加装缓冲器的非隔离式蓄能器稳定性研究
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摘要
为了进一步提高某型液压系统连续高速缓冲的稳定性,在非隔离式蓄能器进口端加装缓冲器,通过连续性试验验证,加装缓冲器可大大减缓非隔离式蓄能器气液混合程度,有效提升缓冲性能的稳定性,对其他采用非隔离式蓄能器的液压系统设计和性能改进有重要的参考价值。
A buffer is added to the non-isolated accumulator's entrance for the purpose of enhancing the stability of a certain hydraulic system's capability. By the way of continuity test validation, the added buffer can greatly decreases the extent of the gas-liquid mixed phenomenon inside of the non-isolated accumulator and improves the stability of the cushion capability. The research has important reference value to the design and the performance improvement of other hydraulic pressure system using non-isolated accumulator.
A buffer is added to the non-isolated accumulator's entrance for the purpose of enhancing the stability of a certain hydraulic system's capability. By the way of continuity test validation, the added buffer can greatly decreases the extent of the gas-liquid mixed phenomenon inside of the non-isolated accumulator and improves the stability of the cushion capability. The research has important reference value to the design and the performance improvement of other hydraulic pressure system using non-isolated accumulator.
引文
[1]成大千.机械设计手册[M].6版.北京:化工工业出版社, 2017.
[2]戴云飞.液压缸液压刚度的计算[J].有色金属设计,1999, 26(1):61-63.
[3]李艳利,刘志奇.多孔式液压缓冲器的设计与仿真研究[J].液压气动与密封, 2014(5):22-25.
[4]雷天觉.新编液压工程手册[M].北京:北京理工大学出版社, 1998.
[5]杨伟达,何天德,韩宝琦.蓄能器充压过程中气体多变指数的确定及储油量计算[J].吉林林学院学报,1998,14(1):27-30.
[2]戴云飞.液压缸液压刚度的计算[J].有色金属设计,1999, 26(1):61-63.
[3]李艳利,刘志奇.多孔式液压缓冲器的设计与仿真研究[J].液压气动与密封, 2014(5):22-25.
[4]雷天觉.新编液压工程手册[M].北京:北京理工大学出版社, 1998.
[5]杨伟达,何天德,韩宝琦.蓄能器充压过程中气体多变指数的确定及储油量计算[J].吉林林学院学报,1998,14(1):27-30.