ZS-2540×1200型电磁振动给料机厚料层颗粒的运动仿真
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摘要
为了探究ZS-2540×1200型电磁振动给料机的物料颗粒在厚料层状态下的运动规律,基于离散单元法,分别对厚料层和薄料层状态下该给料机输送过程中的物料颗粒运动进行仿真。仿真结果表明:两种状态下的物料颗粒运动有所不同,薄料层的物料颗粒呈持续跳跃运动规律,而厚料层底部局部颗粒运动出现较大波动,中上层颗粒运动较为平缓,无明显波动且呈蠕动状态;厚料层的物料颗粒运动的动力源在自下而上能量传递过程中,颗粒相互碰撞使能量被耗散出现衰减,而底层物料颗粒运动受到了上层物料颗粒的压迫,导致不同高度颗粒的运动规律出现差异。仿真结果为电磁振动给料机的维护及优化设计提供了参考。
In order to explore the motion laws of the particles in thick material layer on ZS-2540×1200 electromagnetic vibrating feeder, the motion laws of the particles in thick material layer and thin material layer during operation of the feeder were simulated separately. The simulation results showed: the motion of the particles in thick material layer and in thin material layer differed, the particles in thin material layer kept continuous jumping motion, while the bottom particles in thick material layer appeared considerable fluctuation,but the middle and the top particles moved gently, showing creeping status without obvious fluctuation; during the energy delivery process of the power source of particles in thick material layer, the energy was dissipated and attenuated due to collision of particles, while the motion of bottom particles was pressed by the upper particles, which led to the difference in motion laws of particles at various height. The simulation results offered reference for maintenance and optimization design of the electromagnetic vibrating feeder.
In order to explore the motion laws of the particles in thick material layer on ZS-2540×1200 electromagnetic vibrating feeder, the motion laws of the particles in thick material layer and thin material layer during operation of the feeder were simulated separately. The simulation results showed: the motion of the particles in thick material layer and in thin material layer differed, the particles in thin material layer kept continuous jumping motion, while the bottom particles in thick material layer appeared considerable fluctuation,but the middle and the top particles moved gently, showing creeping status without obvious fluctuation; during the energy delivery process of the power source of particles in thick material layer, the energy was dissipated and attenuated due to collision of particles, while the motion of bottom particles was pressed by the upper particles, which led to the difference in motion laws of particles at various height. The simulation results offered reference for maintenance and optimization design of the electromagnetic vibrating feeder.
引文
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[2]苏江,杨志刚,张长健,等.圆形压电振子驱动式直线振动给料器[J].农业机械学报,2013,44(9):289-292.
[3]于月民,丁元柱.电磁振动给料机的振动分析[J].煤矿机械,2000(12):28-30.
[4]GROCHOWSKI R,STRUGHOLTZ S,WALZEL P,et al.Granular transport on vibratory conveyor[J].Chemic Ingenieur Technik,2003,75(8):1103.
[5]田晓超,杨志刚,刘勇,等.磁力弹簧式压电振动送料器的设计与试验[J].哈尔滨工程大学学报,2014,35(12):1548-1552.
[6]SHEN Yanhu,YANG Zhigang,LIU Yong,et al.Theoretical analysis&experimental research on piezoelectric vibration feeder by vertical driving[J].Advanced Materials Research,2013,706/708:1831-1836.
[7]周先齐,徐卫亚,钮新强,等.离散单元法研究进展及应用综述[J].岩土力学,2007,28(S1):408-416.
[8]周池楼,赵永志.离散单元法及其在流态化领域的应用[J].化工学报,2014,65(7):2520-2534.
[9]HASSANPOUR A,TAN Hongsing,BAYLY A,et al.Analysis of particle motion in a paddle mixer using Discrete Element Method(DEM)[J].Powder Technology,2011,206(1/2):189-194.
[10]BI Yuzhang,HE Siming,LI Xinpo,et al.Geo-engineered buffer capacity of two-layered absorbing system under the impact of rock avalanches based on discrete element method[J].Journal of Mountain Science,2016,13(5):917-929.
[11]沈燕虎,杨志刚,刘勇,等.垂直驱动式压电振动送料器的设计[J].上海交通大学学报,2014,48(8):1149-1154.
[12]张春良,梅德庆,陈子辰.电磁式振动给料机的混合隔振研究[J].兵工学报2005,26(3):362-366.
[13]苏江,沈燕虎,杨志刚,等.环形压电双晶片驱动式振动送料器[J].振动、测试与诊断,2014,34(1):52-56.
[14]郭宝良,段志善,郑建校,等.非谐和水平振动输送机的物料运动分析[J].机械工程学报,2012,48(1):104-110.
[15]ALIAN M,EIN-MOZAFFARI F,UPRETI S R.Analysis of the mixing of solid particles in a plowshare mixer via discrete element method(DEM)[J].Powder Technology,2015,274:77-87.
[16]杨国华,陈清如.振动穿流床煤炭干燥动力学研究[J].煤炭学报,1998,23(6):644-648.
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