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液压变压器控制液压缸工作特性研究 被引量:2

Research on the Working Characteristic of the Hydraulic Cylinder Controlled by the Hydraulic Transformer
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摘要 由于现有的工程机械中采用多路阀来控制液压缸存在较大的节流损失,而采用液压变压器在理论上可以无节流损失的控制液压缸,故研究了采用液压变压器控制液压缸的液压系统。首先建立了该系统的数学模型,并进行了仿真分析。针对理论研究的结果进行了实验研究,结果表明该系统可以满足实际要求。 The throttling loss is generated due to the multi-way valve control in the field of construction machinery.However,the hydraulic cylinder controlled by HT (Hydraulic Transformer) can work without throttling loss in theory.This study is primarily focusing on the hydraulic cylinder controlled by HT.The simulation has been made according to the mathematical model of the hydraulic system.Comparing the experiment and the simulation,we conclude that HT can be used to control the hydraulic cylinder in practice.
作者 万保中 沈伟 姜继海
机构地区 上海汇益控制系统股份有限公司 哈尔滨工业大学流体传动及控制研究所
出处 《液压与气动》 北大核心 2014年第2期18-21,共4页 Chinese Hydraulics & Pneumatics
基金 国家自然科学基金资助项目(50875054) 浙江大学国家重点实验室开放基金资助项目(GZKF-2008003)
关键词 液压变压器 CPR网络 节能 hydraulic transformer CPR network energy-saving
分类号 TH137 [机械工程—机械制造及自动化]
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参考文献13

  • 1Kagoshima M, Komiyama M, Nanjo T. Development of New Hybrid Excavator [ J ]. Kobelco Technology Review, 2007, (27) :39 -42.
  • 2张树忠,邓斌,柯坚.基于液压变压器的挖掘机动臂势能再生系统[J].中国机械工程,2010,21(10):1161-1166. 被引量:31
  • 3卢红影,姜继海,张维官,王頔.基于液压恒压网络系统的液压变压器控制液压缸系统[J].吉林大学学报(工学版),2009,39(4):885-890. 被引量:14
  • 4Georges E. M. Vael, Peter A. J. Achten, Zhao Fu. The Innas Hydraulic Transformer-The Key to the Hydrostatic Common Pressure Rail [ J ]. SAE 2000 - 01 - 2561.
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二级参考文献24

  • 1姜继海,卢红影,周瑞艳,于庆涛,郭娜.液压恒压网络系统中液压变压器的发展历程[J].东南大学学报(自然科学版),2006,36(5):869-874. 被引量:29
  • 2van Malsen R A H, Achten P A J, Vael G E M. Design of dynamic and efficient hydraulic systems around a simple hydraulic grid, SAE Paper 2002-01-1432 [R]. [S. l.]: SAE International, 2002.
  • 3Peter P A J, van den Brink T L, van den Oever J, et al. Dedicated design of the hydraulic transformer[C/CD]// Proc 3rd International Fluid Power Conference. Aachen, Germany: [s. n. ], 2002.
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  • 5Achten P A J, Fu Z, Vael G E M. Transforming future hydraulics: a new design of a hydraulic transformer [C/CD]/The Fifth Scandinavian International Conference on Fluid Power (SICFP'97). Linkoping, Sweden:Linkoping University, 1997.
  • 6Margolis D. Energy Regenerative Actuator for Motion Control with Application to Fluid Power Sys terns [J]. Journal of Dynamic Systems, Measure ment, and Control, 2005,127 (1) : 33-40.
  • 7Achten P A J, Palmberg J. What a Difference a Hole Makes:the Commercial Value of the Innas Hydraulic Transformer[C]//The Sixth Scandinavian International Conference on Fluid Power. Tampere, Finland,1999:873-886.
  • 8Vael G E M, Orlando E, Stukenbrock R. Toward Maximum Flexibility in Working Machinery, IHT Control in a Mecalac Excavator [C]//4th International Fluid Power Conference. Dresden, Germany, 2004 : 171-182.
  • 9Lars B. Swedish Developed Energy Saving System in Caterpillars Excavators[J]. Fluid Scandinavia, 2002, (2) : 6-9.
  • 10Wei S, Tapio V. Simulation Study on a Hydraulic Accumulator Balancing Energy-saving System in Hydraulic Boom[C]//Proceedings of 50th the National Conference on Fluid Power. Las Vegas, USA, 2005:371-382.

共引文献48

同被引文献8

引证文献2

二级引证文献4

液压与气动
2014年 第2期

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