摘要
针对马来西亚安邦延伸线轻轨车辆运营过程中液压制动系统故障的原因进行分析,并给出相应的预防处理措施,有效控制了降低了制动系统故障率,提高了车辆运行质量。
Analyze the failure reason of Malaysia ampang line hydraulic brake system, and come out with preventive solution to reduce the risk of brake system failure and increase the quality of trian operation.
引文
[1]龚朴.中低速磁浮转向架综合检测技术研究和设备研制[J].新型工业化,2018(8):79-83.GONG Pu.Research and Equipment Development of Comprehensive Inspection Technology for Medium Low Speed Maglev Bogies[J].The Journal of New Industrialization,2018(8):79-83.
[2]彭赛庄,朱晓青,秦斌,等.基于SVPWM控制的地铁再生制动能量吸收系统的仿真研究[J].新型工业化,2015(3):20-27PENG Sai-zhuang,ZHU Xiao-qing,QIN Bin,et al.The Simulation Research of the Subway Regenerative Braking Energy Absorption System based on SVPWM Control[J].The Journal of New Industrialization,2015(3):20-27.
[3]王伟波,段继超.马来西亚安邦延伸线车辆液压制动系统管路设计[J].电力机车与城轨车辆,2014(3):36-39.WANG Wei-bo,DUAN Ji-chao.Pipe design of hydraulic brake system for Malaysia Ampang Line extension project[J].Electric Locomotives&Mass Transit Vehicles,2014(3):36-39.
[4]高小波,段继超,熊梅.低地板有轨电车液压制动系统选型研究[J].电力机车与城轨车辆,2017(1):7-10.GAO Xiao-bo,DUAN Ji-chao,XIONG mei.Selection research of hydraulic brake system for low-floor tram[J].Electric Locomotives&Mass Transit Vehicles,2017(1):7-10.
[5]刘建斌.高速列车液压制动过程的仿真分析与试验研究[D].东北大学,2015LIU Jian-bin.Simulation Analysis and Experimental Study of Hydraulic Brake System for High Speed Trains[D].Northeastern university,2015
[6]胡波.低地板轻轨车辆液压制动系统EBCU的国产化研制[J].铁道车辆,2016(4):25-27.HU Bo.Development of Localization of the Hydraulic Braking System EBCU on Low Floor LRVs[J].Rolling stock,2016(4):25-27.
[7]陆发龙,许高伦,胡凯.蓄能器各参数对能量回收效率和制动安全的影响研究[J].机电工程,2016(6):655-662.LU Fa-long,XU Gao-lun,HU Kai.Influence of various parameters of accumulator on energy recovery efficiency and braking safety[J].Journal of Mechanical&Electrical Engineering,2016(6):655-662.
[8]王剑波,徐永增,张合林.液压制动系统常见故障浅析与排除[J].建筑机械化,2003(3):35-36WANg Jian-bo,XU Yong-zeng,ZHANG He-lin.Analysis and remedy of the common failures in the hydraulic braking system[J].Construction Mechanization,2003(3):35-36.