| [1] | 章宏甲,黄 谊. 液压传动[M]. 北京:机械工业出版社,2001. ZHANG Hongjia,HUANG Yi. Hydraulic transmission[M]. Beijing: China Machine Press,2001.
|
| [2] | 陈保伦. 液压操动机构的设计与应用[M]. 北京:机械工业出版社,2011. CHEN Baolun. Design and application of hydraulic operating mechanism[M]. Beijing:China Machine Press,2011.
|
| [3] | 盛敬超. 液压流体力学[M]. 北京:机械工业出版社,1980. SHENG Jingchao. Hydraulic fluid mechanics[M]. Beijing:China Machine Press,1980.
|
| [4] | 苑 舜. 高压断路器液压操动机构[M]. 北京:机械工业出版社,2000. YUAN Shun. The mechanism of hign voltage circuit breaker[M]. Beijing:China Machine Press,2000.
|
| [5] | 施文耀. 开关液压机构[M]. 北京:机械工业出版社,1990. SHI Wenyao. The hydraulic mechanism of circuit breaker[M]. Beijing:China Machine Press,1990.
|
| [6] | 徐靖东. 高压断路器电寿命诊断方法的对比分析[J]. 陕西电力,2013,41(3):56-60. XU Jiangdong. Analysis on high voltage circuit breaker electrical life diagnosis method[J]. Shaanxi Electric Power,2013,41(3):56-60.
|
| [7] | 陈 琦. 高压断路器二次回路断路测量方法应用综述[J]. 陕西电力,2012,40(12):68-71. CHEN Qi. Application overview on measurement method for secondary circuit disconnection in high voltage circuit breaker[J]. Shaanxi Electric Power,2012,40(12):68-71.
|
| [8] | 常会军,曹廷根. 高短路阻抗变压器式消弧线圈滤波参数的计算[J]. 变压器,2014,51(8):16-20. CHANG Huijun,CAO Tinggen. Filter parameter calculation of high short-circuit impedance transformer type arc-suppression reactor[J]. Transformer,2014,51(8):16-20.
|
| [9] | 应 俊,周 洁,阮万江. 35 kV 电力变压器绕制工艺改进和分析[J]. 变压器,2014,51(7):15-16. YING Jun,ZHOU Jie,RUAN Wanjiang. Improvement and analysis of wound process of 35 kV power transformer[J]. Transformer, 2014,51(7):15-16.
|
| [10] | 刘 波. 液压缸缓冲结构和缓冲过程的研究[D]. 杭州:浙江大学,2004. LIU Bo. Research on cushioning structures and processes for hydraulic cylinder[D]. Hangzhou:Zhejiang University,2004.
|
| [11] | 刘金榕,易文颖,夏 魁. 新型高速液压缸内缓冲装置及其特性的研究[J]. 机电工程,2010,27(3):33-37. LIU Jinrong,YI Wenying,XIA Kui. Study on a novel buffering device of high-speed hydraulic cylinder and its characteristics[J]. Journal of Mechanical & Electrical Engineering,2010,27(3):33-37.
|
| [12] | 章一明. 液压缓冲器设计参数研究[J]. 华东冶金学院学报,1994(3):54-58. ZHANG Yiming. Study on the designing parameters of hydraulic buffer[J]. Journal of East China Institute of Metallurgy,1994(3):54-58.
|
| [13] | 丁 凡,路甬祥. 短笛型缓冲结构的高速液压缸缓冲过程的研究[J]. 中国机械工程,1998,9(10):52-54. DING Fan,LU Yongxiang. Study on buffering process of high speed hydraulic cylinder type buffer structure of piccolo[J]. China Mechanical Engineering,1998,9(10):52-54.
|
| [14] | 邵 群. 高速液压缸缓冲装置及其动态特性的研究[J]. 煤炭科学技术,2004,32(11):63-65. SHAO Qun. Research on buffering devie of high speed hydraulic cylinder and its dynamic characteristics[J]. Coal Science and Technology,2004,32(11):63-65.
|
| [15] | 王永良,孙艳玲,吴军辉. 高速液压缸阶梯型缓冲结构与过程研究[J]. 机械制造,2011(4):49-51. WANG Yongliang,SUN Yanling,WU Junhui. Study on step-type buffering process of high-speed hydraulic cylinder[J]. Machinery,2011(4):49-51.
|
| [16] | 张旭宏,陈保伦. 断路器用大功率液压操动机构的设计[J]. 高压电器,2010,46(1):1-4. ZHANG Xuhong,CHEN Baolun. Design of the high power hydraulic operating mechanism for CB[J]. High Voltage Apparatus,2010,46(1):1-4.
|
| [17] | 付永领,祁晓野. AMESim系统建模和仿真[M]. 北京:北京航空航天大学出版社,2006. FU Yongling,QI Xiaoye. Modeling and simulation of AMESim[M]. Beijing:Beijing University of Aeronautics and Astronautics Press,2006.
|
| [18] | 余佑官,龚国芳,胡国良. AMESim仿真技术及其在液压系统中的应用[J]. 液压气动与密封,2005(3):28-31. YU Youguan,GONG Guofang,HU Guoliang. Simulation technique of AMESim and its application in hydraulic system[J]. Hydraulics Pneumatics & Seals,2005(3):28-31.
|
| [19] | 谭宗柒,汪云峰,陈永清,等. 基于AMESim的液压缓冲器主要结构参数的仿真分析[J]. 起重运输机械,2008(5):79-82. TAN Zongqi,WANG Yunfeng,CHEN Yongqing,et al. Simulation analysis of main structure parameters of hydraulic shock absorber based on AMESim[J]. Hoisting and Conveying Machinery,2008(5):79-82.
|
| [20] | 凌桂龙,丁金滨,温 正. ANSYS Workbench 13.0从入门到精通[M]. 北京:清华大学出版社,2012. LING Guilong,DING Jinbin,WEN Zheng. From entry to master of ANSYS Workbench 13.0[M]. Beijing:Tsinghua University Press,2012.
|
| [21] | 邹高鹏,王永良. 高压断路器配液压操动机构液压缸缓冲特性的仿真研究[J]. 液压与气动,2011(9):73-76. ZOU Gaopeng,WANG Yongliang. Simulation study on hydraulic cylinder buffering characteristics for high voltage circuit breaker with hydraulic operating mechanism[J]. Chinese Hydraulics & Pneumatics,2011(9):73-76.
|
| [22] | 刘永胜. LW-252 SF6断路器全相液压操动机构的特性计算与分析[D]. 沈阳:沈阳工业大学,2006. LIU Yongsheng. Analyses and calculation of dynamic behavior of hydraulic operating mechanism for LW-252 SF6 circuit breaker[D]. Shenyang:Shenyang University of Technology,2006.
|
| [23] | 刘 伟,徐 兵,杨华勇,等. 超高压断路器液压操动机构分合闸特性研究[J]. 机床与液压,2008,36(10):4-7. LIU Wei,XU Bing,YANG Huayong,et al. Study on the opening and closing characteristics of super-high voltage circuit breaker with hydraulic operating mechanism[J]. Machine Tool & Hydraulics,2008,36(10):4-7.
|
| [24] | 陈保伦. SF6断路器液压机构的油缸缓冲器的设计、试验与调整[J]. 高压电器,1989,25(3):32-37. CHEN Baolun. Design,testing and adjusting of the SF6 breaker hydraulic spring mechanism’s cylinder buffer[J]. High Voltage Apparatus,1989,25(3):32-37.
|
