Design and Testing of a Shearing and Breaking Device for Mulch Film and Cotton Stalk Mixtures

IF 1.4 4区农林科学 Q3 AGRICULTURAL ENGINEERING

Transactions of the ASABE Pub Date : 2021-01-01 DOI:10.13031/TRANS.14261

Pan Feng, B. Hu, L. Xin, Guo Mengyu, He Haomeng

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引用次数: 2

Abstract

HighlightsThis article presents a shearing and breaking device for mulch film and stalk mixtures after mechanized recovery.The focus is on a curved V-shaped mechanism with three-dimensional precompression and shearing functions.The device can efficiently and continuously perform film crushing, stalk crushing, and entanglement breaking.The crushed film and stalk mixture is conducive to material separation, further treatment, and recycling.Abstract. Because the mixture of mulch film and stalks collected in harvested cotton fields in Xinjiang, China, cannot be separated mechanically, a technical solution for shearing and breaking is proposed. This study designed a shearing and breaking device for film and stalk mixtures that can continuously perform film crushing, stalk crushing, and entanglement breaking. The design focuses on a curved V-shaped shearing mechanism, which provides three-dimensional shearing and improves the crushing of film and stalks. The linear speed of the conveying rollers (x1), the working angle of the shearer (x2), and the speed of the shearer spindle (x3) were selected as influencing factors, and the crushed film rate (Ph), crushed stalk rate (Gh), and broken entanglement rate (Kh) were used as evaluation indexes in quadratic orthogonal rotation combination tests. The test results were analyzed with Design-Expert software, and a regression model between each factor and the evaluation indexes was established to analyze the significance of each factor’s influence. The results showed that the influences of the three factors on Ph in descending order were x3, x2, and x1. The order of influence on Gh and Kh was x3, x1, and x2. The optimization module in the software was used for parameter optimization, and the optimal combination of working parameters of the device was x1 = 0.98 m s-1, x2 = 153°, and x3 = 753 r min-1. The optimized parameter combination was tested and verified, and the results were Ph = 77.28%, Gh = 87.78%, and Kh = 85.30%. The test results are basically consistent with the predicted values, and the optimized working parameters are reliable and can meet the requirements for the shear fracture of film and stalk mixtures. This research provides a technical reference for the cutting and crushing of complex mixed solid materials. Keywords: Agricultural machinery, Curved V-shaped moving knife, Design, Film and stalk mixture, Parameter optimization.

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地膜与棉秆混合剪断装置的设计与试验

介绍了一种机械化回收后的地膜秸秆混合料剪切破碎装置。重点研究了具有三维预压和剪切功能的弯曲v形机构。该装置能高效、连续地进行薄膜破碎、秸秆破碎、缠结破碎。粉碎后的膜秆混合物有利于物料分离、进一步处理和回收。针对新疆棉田采收地膜与秸秆混交物无法机械分离的问题，提出了一种剪切破碎的技术解决方案。本研究设计了一种膜茎混合料剪切破碎装置，可连续进行膜破碎、秸秆破碎、缠结破碎。设计的重点是一种弯曲的v型剪切机构，它提供了三维剪切，提高了薄膜和秸秆的破碎程度。选取输送辊线速度(x1)、采煤机工作角度(x2)、采煤机主轴转速(x3)作为影响因素，以破碎膜率(Ph)、破碎秸秆率(Gh)、破碎缠结率(Kh)作为二次正交旋转组合试验的评价指标。采用Design-Expert软件对试验结果进行分析，建立各因素与评价指标之间的回归模型，分析各因素影响的显著性。结果表明，3种因素对Ph的影响程度由大到小依次为x3、x2、x1。对Gh和Kh的影响顺序依次为x3、x1和x2。利用软件中的优化模块进行参数优化，得到器件工作参数的最优组合为x1 = 0.98 m s-1, x2 = 153°，x3 = 753 r min-1。对优化后的参数组合进行了试验验证，结果为Ph = 77.28%， Gh = 87.78%， Kh = 85.30%。试验结果与预测值基本一致，优化后的工作参数可靠，能够满足膜秆混合料剪切断裂的要求。该研究为复杂混合固体材料的切割破碎提供了技术参考。关键词:农业机械，弯v形动刀，设计，膜秆混合料，参数优化

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来源期刊

Transactions of the ASABE AGRICULTURAL ENGINEERING-

CiteScore

2.30

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： This peer-reviewed journal publishes research that advances the engineering of agricultural, food, and biological systems. Submissions must include original data, analysis or design, or synthesis of existing information; research information for the improvement of education, design, construction, or manufacturing practice; or significant and convincing evidence that confirms and strengthens the findings of others or that revises ideas or challenges accepted theory.