| [1] |
邹积岩, 陈军平, 刘晓明, 等. 真空开关技术[M]. 机械工业出版社, 2021 (in Chinese)
Zou J Y, Chen J P, Liu X M, et al. Vacuum switch technology[M]. Beijing: China Machine Press, 2021
|
| [2] |
Nitu S, Nitu C, Tuluca G, et al. Dynamic behavior of a vacuum circuit breaker mechanism[C]. 23rd International Symposium on Discharges and Electrical Insulation in Vacuum, 2008, 181−184
|
| [3] |
李猛, 赵莹, 牛英凯. 40.5 kV充气柜真空断路器合闸弹跳故障分析及解决方法[J]. 电工电气,2023(10):49−52+71 (in Chinese)
Li M, Zhao Y, Niu Y K. Analysis and solution of the vacuum circuit breaker closing bounce fault in a 40.5 kV inflatable cabinet[J]. Electrotechnics Electric,2023(10):49−52+71
|
| [4] |
洪礼通, 缪希仁. 操动机构研究现状与发展新趋势[J]. 电器与能效管理技术,2017(22):1−7 (in Chinese)
Hong L T, Miu X R. Research situation and new development trend of operating mechanism[J]. Electrical & Energy Management Technology,2017(22):1−7
|
| [5] |
师慧倩, 周书堂. 弹簧操动机构的仿真分析[J]. 船电技术,2014,34(6):43−45 (in Chinese)
Shi H Q, Zhou S T. Simulation of the spring operating mechanism[J]. Marine Electric & Electronic Engineering,2014,34(6):43−45
|
| [6] |
Attak S, Wu A C, Claeys J P, et al. Medium voltage vacuum circuit breakers bouncing time overall study[C]. 30th International Symposium on Discharges and Electrical Insulation in Vacuum, 2023, 445−448
|
| [7] |
杨志轶, 蒋舒. 大功率弹簧操动机构凸轮机构设计分析[J]. 机械设计与研究,2017,33(3):1−5 (in Chinese)
Yang Z Y, Jiang S. Research on design method of cam mechanism of high power spring operating mechanism[J]. Machine Design & Research,2017,33(3):1−5
|
| [8] |
Iriarte X, Bacaicoa J, Plaza A, et al. A unified analytical disk cam profile generation methodology using the instantaneous center of rotation for educational purpose[J]. Mechanism and Machine Theory,2024(196):105625
|
| [9] |
Pozo-Palacios J, Fulbright N J, Voth J A F, et al. Comparison of forward and inverse cam generation methods for the design of cam-linkage mechanisms[J]. Mechanism and Machine Theory,2023(190):105465
|
| [10] |
熊显智, 王平. 真空断路器弹簧操动机构凸轮优化设计[J]. 高压电器,2020,56(11):116−123 (in Chinese)
Xiong X Z, Wang P. Cam optimization design of spring operating mechanism of vacuum circuit breaker[J]. High Voltage Apparatus,2020,56(11):116−123
|
| [11] |
李永林, 余砾, 李旭旭, 等. 基于最优合闸速度设计126 kV真空断路器操动机构凸轮轮廓[J]. 高压电器,2017,53(3):197−204 (in Chinese)
Li Y L, Yu L, Li X X, et al. Optimization design of operating mechanism cam profile for a 126 kV vacuum circuit breaker based on an optimal closing velocity[J]. High Voltage Apparatus,2017,53(3):197−204
|
| [12] |
郭良超, 韩国辉, 刘宇, 等. 高压断路器弹簧操动机构合闸凸轮优化设计[J]. 高压电器,2019,55(10):13−18 (in Chinese)
Guo L C, Han G H, Liu Y, et al. Optimum design of the closing cam in spring operating mechanism of high voltage circuit breaker[J]. High Voltage Apparatus,2019,55(10):13−18
|
| [13] |
孙栎翀, 刘晓明, 陈海, 等. 10 kV真空断路器弹簧操动机构合闸传动优化设计[J]. 真空科学与技术学报,2021,41(8):745−750 (in Chinese)
Sun Y C, Liu X M, Chen H, et al. Optimal design of closing drive for spring operating mechanism with 10 kV vacuum circuit breaker[J]. Chinese Journal of Vacuum Science and Technology,2021,41(8):745−750
|
| [14] |
郑欣, 刘荣海, 杨迎春, 等. 基于Adams的CT14型高压断路器弹簧操动机构动力学仿真分析[J]. 高压电器,2017,53(7):118−124 (in Chinese)
Zheng X, Liu R H, Yang Y C, et al. Dynamics simulation analysis on CT14 spring operating mechanism of high-voltage circuit breaker based on Adams[J]. High Voltage Apparatus,2017,53(7):118−124
|