基于变速趋近律的采煤机调高滑模控制研究
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摘要
为研究采煤机自动调高的控制方法,构建电液比例阀与采煤机调高油缸的耦合数学模型,运用现代控制理论建立采煤机调高系统的状态方程,采用基于变速趋近律的滑模变结构控制方法设计采煤机调高系统控制器,并在Simulink中搭建采煤机调高系统的控制模型,最后以正弦激励和阶跃激励为输入进行控制系统仿真,并将仿真结果与传统滑模控制进行比较,结果表明:采用基于变速趋近律的滑模变结构控制方法与传统方法相比,具有抖振小,控制速度快等优点,能够很好地实现采煤机滚筒快速、平稳的自动调整。
In order to study the automatic height adjustment control method of shearer, the coupling mathematical model for the electro-hydraulic proportional valve and steering cylinder of shearer is set up. The state equation of the shearer height adjusting system is established by using the modem control theory. The controller of the shearer height adjusting system is designed based on the sliding mode structure control method with the variable rate reaching law, and the control model is built in Simulink. Finally, the simulation of the control system is carried out by the sine excitation and step excitation, and the simulation results are compared with the traditional sliding mode control. The results indicate that, compared with the traditional method, the sliding mode structure control method with the variable rate reaching law has the advantages of small chattering, fast control response and so on, it can also achieve the automatic adjustment of the shearer drum quickly and smoothly.
In order to study the automatic height adjustment control method of shearer, the coupling mathematical model for the electro-hydraulic proportional valve and steering cylinder of shearer is set up. The state equation of the shearer height adjusting system is established by using the modem control theory. The controller of the shearer height adjusting system is designed based on the sliding mode structure control method with the variable rate reaching law, and the control model is built in Simulink. Finally, the simulation of the control system is carried out by the sine excitation and step excitation, and the simulation results are compared with the traditional sliding mode control. The results indicate that, compared with the traditional method, the sliding mode structure control method with the variable rate reaching law has the advantages of small chattering, fast control response and so on, it can also achieve the automatic adjustment of the shearer drum quickly and smoothly.
引文
[1]曾庆良,张海忠,王成龙等.采煤机调高系统的机液协同仿真分析[J].煤炭科学技术,2015,43(1):86-90.Zeng Q L, Zhang H Z, Wang C L,et al.Analysis on mechanic and hydraulic collaborated simulation of height adjusting system in coal shearer[J].Coal Science and Technology,2015,43(1):86-90.
[2]苏秀平,李威,樊启高.采煤机滚筒调高滑模变结构控制策略[J].煤炭学报,2012,37(12):2107-2111.Su X P, Li W, Fan Q G.A shearer drum height adjusting strate gy using sliding-mode variable structure control[J].Journal of Chi na Coal Society,2012,37(12):2107-2111.
[3]毛君,杨振华,潘德文.基于自适应模糊滑模变结构的采煤机自动调高控制策略[J].中国机械工程,2016,27(3):360-364.Mao J, Yang Z H, Pan D W.Control Strategy of Shearer Auto matic Height Adjusting Based on Adaptive Fuzzy Sliding-mode Variable Structure[J]. China Mechanical Engineering,2016,27(03):360-364.
[4]刘鹏,孟磊,王勃等.基于位姿测量与煤层DEM的采煤机滚简自动调高方法[J].煤炭学报,2015,40(2):470-475.Liu P, Meng L, Wang B, et al.An automatic height adjustment method for shearer drums based on pose measurement and coal seam DEM[J].Joumal of China Coal Society,2015,40(02):470-47
[5]刘春生,荆凯,万丰.采煤机滚筒记忆程控液压调高系统的仿真[J].中国工程机械学报,2007,5(2):142-146.Liu C S, Jin K, Wang F.Simulation of memory programmed hy draulic control system for height adjustment of shearer's drum[J].Chinese Journal of Construction Machinery,2007,5(2):142-146.
[6]郭卫,王滨,梁鑫等.基于电液比例控制的采煤机调高液压系统仿真[J].煤矿机械,2015,36(5):122-124.Guo W, Wang B, Liang X,et al.Simulation and Analysis of She arer Lifts Hydraulic System Based on Electro-hydraulic Proporti onal Control[J].Coal Mine Machinery,2015,36(05):122-124.
[7]叶小华.阀控非对称缸系统的建模与控制方法研究[D].合肥工业大学,2015.Ye X H.Research on Modeling and Control Method of Value-c ontrolled Asymmetrical Cylinder System[D].Hefei University of Technology,2015.
[8]强宝民,刘保杰.阀控非对称液压缸建模方法研究[J].装备制造技术,2011,39(03):9-12.Qiang B M, Liu B J.Research on Modeling Method of Value-c ontrolled Asymmetrical Cylinder System[D].Equipment Manufact uring Technology,2011,39(03):9-12.
[9]柏艳红,权龙,郝小星等.基于流量近似的阀控液压缸动力机构建模[J].机械工程学报,2014,50(24):179-185.Bai Y H, Quan L, Hao X X,et al.Modeling of Hydraulic Valve-controlled Cylinder Power Mechanism Based on Flow Approxi mation[J].Journal of Mechanical Engineering,2014,50(24):179-185.
[10]江桂云,王勇勤,严兴春.液压伺服阀控缸动态特性数学建模及仿真分析[J].四川大学学报(工程科学版),2018,40(05):195-198.Jiang G Y, Wang Y Q, Yan X C.Mathematics Modeling and S imulation Analysis of Dynamic Characteristics for Hydraulic Cyl inder Controlled by Servo-valve[J].Journal of Sichuan University(engineering science edition),2008,40(05):195-198.
[11]肖体兵,肖世耀,廖辉等.三位四通电液比例阀控缸动力机构的数学建模[J].机床与液压,2008,36(08):80-82+132.Xiao T B, Xiao S Y, Liao H,et al.Mathematics Modeling of th e Actuating Unit with a 4/3-way Electro-hydraulic Proportional Valve Controlling Cylinder[J].Machine Tool&Hydraulics,2008,36(08):80-82+132.
[12]付永领,祁晓野.AMESim系统建模和仿真一从入门到精通[M].北京:航空航天大学出版社,2005.Fu Y L, QI X Y.AMESim system modeling and simulation fro m entry to proficiency[M]. Beijing:Aerospace University Press,2005.
[13]任建亭,吴克恭,闫云聚等.电流变液夹层梁滑模振动控制的研究[J].机械强度,2002,24(02):180-184+205.Ren J T, Wu K G, Yan Y J,et al.Active Vibration Control of an Electrorheological Sandwich Beam Using Sliding Control Me thod[J]Joumal of MechanicalStrength,2002,24(02):180-184+205
[14]黄培,王欣源.转台伺服系统的自适应模糊滑模逼近控制[J].机械强度,2016,38(04):749-753.Huang P, Wang X Y.Adaptive Fuzzy Sliding Mode Control For The Turntable Servo System[J].Joumal of Mechanical Strength,2016,38(04):749-753.
[2]苏秀平,李威,樊启高.采煤机滚筒调高滑模变结构控制策略[J].煤炭学报,2012,37(12):2107-2111.Su X P, Li W, Fan Q G.A shearer drum height adjusting strate gy using sliding-mode variable structure control[J].Journal of Chi na Coal Society,2012,37(12):2107-2111.
[3]毛君,杨振华,潘德文.基于自适应模糊滑模变结构的采煤机自动调高控制策略[J].中国机械工程,2016,27(3):360-364.Mao J, Yang Z H, Pan D W.Control Strategy of Shearer Auto matic Height Adjusting Based on Adaptive Fuzzy Sliding-mode Variable Structure[J]. China Mechanical Engineering,2016,27(03):360-364.
[4]刘鹏,孟磊,王勃等.基于位姿测量与煤层DEM的采煤机滚简自动调高方法[J].煤炭学报,2015,40(2):470-475.Liu P, Meng L, Wang B, et al.An automatic height adjustment method for shearer drums based on pose measurement and coal seam DEM[J].Joumal of China Coal Society,2015,40(02):470-47
[5]刘春生,荆凯,万丰.采煤机滚筒记忆程控液压调高系统的仿真[J].中国工程机械学报,2007,5(2):142-146.Liu C S, Jin K, Wang F.Simulation of memory programmed hy draulic control system for height adjustment of shearer's drum[J].Chinese Journal of Construction Machinery,2007,5(2):142-146.
[6]郭卫,王滨,梁鑫等.基于电液比例控制的采煤机调高液压系统仿真[J].煤矿机械,2015,36(5):122-124.Guo W, Wang B, Liang X,et al.Simulation and Analysis of She arer Lifts Hydraulic System Based on Electro-hydraulic Proporti onal Control[J].Coal Mine Machinery,2015,36(05):122-124.
[7]叶小华.阀控非对称缸系统的建模与控制方法研究[D].合肥工业大学,2015.Ye X H.Research on Modeling and Control Method of Value-c ontrolled Asymmetrical Cylinder System[D].Hefei University of Technology,2015.
[8]强宝民,刘保杰.阀控非对称液压缸建模方法研究[J].装备制造技术,2011,39(03):9-12.Qiang B M, Liu B J.Research on Modeling Method of Value-c ontrolled Asymmetrical Cylinder System[D].Equipment Manufact uring Technology,2011,39(03):9-12.
[9]柏艳红,权龙,郝小星等.基于流量近似的阀控液压缸动力机构建模[J].机械工程学报,2014,50(24):179-185.Bai Y H, Quan L, Hao X X,et al.Modeling of Hydraulic Valve-controlled Cylinder Power Mechanism Based on Flow Approxi mation[J].Journal of Mechanical Engineering,2014,50(24):179-185.
[10]江桂云,王勇勤,严兴春.液压伺服阀控缸动态特性数学建模及仿真分析[J].四川大学学报(工程科学版),2018,40(05):195-198.Jiang G Y, Wang Y Q, Yan X C.Mathematics Modeling and S imulation Analysis of Dynamic Characteristics for Hydraulic Cyl inder Controlled by Servo-valve[J].Journal of Sichuan University(engineering science edition),2008,40(05):195-198.
[11]肖体兵,肖世耀,廖辉等.三位四通电液比例阀控缸动力机构的数学建模[J].机床与液压,2008,36(08):80-82+132.Xiao T B, Xiao S Y, Liao H,et al.Mathematics Modeling of th e Actuating Unit with a 4/3-way Electro-hydraulic Proportional Valve Controlling Cylinder[J].Machine Tool&Hydraulics,2008,36(08):80-82+132.
[12]付永领,祁晓野.AMESim系统建模和仿真一从入门到精通[M].北京:航空航天大学出版社,2005.Fu Y L, QI X Y.AMESim system modeling and simulation fro m entry to proficiency[M]. Beijing:Aerospace University Press,2005.
[13]任建亭,吴克恭,闫云聚等.电流变液夹层梁滑模振动控制的研究[J].机械强度,2002,24(02):180-184+205.Ren J T, Wu K G, Yan Y J,et al.Active Vibration Control of an Electrorheological Sandwich Beam Using Sliding Control Me thod[J]Joumal of MechanicalStrength,2002,24(02):180-184+205
[14]黄培,王欣源.转台伺服系统的自适应模糊滑模逼近控制[J].机械强度,2016,38(04):749-753.Huang P, Wang X Y.Adaptive Fuzzy Sliding Mode Control For The Turntable Servo System[J].Joumal of Mechanical Strength,2016,38(04):749-753.
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