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TBM试验台支撑推进节能系统设计与仿真分析
引用本文:石卓,龚国芳,刘统,吴伟强,彭左. TBM试验台支撑推进节能系统设计与仿真分析[J]. 工程设计学报, 2017, 24(3). DOI: 10.3785/j.issn.1006-754X.2017.03.012
作者姓名:石卓  龚国芳  刘统  吴伟强  彭左
作者单位:浙江大学流体动力与机电系统国家重点实验室 ,浙江杭州,310027
基金项目:国家高技术研究发展计划(863计划)资助项目,国家重点基础研究发展计划(973计划)资助项目
摘    要:针对全断面硬岩隧道掘进机(hard rock tunnel boring machine,简称TBM)在撑靴以设定压力撑紧围岩后支撑推进系统存在较大流量损失的问题,设计出一种具有负载敏感、恒压控制和蓄能器辅助支撑功能的支撑推进(简称LSCPGT)系统。利用AMESim软件搭建了LSCPGT系统模型,仿真分析了LSDRGT系统在变推进负载下的压力流量响应,并对比分析了在支撑工况下LSCPGT系统和恒压控制泵型支撑(constant pressure gripper,CPG)系统,以及在推进工况下LSCPGT系统与负载敏感泵型推进(load-sensing thrust,LST)系统和定量泵型推进(ration thrust,RT)系统的压力流量响应.结果表明:LST系统和LSCPGT系统在推进过程中都没有流量损失;CPG系统在支撑工况下存在流量损失,而LSCPGT系统由于蓄能器的保压作用没有流量损失;相对于LST系统+CPG系统的支撑推进系统,LSCPGT系统在撑靴达到设定压力后效率至少可提高43.5%。所设计的LSCPGT系统在满足支撑推进要求的同时,避免了流量损失,具有较好的节能效果。

关 键 词:TBM  支撑推进系统  负载敏感  恒压控制  蓄能器  节能  AMESim仿真

Design and simulation analysis of gripper and thrust energy-saving system for TBM test rig
SHI Zhuo,GONG Guo-fang,LIU Tong,WU Wei-qiang,PENG Zuo. Design and simulation analysis of gripper and thrust energy-saving system for TBM test rig[J]. Journal of Engineering Design, 2017, 24(3). DOI: 10.3785/j.issn.1006-754X.2017.03.012
Authors:SHI Zhuo  GONG Guo-fang  LIU Tong  WU Wei-qiang  PENG Zuo
Abstract:A Gripper and Thrust hydraulic system with the function of Load-Sensing ,Constant Pressure control and auxiliary support of accumulator (LSCPGT) was proposed to overcome the problem of high relief loss in the hard rock Tunnel Boring Machine (TBM ) gripper and thrust system after gripper reached a preset pressure .Model of LSCPGT system was established by AMESim .The pressure and flow responses of LSCPGT system were analyzed ,and the pressure and flow responses of Constant Pressure Gripper (CPG) system were compared with that in grip-per system ,and the pressure and flow responses of Load-Sensing Thrust (LST) system and Ra-tion Thrust (RT ) system were compared with that in thrust system .The results indicated that LST system and LSCPGT system had no flow loss during the thrust process .In gripper system , the CPG system had certain flow loss under the support condition ,but the LSCPGT system had no flow loss with the help of accumulator .Moreover ,compared with the gripper and thrust sys-tem composed of LST system and CPG system ,LSCPGT system improved at least 43.5% in effi-ciency after gripper reached preset pressure .The designed LSCPGT system which meets the de-mand of gripper and thrust can save energy through avoiding flow loss .
Keywords:TBM  gripper and thrust system  load-sensing  constant pressure control  accumula-tor  energy-saving  AMESim simulation
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