DESIGN AND EXPERIMENT OF A SINGLE-ROW SMALL GRAIN PRECISION SEEDER

IF 0.6 Q4 AGRICULTURAL ENGINEERING INMATEH-Agricultural Engineering Pub Date : 2023-08-17 DOI:10.35633/inmateh-70-12
J. Sun, Liqin Yang, Baohui Xu, Yuming Guo
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Abstract

In order to meet the precision seeding of small seeds including millet and broomcorn millet in hilly and mountainous areas, a single-row small grain precision seeder was developed. Static seeding test and seeding test were carried out on the seeder. In this paper, the key parts such as socket wheel-ring groove seed metering device, transmission system and tensioning wheel are designed. The working parts such as arrow shovel furrow opener, plastic seed tube and hollow cast iron press wheel were selected to achieve seed metering. The seed metering wheel has double-row of holes. The results of static seeding test showed that rotational speed had a significant effect on the sowing quantity of millet and broomcorn millet (P < 0.001). The higher the rotational speed, the greater the sowing quantity. With the increase of rotational speed of seed metering wheel, the damage rate of millet and broomcorn millet increased. At the same rotational speed, the breakage rate of broomcorn millet is smaller than that of millet. The field sowing test showed that when the seeder is at a marching speed of about 0.5 m/s, the qualified rate of the hole spacing of millet and broomcorn millet is greater than or equal to 90%, and the qualified rate of the number of grains per hole is greater than or equal to 82%. All indicators meet the requirements of the technical conditions of single-grain (precision) seeder. The design can provide reference for the design and optimization of small grain precision seeder.
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单排小粒精密播种机的设计与试验
为满足丘陵山区谷子、糜子等小粒种子的精准播种,研制了单排小粒精准播种机。在播种机上进行了静态播种试验和播种试验。本文对套筒轮环槽排种装置、传动系统、张紧轮等关键部件进行了设计。选用箭铲开沟器、塑料种管、空心铸铁压轮等工作部件实现排种。排种轮有双排孔。静态播种试验结果表明,转速对谷子和糜子的播种量有显著影响(P < 0.001)。转速越高,播种量越大。随着排种轮转速的增加,谷子和黍子的受害率均增加。在相同转速下,糜子的破碎率比谷子小。田间播种试验表明,当播种机以约0.5 m/s的行进速度时,谷子、黍子的孔间距合格率大于等于90%,每孔粒数合格率大于等于82%。各项指标均符合单粒(精密)播种机技术条件要求。该设计可为小粒精密播种机的设计与优化提供参考。
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来源期刊
INMATEH-Agricultural Engineering
INMATEH-Agricultural Engineering AGRICULTURAL ENGINEERING-
CiteScore
1.30
自引率
57.10%
发文量
98
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