采煤机生物学模型构建及技术参数预测
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摘要
为提高采煤机主体参数设计的效率和综采三机的协同配合效率,面向采煤机技术参数设计过程以及综采三机之间协同配合过程,借鉴生态学基本概念进行采煤机技术参数设计,提出采煤机生物学模型。研究了采煤机相关技术参数,确定参数之间的潜在关联以及采煤机与液压支架、刮板输送机之间的协同配合关系,并基于极限学习机建立采煤机技术参数预测模型。经试验表明该模型精度保持在95%以上,符合应用要求。利用预测模型实现采煤机技术参数及输送机和液压支架配套参数求解,提高了设计效率和设计质量。
To improve the efficiency of the main parameters of the shearer and the synergistic efficiency of the fully mechanized mining,the technical parameters of the shearer and the synergy process between the three fully mechanized mining machines are used to learn the technical parameters of the shearer,propose a biological model of shearer. The technical parameters of the shearer are studied,the potential relationship between the parameters is determined, and the synergistic relationship between the shearer and the hydraulic support and the scraper conveyor is established. Based on the extreme learning machine,the technical parameters prediction model of the shearer is established. The experiments show that the accuracy of the model is above 95%,which meets the application requirements. The prediction model is used to solve the technical parameters of shearer and the matching parameters of conveyor and hydraulic support,which improves the design efficiency and quality.
To improve the efficiency of the main parameters of the shearer and the synergistic efficiency of the fully mechanized mining,the technical parameters of the shearer and the synergy process between the three fully mechanized mining machines are used to learn the technical parameters of the shearer,propose a biological model of shearer. The technical parameters of the shearer are studied,the potential relationship between the parameters is determined, and the synergistic relationship between the shearer and the hydraulic support and the scraper conveyor is established. Based on the extreme learning machine,the technical parameters prediction model of the shearer is established. The experiments show that the accuracy of the model is above 95%,which meets the application requirements. The prediction model is used to solve the technical parameters of shearer and the matching parameters of conveyor and hydraulic support,which improves the design efficiency and quality.
引文
[1]王金华.我国煤矿开采机械装备及自动化技术新进展[J].煤炭科学技术,2013,41(1):1-4.
[2]任怀伟.我国煤矿综采装备技术的主要进展和发展趋势[J].煤矿开采,2014,19(6):11-16.
[3]段琦,丁华,王义亮,邓金涛.综采装备三机配套概念设计系统[J].工矿自化,2018,44(7):11-16.
[4]丁华,杨兆建.采煤机概念设计融合推理模型研究与实践[J].煤炭学报,2010,35(10):1748-1753.
[5]丁华,杨兆建,王义亮.基于知识工程的采煤机数字化设计系统研究[J].机械设计,2011,28(4):5-19.
[6]姚晶,杨兆建,丁华.基于实例推理的电牵引采煤机概念设计系统研究[J].煤矿机械,2011,32(3):15-17
[7]徐天彬.特大型矿井超长综采面设备选型配套研究[J].煤炭工程,2010,42(4):2-4.
[8]郑伟.薄煤层开采设备选型配套研究[J].煤炭工程,2010,42(3):4-6.
[9]吴勇生,贾玲.综采工作面三机选型配套研究[J].中国资源综合利用,2012,30(4):62-64.
[10]王国法,庞义辉,马英.特厚煤层大采高综放自动化开采技术与装备[J].煤炭工程,2018,50(1):1-6.
[11]丁华,邓金涛,王义亮,等.采煤机概念设计生态学模型构建与实现[J].煤炭学报,2018,43(7):2068-2076.
[2]任怀伟.我国煤矿综采装备技术的主要进展和发展趋势[J].煤矿开采,2014,19(6):11-16.
[3]段琦,丁华,王义亮,邓金涛.综采装备三机配套概念设计系统[J].工矿自化,2018,44(7):11-16.
[4]丁华,杨兆建.采煤机概念设计融合推理模型研究与实践[J].煤炭学报,2010,35(10):1748-1753.
[5]丁华,杨兆建,王义亮.基于知识工程的采煤机数字化设计系统研究[J].机械设计,2011,28(4):5-19.
[6]姚晶,杨兆建,丁华.基于实例推理的电牵引采煤机概念设计系统研究[J].煤矿机械,2011,32(3):15-17
[7]徐天彬.特大型矿井超长综采面设备选型配套研究[J].煤炭工程,2010,42(4):2-4.
[8]郑伟.薄煤层开采设备选型配套研究[J].煤炭工程,2010,42(3):4-6.
[9]吴勇生,贾玲.综采工作面三机选型配套研究[J].中国资源综合利用,2012,30(4):62-64.
[10]王国法,庞义辉,马英.特厚煤层大采高综放自动化开采技术与装备[J].煤炭工程,2018,50(1):1-6.
[11]丁华,邓金涛,王义亮,等.采煤机概念设计生态学模型构建与实现[J].煤炭学报,2018,43(7):2068-2076.
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