荸荠收获机弹簧辊式泥果分离装置研制  被引量：5

作　　者：张国忠[1,2] 张清洪 刘婉茹 李子涵 周勇 刘浩蓬[1,2] ZHANG Guozhong;ZHANG Qinghong;LIU Wanru;LI Zihan;ZHOU Yong;LIU Haopeng(College of Engineering,Huazhong Agricultural University,Wuhan 430070,China;Key Laboratory of Agricultural Equipment in Mid-lower Yangtze River,Ministry of Agriculture and Rural Affairs,Wuhan 430070,China)

机构地区：[1]华中农业大学工学院,武汉430070 [2]农业农村部长江中下游农业装备重点实验室,武汉430070

出　　处：《农业工程学报》2024年第2期164-175,共12页Transactions of the Chinese Society of Agricultural Engineering

基　　金：国家特色蔬菜产业技术体系专项资助项目(CARS-24-D-02);湖北省高等学校优秀中青年科技创新团队计划项目(T201934)。

摘　　要：针对荸荠收获泥果分离难、果实损伤率高的问题,根据旱地环境下荸荠采收作业需求,该研究提出一种由正反旋弹簧并排布置的荸荠收获机弹簧辊式泥果分离装置。通过对荸荠与弹簧辊的相对运动过程动力学分析,确定了影响荸荠收获泥果分离的关键因素为弹簧外径、螺距、相邻弹簧间距、高度差及弹簧转速、线径、作业速度。利用EDEM软件建立泥果混合物离散元模型,对弹簧辊结构参数与工作参数进行单因素试验,分析各因素对泥果分离效果的影响。以荸荠筛分率和土壤筛分率为指标进行二次回归正交试验,得到弹簧辊最佳参数组合为外径100 mm、螺距30 mm、间距9 mm、转速420 r/min,该参数组合下荸荠筛分率为80.00%,土壤筛分率为80.69%。进行仿真验证试验,对比试验结果与模型预测值,荸荠筛分率平均相对误差为2.09%,土壤筛分率平均相对误差为2.42%。以明果率、伤果率、破皮率、挖净率为指标开展模拟采挖试验,分析不同线径弹簧辊的泥果分离能力,确定12 mm线径弹簧兼具较好的振动筛分性能和较低的损伤率。通过实际收获试验测得作业速度0.21 m/s,作业效率0.19 m^(2)/s,碎土率75.61%,明果率82.42%,伤果率14.73%,破皮率7.01%。研究结果可为荸荠收获机研制和优化改进提供参考。This study aims to separate the soil and corm while harvesting water chestnuts on dry land.A spring roller device of soil-corm separation was also designed for the water chestnut harvester,in order to reduce the injury rate of water chestnut.Positive and negative rotating springs were arranged side by side.During the operation of the harvester,the soil-corm mixture was dug out and passed through the lifting device and rubber-roller soil removal device,and then fell into the spring roller soilcorm separation device,where the water chestnuts were further separated from the soil under the vibration and rubbing of the rotating positive and negative spiral spring rollers.The kinetic analysis was performed on the relative motion of the water chestnut and spring roller.The influencing factors on the separation performance were determined as the spring outer diameter,pitch,adjacent spring spacing,height difference and spring speed,line diameter and operation speed.The simulation of soilcorm separation was carried out to optimize the operating performance of the spring roller.The model was then established using EDEM software,including three particles:large soil clods,water chestnuts and fine-grained soil.A single-factor test was carried out on the structural and working parameters of the spring roller,in order to clarify the influence of each factor on the soil-corm separation.Taking the sieving rates of water chestnut and soil as the test indexes,the quadratic regression orthogonal test was also carried out.An optimal combination of parameters was obtained for the spring roller,where the outer diameter was 100 mm,the pitch was 30 mm,the spacing was 9 mm,and the rotational speed was 420 r/min.The better performance was achieved,where the sieving rates of water chestnut and soil were 80%,and 80.69%,respectively.The verification tests were then conducted to compare the prediction of the model.The average relative errors of water chestnut and soil sieving rate were 2.09%,and 2.42%,respectively.The simulated harvesting and o

关 键 词：农业机械 收获 荸荠 弹簧辊 泥果分离 

分 类 号：S225.4[农业科学—农业机械化工程]