采煤机螺旋滚筒动态截割过程研究
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摘要
为研究采煤机螺旋滚筒动态截割过程动力传递规律,基于相似理论建立螺旋滚筒模型与原型的相似准则,确定了模拟螺旋滚筒结构参数、运动学参数及截割材料特性参数,应用三维实体建模软件Pro/E、离散元分析软件EDEM联合仿真分析验证原型滚筒和模型滚筒动态截割过程中煤颗粒运动轨迹、量变规律、滚筒装煤率、滚筒载荷等性能。验证结果表明:原型滚筒和模型滚筒在截割过程中煤颗粒流动轨迹一致,截落的煤分布规律相似,载荷波动规律一致,滚筒装煤率预测误差1.82%,载荷数值误差小于2.1%,装煤率和载荷均值均满足推导的相似关系,验证了螺旋滚筒相似准则正确性。
In order to study the dynamic cutting processes and coal power transfer laws of a shearer' s drum,its model drum was built based on the similarity theory; the prototype was similar to the parameters of similarity criterion. The structural parameters,movement parameters and cutting material characteristics of the drum to be simulated are determined. The Pro/E and EDEM were applied. The simulation analysis and verification of the prototype drum,the dynamic cutting process,coal particles' motion trail,quantitative change rule,coal rate and drum loading are the same. The cylinder model validation results show that the prototype drum' s coal particle distributions are similar in the cutting process; the drum's coal rate prediction error is 1.82%; the loading error is less than 2.1%; the coal rate and loading are satisfactory,verifying the accuracy of the drum's similarity criterion.
In order to study the dynamic cutting processes and coal power transfer laws of a shearer' s drum,its model drum was built based on the similarity theory; the prototype was similar to the parameters of similarity criterion. The structural parameters,movement parameters and cutting material characteristics of the drum to be simulated are determined. The Pro/E and EDEM were applied. The simulation analysis and verification of the prototype drum,the dynamic cutting process,coal particles' motion trail,quantitative change rule,coal rate and drum loading are the same. The cylinder model validation results show that the prototype drum' s coal particle distributions are similar in the cutting process; the drum's coal rate prediction error is 1.82%; the loading error is less than 2.1%; the coal rate and loading are satisfactory,verifying the accuracy of the drum's similarity criterion.
引文
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[15]田雨.基于EDEM的滚磨光整加工机理分析和参数优化[D].太原:太原理工大学,2014Tian Y. Mechanism analysis and parameter optimization of barrel finishing based on EDEM[D]. Taiyuan:Taiyuan University of Technology,2014(in Chinese)
[16]毛君,刘歆妍,陈洪月,等.基于EDEM的采煤机滚筒工作性能的仿真研究[J].煤炭学报,2017,42(4):1069-1077Mao J,Liu X Y,Chen H Y,et al. Simulation of shearer drum cutting performance based on EDEM[J].Journal of China Coal Society, 2017,42(4):1069-1077(in Chinese)
[2] Reid A W,McAree P R,Meehan P A,et al. Longwall shearer cutting force estimation[J]. Journal of Dynamic Systems, Measurement, and Control, 2014, 136(3):031008
[3]司鹄,王丹丹,李晓红.高压水射流破岩应力波效应的数值模拟[J].重庆大学学报,2008,31(8):942-945Si H, Wang D D, Li X H. Stress wave effect in numerical simulation on rock breaking under highpressure water jet[J]. Journal of Chongqing University,2008,31(8):942-945(in Chinese)
[4]赵丽娟,何景强,许军,等.截齿排列方式对薄煤层采煤机载荷的影响[J].煤炭学报,2011,36(8):1401-1406Zhao L J,He J Q,Xu J,et al. Effect of pick arrangement on the load of shearer in the thin coal seam[J].Journal of China Coal Society,2011,36(8):1401-1406(in Chinese)
[5]张强,王海舰,吴泽光,等.滚筒式采煤机煤岩截割力学特性及测试系统研究[J].工程设计学报,2017,24(4):459-479Zhang Q,Wang H J,Wu Z G,et al. Research of coalrock cutting mechanical characteristic and test system for drum shearer[J]. Chinese Journal of Engineering Design,2017,24(4):459-479(in Chinese)
[6]赵宏梅.基于相似理论的叶片倾斜布置螺旋滚筒装煤性能的研究[J].机械设计与制造,2009(7):163-165Zhao H M. Research on loading performance of lean vanes based on similarity for spiral drum[J]. Machinery Design&Manufacture, 2009(7):163-165(in Chinese)
[7]彭天好,王光耀,张义龙,等.基于相似理论的采煤机模拟螺旋滚筒的设计[J].工程设计学报,2016,23(4):322-326Peng T H,Wang G Y,Zhang Y L,et al. Design of shearer simulated spiral drum based on similarity theory[J].Journal of Engineering Design,2016,23(4):322-326(in Chinese)
[8]麻晓红,于信伟.基于相似理论的连续采煤机滚筒参数设计[J].黑龙江科技学院学报,2008,18(2):111-113Ma X H,Yu X W. Parameter design of continuous miner cutting drum based on similarity theory[J].Journal of Heilongjiang Institute of Science&Technology,2008,18(2):111-113(in Chinese)
[9]王光耀.基于相似理论的采煤机调高试验装置设计研究[D].安徽淮南:安徽理工大学,2016Wang G Y. Design and study of tester for shearer heightadjustment based on similarity theory[D]. Anhui Huainan:Anhui University of Science and Technology,2016(in Chinese)
[10]刘送永.采煤机滚筒截割性能及截割系统动力学研究[D].江苏徐州:中国矿业大学,2009Liu S Y. Research on cutting performance of shearer drum and cutting system dynamics[D]. Jiangsu Xuzhou:China University of Mining and Technology,2009(in Chinese)
[11]任芳.基于多传感器数据融合技术的煤岩界面识别的理论与方法研究[D].太原:太原理工大学,2003Ren F. Study on the theory and method of coal-rock interface recognition based on multi-sensor data fusion technique[D]. Taiyuan:Taiyuan University of Technology,2003(in Chinese)
[12]姜鹏.基于离散元法的碾米机三维仿真分析[D].哈尔滨:东北农业大学,2013Jiang P. Based on the discrete element method of rice mill three-dimensional simulation analysis[D]. Harbin:Northeast Agricultural University,2013(in Chinese)
[13]王国强,郝万军,王继新.离散单元法及其在EDEM上的实践[M].西安:西北工业大学出版社,2010:34-58Wang G Q,Hao W J,Wang J X. Discrete element method and its application in practice on the EDEM[M].Xi'an:Northwestern Polytechnical University Press,2010:34-58(in Chinese)
[14]周文君,卫红波.基于EDEM的带式输送机输送过程仿真及分析[J].煤矿机械,2013,34(5):89-91Zhou W J,Wei H B. Simulation and analysis of belt conveyor based on EDEM software[J]. Coal Mine Machinery,2013,34(5):89-91(in Chinese)
[15]田雨.基于EDEM的滚磨光整加工机理分析和参数优化[D].太原:太原理工大学,2014Tian Y. Mechanism analysis and parameter optimization of barrel finishing based on EDEM[D]. Taiyuan:Taiyuan University of Technology,2014(in Chinese)
[16]毛君,刘歆妍,陈洪月,等.基于EDEM的采煤机滚筒工作性能的仿真研究[J].煤炭学报,2017,42(4):1069-1077Mao J,Liu X Y,Chen H Y,et al. Simulation of shearer drum cutting performance based on EDEM[J].Journal of China Coal Society, 2017,42(4):1069-1077(in Chinese)