及依靠单一方式测速不准确的问题，该研究设计了大豆玉米带状复合种植分驱变量施肥系统，包括对辊破碎双向螺旋排肥器、分驱变量施肥系统与“GNSS+编码器”双测速系统。

通过建立结块化肥颗粒模型，对破碎效果及排肥均匀性进行了离散元仿真分析；设计了分驱变量控制系统；通过田间测速试验获得了GNSS与编码器两者在不同速度条件下测速误差变化折线，最终确定4.5 km/h为两者测速取值切换点。

通过台架试验，建立了大豆带、玉米带各自的“亩施肥量-作业速度-排肥器转速”数学关系模型，并对排肥器排肥一致性进行了实际验证。田间试验结果显示：大豆带在施肥量为150 kg/hm²、作业速度5 km/h时，误差最大，为4.81%；玉米带在施肥量为600 kg/hm²、作业速度4 km/h时，误差最大，为 4.67%。两者最大误差均小于5%，满足变量施肥要求。

关键词：变量施肥；EDEM仿真；大豆玉米带状复合种植；螺旋排肥器

DOI: 10.25165/j.ijabe.20251806.9691

引用信息: Ding L, Wang K X, Yuan Y C, Li Y Y, Chen H H, Zhang Z, et al. Design and experiment of the variable rate fertilization system for soybean and maize strip compound planting. Int J Agric & Biol Eng, 2025; 18(6): 122–134.

Design and experiment of the variable rate fertilization system for soybean and maize strip compound planting

Li Ding, Kaixuan Wang, Yechao Yuan, Yuanyuan Li, Huanhuan Chen, Zheng Zhang, Qianyi Wang, Changchang Yu, He Li*

(College of Mechanical & Electrical Engineering, Henan Agricultural University, Zhengzhou 450002, China)

Abstract: In view of the existing composite planting, which cannot independently control the fertilizer rate for each row, fertilizer is prone to moisture solidification caking and relies on a single way to measure the speed of inaccurate problems, a split-drive variable fertilizer application system was designed for soybean and maize strip cropping composites. It includes roller crushing bi-directional spiral fertilizer discharger, split-drive variable fertilizer application system and ‘GNSS+encoder’ dual speed measurement system. By modeling agglomerated fertilizer particles, a discrete element simulation was carried out to analyze the crushing effect. The speed measurement error variation folds of both GNSS and encoder under different speed conditions were obtained through field speed measurement tests. Finally, 4.5 km/h was identified as the switching point between the two speed measurements. Through bench testing, a mathematical relationship model was developed for the soybean and maize belts in terms of ‘Fertilizer Application Rate-Operating Travel Speed-Metering Mechanism Rotor Speed’, and the results are presented in the table below. Fertilizer discharge consistency was verified for fertilizer dischargers. Field trials were conducted, and the results show: The soybean belt had a maximum error of 4.81% at a fertilizer application rate of 150 kg/hm² and an operating speed of 5 km/h; the maximum error in the corn belt was 4.67% at a fertilizer application rate of 600 kg/hm² and operating speed of 4 km/h. Both have a maximum error of less than 5%, which meets the requirements for variable fertilizer application.

Keywords: variable fertilization, EDEM simulation, soybean corn compound planting, spiral fertilizer apparatus

DOI: 10.25165/j.ijabe.20251806.9691

Citation:Ding L, Wang K X, Yuan Y C, Li Y Y, Chen H H, Zhang Z, et al. Design and experiment of the variable rate fertilization system for soybean and maize strip compound planting. Int J Agric & Biol Eng, 2025; 18(6): 122–134.

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