华中农业大学梁方副教授等:秸秆还田直刀-L型刀组合式粉碎刀辊设计与试验
- 2026-06-16 14:31:08
刘杰1,展森朋1,杨宇婧1,舒鑫1,梁方1,2*
(1.华中农业大学工学院,武汉430070,中国;
2.农业农村部长江中下游农业装备重点实验室,武汉430070,中国)
摘要:为提高水稻秸秆粉碎程度与抛撒均匀度,结合水稻秸秆留茬高、密度大、韧性强的特点,发挥直刀粉碎揉丝和L型刀切削粉碎作用,该研究设计水稻秸秆粉碎旋耕埋覆还田机直刀-L型刀组合式粉碎刀辊,进行参数优化与试验验证。以秸秆粉碎合格率和秸秆抛撒均匀度为评价指标,采用两因素四水平与两因素二水平混合水平正交试验,分析直刀-L型刀组合式粉碎刀辊径向夹角、L型刀折弯角、刀辊转速、前进速度对秸秆粉碎合格率以及秸秆抛撒均匀度的影响。
试验结果表明:影响秸秆粉碎合格率的因素由大到小依次为径向夹角、刀辊转速、L型刀折弯角、前进速度;影响秸秆抛撒均匀度的因素由大到小依次为径向夹角、L型刀折弯角、前进速度、刀辊转速;当径向夹角为70°、L型刀折弯角为135°、刀辊转速为2400 r/min、前进速度为0.60 m/s时为直刀-L型刀组合式粉碎刀辊的最优参数组合,采用最优参数组合进行验证试验,秸秆粉碎合格率为92.41%,抛撒均匀度为87.44%,与试验组相比,秸秆粉碎合格率比最大值提高1.86个百分点,与抛撒均匀度最大值仅相差0.75个百分点;相较于我国国家标准要求,粉碎合格率提高2.41个百分点,抛撒均匀度提高12.44个百分点,满足并优于国家标准;与其他组合式粉碎刀具相比,其秸秆粉碎合格率与抛撒均匀性均优于其他组合式粉碎刀具。研究结果可为降低水稻秸秆还田对后茬作物的不利影响提供理论与技术支撑。
关键词:秸秆还田;粉碎刀辊;参数优化;田间试验
DOI: 10.25165/j.ijabe.20261901.10023
引用信息: Liu J, Zhan S P, Yang Y J, Shu X, Liang F. Design and experiment of the crushing roller equipped with straight and L-shaped combined blades for straw incorporation. Int J Agric & Biol Eng, 2026; 19(1): 88–96.
Design and experiment of the crushing roller equipped with straight and L-shaped combined blades for straw incorporation
Jie Liu1, Senpeng Zhan1, Yujing Yang1, Xin Shu1, Fang Liang1,2*
(1.College of Engineering, Huazhong Agricultural University, Wuhan 430070, China;
2. Key Laboratory of Agricultural Equipment in Mid-lower Yangtze River, Ministry of Agriculture and Rural Affairs, Wuhan 430070, China)
Abstract: In order to improve the crushing efficiency and spreading uniformity of rice straw incorporation, considering its characteristics of high stubble, dense structure, and strong toughness, a rice straw incorporation machine by crushing-rotary tillage-burying with a crushing roller equipped with straight blades and L-shaped blades was designed. This design leveraged the crushing and kneading action of the straight blades and the cutting and crushing effect of L-shaped blades. With the qualification rate of crushing straw and straw spreading uniformity as evaluation indicators, a mixed-level orthogonal experiment (four levels for two factors and two levels for two factors) was conducted to analyze the effects of radial angle, L shaped blade bending angle, rotational speed, and forward speed on the qualification rate of crushing straw and straw spreading uniformity. The results showed that the factors affecting the qualification rate of crushing straw, in descending order of significance, were radial angle, rotational speed, and L-shaped blade bending angle. Those affecting straw spreading uniformity, in the same order of significance evaluation, were radial angle, L-shaped blade bending angle, forward speed, and rotational speed. The optimal parameter combination was determined as a radial angle of 70°, an L-shaped blade bending angle of 135°, a rotational speed of 2400 r/min, and a forward speed of 0.60 m/s. The experiment was conducted using the optimal parameter combination, the qualification rate of crushing straw reached 92.41%, and the straw spreading uniformity was 87.44%. Compared with the best-performing experimental group, the qualification rate of crushing straw increased by 1.86 percentage points, while the straw spreading uniformity was only 0.75 percentage points lower than the maximum value. Compared to China’s national standard requirements, the optimized results show a 2.41 percentage point increase in straw crushing qualification rate and a 12.44 percentage point increase in straw spreading uniformity, thus meeting and exceeding China’s national standards. The qualification rate of straw crushing and the uniformity of straw spreading were better than other combined blades. This study provides both theoretical and technical support for reducing the adverse effects of rice straw incorporation on subsequent crops.
Keywords: straw incorporation, crushing roller, parameter optimization, field experiment
DOI: 10.25165/j.ijabe.20261901.10023
Citation:Liu J, Zhan S P, Yang Y J, Shu X, Liang F. Design and experiment of the crushing roller equipped with straight and L-shaped combined blades for straw incorporation. Int J Agric & Biol Eng, 2026; 19(1): 88–96.
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