基于泵阀联合控制的负载口独立系统试验研究

doi:10.3785/j.issn.1008-973X.2015.01.014

浙江大学学报(工学版)

机械与能源工程

基于泵阀联合控制的负载口独立系统试验研究

徐兵,丁孺琦,张军辉

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

Experiment research on individual metering systems of mobile machinery based on coordinate control of pump and valves

XU Bing,DING Ru-qi,ZHANG Jun-hui

State Key Laboratory of Fluid Power Transmission and Control, Zhejiang University, Hangzhou 310027, China

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摘要：

为了解决工程机械液压系统能耗高、效率低的问题,提出负载口独立节能系统的泵阀联合控制策略.系统每个执行器由2个比例方向阀分别控制进出口,多个执行器共用一个电比例变量泵.同时考虑变量泵与比例方向阀,设计2层结构的控制器实现该系统的运动控制及节能控制.上层控制器通过负载与指令速度选择合适的工作模式；下层控制器根据选择的工作模式,采用计算流量反馈的速度控制和压力反馈的背腔压力控制调节进出口比例阀阀口开度,利用变压力裕度的电液负载敏感方法控制变量泵的排量.为了验证提出的控制器的有效性,在2 t小型挖掘机上,针对挖掘机动臂和斗杆的运动进行试验.试验结果表明,根据不同的工况,动臂和斗杆执行器可以选用相应的工作模式,在满足控制要求的情况下尽可能降低系统能耗；变压力裕度的排量控制器可以根据指令速度改变系统压力裕度,降低传统负载敏感系统压力裕度过大导致的能耗.

Abstract:

A pump/valve coordinate control strategy of energy-saving individual metering system was proposed aiming at the high energy consumption and low energy efficiency of the hydraulic system for mobile machinery. In the system, the inlet (meter-in) and outlet (meter-out) orifices of each actuator are independently controlled by two proportional directional valves. An electronic controlled variable displacement pump supplies flow to multiple actuators at a time. In comparison to the current researches, the control of valves and the pump were simultaneously considered. A two-level controller was proposed to control the actuator movements together with saving energy. The upper level controller chooses the corresponding mode according to the current load and reference speed. The lower level controller utilizes the calculated flow rate feedback and pressure feedback to simultaneously control the speed and pressure of actuator. A displacement control with variable pressure margin strategy was employed as electronic load sense control. The experiment was implemented for the boom and arm motion control of a mini-excavator in order to verify the performance of the proposed controller. Experiment results show that both the boom and arm can choose the proper mode according to different operating conditions, which meet the requirements of motion control and reduce the energy consumption. The pressure margin can be regulated based on the reference speed in order to reduce the energy consumption caused by the excessive preset pressure margin in traditional load sensing system.

出版日期: 2018-06-06

TH 137

基金资助:

国家自然科学基金资助项目（51375431）;国家“十二五”科技支撑计划资助项目（2013BAF07B01）

作者简介: 徐兵(1971-)，男，教授，从事机电控制、流体动力元件与系统的研究. E-mail: bxu@zju.edu.cn

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引用本文:

徐兵,丁孺琦,张军辉. 基于泵阀联合控制的负载口独立系统试验研究[J]. 浙江大学学报(工学版), 10.3785/j.issn.1008-973X.2015.01.014.

XU Bing,DING Ru-qi,ZHANG Jun-hui. Experiment research on individual metering systems of mobile machinery based on coordinate control of pump and valves. JOURNAL OF ZHEJIANG UNIVERSITY (ENGINEERING SCIENCE), 10.3785/j.issn.1008-973X.2015.01.014.

链接本文:

http://www.zjujournals.com/eng/CN/10.3785/j.issn.1008-973X.2015.01.014 或 http://www.zjujournals.com/eng/CN/Y2015/V49/I1/93

［1］ CINKELJ J, KAMNIK R, CEPON P, et al. Closed-loop control of hydraulic telescopic handler ［J］. Automation in Construction, 2010, 19(7): 954-963．
［2］ SHI H, YANG H Y, GONG G F, et al. Energy saving of cutterhead hydraulic drive system of shield tunneling machine ［J］. Automation in Construction, 2014(37): 11-21．
［3］ MURRENHOFF H, SGRO S, VUKOVIC M. An overview of energy saving architectures for mobile applications ［C］∥ 9th International Fluid Power Conference. Archen: RWTH Aachen, 2014．
［4］ SITTE A, BECK B, WEBER J. Design of independent metering control systems ［C］∥ 9th International Fluid Power Conference. Archen: RWTH Aachen, 2014．
［5］ ERIKSSON B, PALMBERG J O. Individual metering fluid power systems: challenges and opportunities ［J］. Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control, 2011(225): 196-211.
［6］ JANSSON A, PALMBERG J O. Separate controls of meter-in and meter-out orifices in mobile hydraulic systems ［J］. SAE Transactions, 1990, 99(2): 377-383．
［7］ ELFVING M. A concept for a distributed controller of fluid power actuators ［D］. Sweden: College of Mechanical Engineering, Linkping University, 1997．
［8］ ERIKSSON B. Control strategy for energy efficient fluid power actuators utilizing individual metering ［D］. Linkping, Sweden: Linkping University, 2007．
［9］YAO B, LIU S. Energy-saving control of hydraulic systems with novel programmable valves ［C］∥ Proceeding of the 4th World Congress on Intelligent Control and Automation. Shanghai: IEEE, 2002: 81-91．
［10］ LIU S, YAO B. Coordinate control of energy saving programmable valves ［J］. IEEE Transactions on Control Systems Technology, 2008, 16(1): 34-45．
［11］顾临怡.大惯性负载进出口独立调节数字控制及多执行器复合控制研究［D］. 杭州：浙江大学,1998．
GU Lin-yi. Research on the independently regulation digital control of the big inertia load import and export ［D］. Hangzhou: College of Mechanical Engineering, Zhejiang University, 1998.
［12］HU H B, ZHANG Q, ANDREW A. Multi-function realization using an integrated programmable E/H control valve ［J］. Applied Engineering in Agriculture, 2003, 19(3): 283-290．
［13］ LINJAMA M, HUOVA M, PONTUS B, et al. Design and implementation of energy saving digital hydraulic control system［C］∥The 10th Scandinavian International Conference on Fluid Power. Tampere: Tampere University of Technology, 2007．
［14］ LIU Y J, XU B, YANG H Y. Modeling of separate meter in and separate meter out control system ［C］∥Proceeding of ASME Advanced Intelligent Mechatronics. Singapore:IEEE,2009: 227-232．
［15］ YAO B, LIU S. Energy-saving control of single-rod hydraulic cylinders with programmable valves and improved working mode selection ［R］. West Lafayette:Purdue University, 2002: 81-91．
［16］ SHENOUDA A. Quasi-static hydraulic control systems and energy savings potential using independent metering four-valve assembly configuration ［D］. Atlanta: Georgia Institute of Technology, 2006．
［17］刘英杰. 负载口独立电液比例方向阀控制系统关键技术研究［D］.杭州：浙江大学,2011．
LIU Ying-jie. Research on key techniques of independent metering directional valve control system ［D］. Hangzhou: Zhejiang University, 2011．
［18］ YAO B, LIU S. Programmable valves: a solution to bypass deadband problem of electro-hydraulic systems ［C］∥ Proceedings of the 2004 American Control Conference. Boston: IEEE, 2004: 4438-4443．
［19］ NIELSEN B. Controller development for a separate meter-in separate meter-out fluid power valve for mobile applications ［D］. Denmark: Aalborg University, 2005．
［20］曹剑,徐兵,杨华勇,等. 负载口独立控制系统静态工作点选取原则及仿真分析［J］. 机械工程学报,2005, 42(6): 11-15．
CAO Jian, XU Bing,YANG Hua-yong, et al. Principles for choosing static operation points and simulation analysis of fluid power system based on separate control of actuator ports ［J］. Chinese Journal of Mechanical Engineering,2005, 42(6): 11-15.
［21］ERIKSSON B, LARSSON J, PALMBERG J O. Study on individual pressure control in energy efficient cylinder drives ［C］∥4th FPNI-phD Symposium. Sarasota:\[s.n.\], 2006．
［22］ LIU Y J, XU B, YANG H Y, at al. Calculation force control based on linearization feedback model of separate meter in and separate meter out control system ［C］∥Proceedings of the IEEE International Conference on Automation and Logistics. Shenyang: IEEE, 2009: 1464-1468．
［23］刘英杰, 徐兵,杨华勇. 电液比例负载口独立控制系统压力流量控制策略［J］. 农业机械学报, 2010, 41(5): 182-187．
LIU Ying-jie, XU Bing, YANG Hua-yong. Strategy for flow and pressure control of electro hydraulic proportional separate meter in and separate meter out control system ［J］. Transactions of the Chinese Society for Agricultural Machinery, 2010, 41(5): 182-187．

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