吉林大学学报(工学版) ›› 2016, Vol. 46 ›› Issue (6): 1912-1921.doi: 10.13229/j.cnki.jdxbgxb201606021
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PENG Bei, GAO Yu, FENG Pei-en, QIU Qing-ying
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[1] 吴文海,郑辉,邓斌,等. 液压挖掘机制动能量的回收系统[J]. 机械设计与研究,2013,29(1):114-117. Wu Wen-hai,Zheng Hui, Deng Bin,et al. Research on recovering system of braking energy in hydraulic excavator[J]. Machine Design and Research,2013,29(1):114-117. [2] 林添良,杨杰,刘强,等. 新型液压挖掘机回转驱动系统仿真[J]. 华侨大学学报:自然科学版,2013,34(3): 247-252. Lin Tian-liang,Yang Jie,Liu Qiang,et al. Simulation of a new rotary driving system of hydraulic excavator[J]. Journal of Huaqiao University (Natural Science),2013,34(3):247-252. [3] Frank L H. Hydraulic drive, in particular of an excavator, in particular for a slewing gear[P]. US:5364709, 2011-12-15. [4] Matsumoto S, Kato Y, Nishitani K. Hybrid type construction machine for converting kinetic energy of inertia body into electric energy[P]. Japan: 4732284, 2011-04-28. [5] 于安才,姜继海. 液压混合动力挖掘机回转装置控制方式的研究[J]. 西安交通大学学报,2011,45(7): 30-33. Yu An-cai,Jiang Ji-hai. Control strategy for hydraulic hybrid excavator slewing[J]. Journal of Xi'an Jiaotong University,2011,45(7): 30-33. [6] Yao H, Wang Q F. Control strategy for hybrid excavator swing system driven by electric motor[C]∥6th IFAC Symposium on Mechatronic Systems,Hangzhou,China,2013:109-115. [7] Hideura M, Imanishi E. Hydraulic driving gear[P]. Japan:3647319, 2005-02-18. [8] Keisuke N, Masahiro N. Construction machine with hybrid drive unit, regenerative device equipped in construction machine, and regenerative method[P]. US: 8694213, 2014-04-08. [9] Jeff C, Zhang H, Richard D K, et al. Hydraulic hybrid swing drive system for excavators[P]. EP:2800837, 2014-12-25. [10] 管成,徐晓,林潇,等. 液压挖掘机回转制动能量回收系统[J]. 浙江大学学报:工学版,2012,46(1):142-149. Guan Cheng,Xu Xiao,Lin Xiao,et al. Recovering system of swing braking energy in hydraulic excavator[J]. Journal of Zhejiang University (Engineering Science),2012,46(1):142-149. [11] 李建启,张传福,汪铁荪. 液压挖掘机回转节能装置[J]. 工程机械,1991(2):10-13. Li Jian-qi,Zhang Chuan-fu, Wang Tie-sun. Energy-saving rotary device of hydraulic excavator[J]. Construction Machinery and Equipment,1991(2):10-13. [12] 郑辉. 基于蓄能器能量回收的挖掘机回转节能研究[D]. 成都:西南交通大学机械工程学院,2013. Zheng Hui. Research on slewing energy saving of hydraulic excavator based on accumulator energy recovery[D]. Chengdu: School of Mechanical Engineering, Southwest Jiaotong University,2013. [13] 邢树鑫,李文新. 液压挖掘机回转功率切除系统仿真分析[J]. 工程机械,2011,42(8):17-20. Xing Shu-xin, Li Wen-xin. Simulation of rotary power removal system of hydraulic excavator[J]. Construction Machinery and Equipment,2011,42(8):17-20. [14] 李宗. 挖掘机大惯量闭式回转系统工作特性仿真[J]. 矿山机械,2015,43(5):35-38. Li Zong. Simulation on working performance of large-inertia closed slewing system of excavator[J]. Mining & Processing Equipment,2015,43(5):35-38. [15] Frank A D, Michael G C. Method and system for feedback pressure control[P]. US:7788917,2010-09-07. [16] 彭贝,高宇,冯培恩,等. 一种挖掘机回转节能系统[P] 中国: 201210444516.6,2013-02-06. |
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