摘要
基于现代大型农用拖拉机,利用AMESim对应用负载敏感系统的大型拖拉机后悬挂液压提升系统进行仿真分析,使模型能够真实模拟大型拖拉机液压提升系统在在实际工况中的应用,并验证了负载敏感系统应用于后悬挂液压系统的可行性和节能性。
Based on the modern large-scale farm tractors,using AMESim make a simulation analysis for large tractor rear suspension hydraulic lift system which apply load sensitive system,model can simulate the real large tractor hydraulic lift system in the actual working condition,application of load sensitive system to the rear suspension is proved the feasibility and energy saving of hydraulic system.
引文
[1]杨树成.液压技术在农用拖拉机上的应用[J].农机适用与维修,2016(8):57-57.
[2]纪云锋,陈欠根,张新海.负载传感系统及其应用[J].装备制造技术,2003(4):10-12.
[3]范海波,金健,王祖林,等.基于AMESim电液比例变量柱塞泵仿真[J].流体传动与控制,2013(1):11-14.
[4]罗威,邹大鹏,肖体兵,等.基于AMESim的恒压变量柱塞泵的建模与仿真分析[J].机床与液压,2017,45(5):100-103.
[5]贾文华,殷晨波,曹东辉.基于AMESim/MATLAB的液压换向阀的优化设计[J].机床与液压,2013,41(15):182-183.
[6]倪向东,梅卫江.国外大功率拖拉机新技术新结构和发展趋势的研究[J].农机化研究,2007(1):25-27.
[7]Heliodoro Catalan,Pilar Linares,Valerian Mendez.Tractor_PT.A Traction Prediction Software for Agricultural Tractors[J].Computers and Electronics in Agriculture,2008,60(2):289-295.
[8]Pavel V.Osinenko,Mike Geissler,Thomas Herlitzius.A Method of Optimal Traction Control for Farm Tractors with Feedback of Drive Torque[J].Biosystems Engineering,2015,129:20-33.
[9]吕杰.农用拖拉机后悬挂液压系统的控制研究[D].秦皇岛:燕山大学,2016.
[10]王纪森,林志纲.基于AMESim的负载敏感系统仿真与分析[J].机床与液压,2012,40(8):78-79.