吉林大学学报(工学版) ›› 2016, Vol. 46 ›› Issue (6): 1912-1921.doi: 10.13229/j.cnki.jdxbgxb201606021

Previous Articles     Next Articles

Energy-saving technology in rotary starting process of hydraulic excavator

PENG Bei, GAO Yu, FENG Pei-en, QIU Qing-ying   

  1. College of Mechanical Engineering, Zhejiang University, Hangzhou 310027, China
  • Received:2015-07-29 Online:2016-11-20 Published:2016-11-20

PDF (PC)

287

Abstract: A flow-control energy-saving rotary system was proposed to reduce the energy consumption caused by the mismatching between the output flow of the pump and the demand flow of the rotary motor during the rotary starting process of hydraulic excavator. The overflow signal of the overload buffer valve was converted to a pressure signal using a flow control valve, and the pump displacement was adjusted according to the pressure signal. Simulation and experiment results show that the flow-control energy-saving rotary system can effectively reduce the energy consumption during the rotary starting process that over 20% energy can be saved in comparison with the traditional rotary system. The overflow has long been existent, which meets the torque demand during the rotary starting process, and the time of the starting process stays the same with that of the traditional rotary system.

Key words: construction machine, energy-saving, flow matching, hydraulic excavator, rotary, fuzzy-PID control

CLC Number: 

  • TU621
[1] 吴文海,郑辉,邓斌,等. 液压挖掘机制动能量的回收系统[J]. 机械设计与研究,2013,29(1):114-117.
Wu Wen-hai,Zheng Hui, Deng Bin,et al. Research on recovering system of braking energy in hydraulic excavator[J]. Machine Design and Research,2013,29(1):114-117.
[2] 林添良,杨杰,刘强,等. 新型液压挖掘机回转驱动系统仿真[J]. 华侨大学学报:自然科学版,2013,34(3): 247-252.
Lin Tian-liang,Yang Jie,Liu Qiang,et al. Simulation of a new rotary driving system of hydraulic excavator[J]. Journal of Huaqiao University (Natural Science),2013,34(3):247-252.
[3] Frank L H. Hydraulic drive, in particular of an excavator, in particular for a slewing gear[P]. US:5364709, 2011-12-15.
[4] Matsumoto S, Kato Y, Nishitani K. Hybrid type construction machine for converting kinetic energy of inertia body into electric energy[P]. Japan: 4732284, 2011-04-28.
[5] 于安才,姜继海. 液压混合动力挖掘机回转装置控制方式的研究[J]. 西安交通大学学报,2011,45(7): 30-33.
Yu An-cai,Jiang Ji-hai. Control strategy for hydraulic hybrid excavator slewing[J]. Journal of Xi'an Jiaotong University,2011,45(7): 30-33.
[6] Yao H, Wang Q F. Control strategy for hybrid excavator swing system driven by electric motor[C]∥6th IFAC Symposium on Mechatronic Systems,Hangzhou,China,2013:109-115.
[7] Hideura M, Imanishi E. Hydraulic driving gear[P]. Japan:3647319, 2005-02-18.
[8] Keisuke N, Masahiro N. Construction machine with hybrid drive unit, regenerative device equipped in construction machine, and regenerative method[P]. US: 8694213, 2014-04-08.
[9] Jeff C, Zhang H, Richard D K, et al. Hydraulic hybrid swing drive system for excavators[P]. EP:2800837, 2014-12-25.
[10] 管成,徐晓,林潇,等. 液压挖掘机回转制动能量回收系统[J]. 浙江大学学报:工学版,2012,46(1):142-149.
Guan Cheng,Xu Xiao,Lin Xiao,et al. Recovering system of swing braking energy in hydraulic excavator[J]. Journal of Zhejiang University (Engineering Science),2012,46(1):142-149.
[11] 李建启,张传福,汪铁荪. 液压挖掘机回转节能装置[J]. 工程机械,1991(2):10-13.
Li Jian-qi,Zhang Chuan-fu, Wang Tie-sun. Energy-saving rotary device of hydraulic excavator[J]. Construction Machinery and Equipment,1991(2):10-13.
[12] 郑辉. 基于蓄能器能量回收的挖掘机回转节能研究[D]. 成都:西南交通大学机械工程学院,2013.
Zheng Hui. Research on slewing energy saving of hydraulic excavator based on accumulator energy recovery[D]. Chengdu: School of Mechanical Engineering, Southwest Jiaotong University,2013.
[13] 邢树鑫,李文新. 液压挖掘机回转功率切除系统仿真分析[J]. 工程机械,2011,42(8):17-20.
Xing Shu-xin, Li Wen-xin. Simulation of rotary power removal system of hydraulic excavator[J]. Construction Machinery and Equipment,2011,42(8):17-20.
[14] 李宗. 挖掘机大惯量闭式回转系统工作特性仿真[J]. 矿山机械,2015,43(5):35-38.
Li Zong. Simulation on working performance of large-inertia closed slewing system of excavator[J]. Mining & Processing Equipment,2015,43(5):35-38.
[15] Frank A D, Michael G C. Method and system for feedback pressure control[P]. US:7788917,2010-09-07.
[16] 彭贝,高宇,冯培恩,等. 一种挖掘机回转节能系统[P] 中国: 201210444516.6,2013-02-06.
[1] WANG Ji-xin, ZHAI Xin-ting, BI Ye-hong-tian, LI Ying-ying. Estimation of piecewise mixed load distribution based on AIC-K-means [J]. 吉林大学学报(工学版), 2018, 48(4): 1092-1098.
[2] LIU Zhi-feng, ZHAO Dai-hong, WANG Yu-mo, HUN Lian-ming, ZHAO Yong-sheng, DONG Xiang-min. Relationship between bearing capacity of heavy machine hydrostatic rotary table and temperature field distribution of oil pad [J]. 吉林大学学报(工学版), 2018, 48(3): 773-780.
[3] LIU Han-guang, WANG Guo-qiang, MENG Dong-ge, ZHAO Huan-yu. Reasonable pre-tension research of crawler traveling gear of hydraulic excavator [J]. 吉林大学学报(工学版), 2018, 48(2): 486-491.
[4] WANG Qian, ZHAO Ding-xuan, ZHAO Ying, CHEN Na. Dynamic analysis of carrier helicopter on complex deck [J]. 吉林大学学报(工学版), 2017, 47(4): 1109-1113.
[5] ZHAO Ding-xuan, WANG Qian, ZHANG Zhu-xin. Extenics theory for reliability assessment of carrier helicopter based on analytic hierarchy process [J]. 吉林大学学报(工学版), 2016, 46(5): 1528-1531.
[6] QI Long, LIANG Zhong-wei, JIANG Yu, MA Xu, WU Tao, LU Yu-long, ZHAO Liu-lin. Design and field test of lightweight paddy weeder [J]. 吉林大学学报(工学版), 2016, 46(3): 1004-1012.
[7] QIU Qing-ying, WEI Zhen-kai, GAO Yu, FENG Pei-en, YIN Peng-long. Fatigue analysis method of working devices of hydraulic excavator [J]. 吉林大学学报(工学版), 2016, 46(1): 159-165.
[8] SHEN Yan-hu, SU Jiang, LIU Yong, YANG Zhi-gang, WANG Kun-kun. Design of piezoelectric vibratory feeder vertically driven by two piezoelectric vibrators [J]. 吉林大学学报(工学版), 2014, 44(6): 1669-1675.
[9] HU Dong-hai, HE Ren, GU Xiao-dan. Optimal energy-saving design of structural parameter of eddy current retarder [J]. 吉林大学学报(工学版), 2014, 44(5): 1253-1257.
[10] ZHAO Ding-xuan, ZHANG Zhi-wen, LI Tian-yu, ZHANG Min, DONG Yan, LAN Hao. Fuzzy logic control strategy of parallel hybrid power loader [J]. 吉林大学学报(工学版), 2014, 44(4): 1004-1009.
[11] ZHAO Ding-xuan, LI Tian-yu, KANG Huai-liang, ZHANG Zhi-wen, LI Mu-fei. Automatic shift technology of hybrid power engineering vehicle [J]. 吉林大学学报(工学版), 2014, 44(2): 358-363.
[12] YAN Li-juan, SUN Hui, LIU Wei, JIANG Ji-hai, ZHAO Yan, HAN Jia-wei. Hydraulic hybrid technology of moving construction machinery [J]. 吉林大学学报(工学版), 2014, 44(2): 364-368.
[13] WANG Xiu-gang, LIU Yu-mei, SU Jian, CAO Xiao-ning, ZHANG Yi-rui. Bogie rotary torque test and inverse kinematics solution of motion platform [J]. 吉林大学学报(工学版), 2014, 44(01): 35-40.
[14] LI Tian-yu, ZHAO Ding-xuan, KANG Huai-liang, ZHANG Zhi-wen, ZHANG Zheng-fei, XU Chun-bo. Parameter matching of parallel hybrid power loaders [J]. 吉林大学学报(工学版), 2013, 43(04): 916-921.
[15] YAO Liang, CHU Liang, ZHOU Fei-kun, LIU Ming-hui, ZHANG Yong-sheng, WEI Wen-ruo. Simulation and analysis of potential of energy-saving from braking energy recovery of electric vehicle [J]. 吉林大学学报(工学版), 2013, 43(01): 6-11.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] LIU Song-shan, WANG Qing-nian, WANG Wei-hua, LIN Xin. Influence of inertial mass on damping and amplitude-frequency characteristic of regenerative suspension[J]. 吉林大学学报(工学版), 2013, 43(03): 557 -563 .
[2] CHU Liang, WANG Yan-bo, QI Fu-wei, ZHANG Yong-sheng. Control method of inlet valves for brake pressure fine regulation[J]. 吉林大学学报(工学版), 2013, 43(03): 564 -570 .
[3] LI Jing, WANG Zi-han, YU Chun-xian, HAN Zuo-yue, SUN Bo-hua. Design of control system to follow vehicle state with HIL test beach[J]. 吉林大学学报(工学版), 2013, 43(03): 577 -583 .
[4] HU Xing-jun, LI Teng-fei, WANG Jing-yu, YANG Bo, GUO Peng, LIAO Lei. Numerical simulation of the influence of rear-end panels on the wake flow field of a heavy-duty truck[J]. 吉林大学学报(工学版), 2013, 43(03): 595 -601 .
[5] WANG Tong-jian, CHEN Jin-shi, ZHAO Feng, ZHAO Qing-bo, LIU Xin-hui, YUAN Hua-shan. Mechanical-hydraulic co-simulation and experiment of full hydraulic steering systems[J]. 吉林大学学报(工学版), 2013, 43(03): 607 -612 .
[6] ZHANG Chun-qin, JIANG Gui-yan, WU Zheng-yan. Factors influencing motor vehicle travel departure time choice behavior[J]. 吉林大学学报(工学版), 2013, 43(03): 626 -632 .
[7] MA Wan-jing, XIE Han-zhou. Integrated control of main-signal and pre-signal on approach of intersection with double stop line[J]. 吉林大学学报(工学版), 2013, 43(03): 633 -639 .
[8] YU De-xin, TONG Qian, YANG Zhao-sheng, GAO Peng. Forecast model of emergency traffic evacuation time under major disaster[J]. 吉林大学学报(工学版), 2013, 43(03): 654 -658 .
[9] XIAO Yun, LEI Jun-qing, ZHANG Kun, LI Zhong-san. Fatigue stiffness degradation of prestressed concrete beam under multilevel amplitude cycle loading[J]. 吉林大学学报(工学版), 2013, 43(03): 665 -670 .
[10] XIAO Rui, DENG Zong-cai, LAN Ming-zhang, SHEN Chen-liang. Experiment research on proportions of reactive powder concrete without silica fume[J]. 吉林大学学报(工学版), 2013, 43(03): 671 -676 .
Copyright © Journal of Jilin University(Engineering and Technology Edition), All Rights Reserved.
Tel: +86-431-85095297 Fax: +86-431-85094074 E-mail: xbgxb@jlu.edu.cn
Powered by Beijing Magtech Co. Ltd