花生荚果气力输送设备参数优化与试验  被引量：16

作　　者：魏海[1] 谢焕雄[1] 胡志超[1] 颜建春[1] 刘敏基[1] 徐弘博[1] 

机构地区：[1]农业部南京农业机械化研究所,南京210014

出　　处：《农业工程学报》2016年第2期6-12,共7页Transactions of the Chinese Society of Agricultural Engineering

基　　金：国家花生产业技术体系专项基金(CARS-13-产后加工机械);中国农业科学院科技创新工程(农产品分级与贮藏装备创新团队);公益性行业(农业)科研专项(201203037)

摘　　要：针对现有气力输送设备对花生荚果输送损耗大、裂荚、破碎率高等问题,改进关键部件结构,在分离筒内壁安装硅胶缓冲板,改进锁气器。通过对比,改进后锁气器能更好适应荚果输送。根据花生荚果在输送过程中受力破损机理,选取分离筒内壁硅胶缓冲板厚度、风机转速、花生荚果含水率三因素,以白沙花生为原料进行气力输送正交优化试验,考察上述三因素对荚果生产效率、裂荚率、破碎率的影响。结果表明,硅胶缓冲板厚度对目标因素影响最大,风机转速次之,花生荚果含水率影响最小。当硅胶缓冲板厚度为5 mm,风机转速2 700 r/min,花生荚果含水率10%时输送效果最佳,裂荚、破碎率降低明显。该研究可为花生气力输送设备的结构优化提供参考。As the internationally competitive oil crop and cash crop, peanuts have attracted great attention in China, and become an important export commodity and the key to the agricultural structure adjustment. Transportation equipment has directly affected the peanut quality after harvest and the degree of automation. Nowadays, people are increasingly concerned about food safety, and the quality risk of peanut pods during the process of conveying, such as dehiscence and break, has drawn more attention. Due to various factors, the peanut pods are easy to break in the process of conveying, which not only affects the later production, but also increases the risk of aflatoxin in the process of transportation and storage. Pneumatic conveying has great advantages for granular materials because of its simple structure, flexible operation and stable production efficiency and so on, which is widely used in the areas of agricultural product processing. Aiming at the problems of power loss, peanut pod＇s dehiscence and break, crushing rate and unstable production efficiency, the structure and parameters of the existing pneumatic conveying equipment were improved and optimized. Besides, the experiments were conducted in main production areas of peanut. Through analyzing, the pod＇s damage elements, including pod physical characteristics, fan speed, pod moisture content and air lock structure, were determined respectively. In the process of conveying, the impact of various forces on peanut pods would cause damage easily. To avoid these damages, the silicone buffer plate was installed on the wall of separate cylinder, which reduced the force between the material and the separate cylinder effectively. In order to adjust airflow velocity, the frequency conversion governor was installed on the conveyor equipment to control the fan speed, which could reduce the impact force to achieve the best conveying effect without the decrease of production efficiency and the break of peanut pods, when materials entered the equipment. By using WDW-

关 键 词：机械化 优化 农作物 气力输送 花生荚果 低损 试验分析 

分 类 号：S229.2[农业科学—农业机械化工程]