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Power Matching and Energy Efficiency Improvement of Hydraulic Excavator Driven with Speed and Displacement Variable Power Source 被引量:14
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作者 Lei Ge Long Quan +2 位作者 Xiaogang Zhang Zhixin Dong Jing Yang 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2019年第6期142-153,共12页
Mobile machinery energy efficiency and emission pollution are the national and worldwide issues. This paper contributes in solving these problems by applying a speed variable power source. Unfortunately, almost all of... Mobile machinery energy efficiency and emission pollution are the national and worldwide issues. This paper contributes in solving these problems by applying a speed variable power source. Unfortunately, almost all of the speed variable systems have the dynamic response problem when the motor starts with full load or heavy load. To address this problem, a hydraulic accumulator is used to balance the load of the power source for assisting starting of the motor and a matching method combined with speed and displacement control of the pump is proposed to improve the energy efficiency and dynamic performance simultaneously under different working conditions. Also, the power source/valve combined control strategy of an independent metering system is designed to realize flow matching of the whole system. Firstly, a test system is established to study the dynamic performance and energy efficiency of the speed variable power source with an auxiliary accumulator. Working performance and energy consumption of the power source under different rotating speeds and different loads are studied. And then, the hydraulic excavator test rig with the proposed system is constructed. Furthermore, the working performance of the excavator with the speed-fixed and speed-variable strategy are studied comparatively. Results show that, compared with fixed-speed strategy, the electric power consumption during the idle period and partial load condition can be reduced about 2.05 kW and 1.37 kW. The energy efficiency of speed variable power source is about 40%-71%, which is higher than that of the fixed-speed power source by 3%–10%. 展开更多
关键词 hydraulic excavator Power matching Speed variable Energy efficiency
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Dynamic simulation and optimal control strategy for a parallel hybrid hydraulic excavator 被引量:23
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作者 Xiao LIN Shuang-xia PAN Dong-yun WAN 《Journal of Zhejiang University-Science A(Applied Physics & Engineering)》 SCIE EI CAS CSCD 2008年第5期624-632,共9页
The primary focus of this study is to investigate the control strategies of a hybrid system used in hydraulic excavators. First, the structure and evaluation target of hybrid hydraulic excavators are analyzed. Then th... The primary focus of this study is to investigate the control strategies of a hybrid system used in hydraulic excavators. First, the structure and evaluation target of hybrid hydraulic excavators are analyzed. Then the dynamic system model including batteries, motor and engine is built as the simulation environment to obtain control results. A so-called multi-work-point dynamic control strategy, which has both closed-loop speed PI (proportion integral) control and direct torque control, is proposed and studied in the simulation model. Simulation results indicate that the hybrid system with this strategy can meet the power demand and achieve better system stability and higher fuel efficiency. 展开更多
关键词 Hybrid system hydraulic excavator Multi-work-point dynamic control Direct torque control
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Modelling of an hydraulic excavator using simplifiedrefined instrumental variable(SRIV)algorithm 被引量:6
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作者 Jun GU James TAYLOR Derek SEWARD 《控制理论与应用(英文版)》 EI 2007年第4期391-396,共6页
Instead of establishing mathematical hydraulic system models from physical laws usually done with the problems of complex modelling processes, low reliability and practicality caused by large uncertainties, a novel mo... Instead of establishing mathematical hydraulic system models from physical laws usually done with the problems of complex modelling processes, low reliability and practicality caused by large uncertainties, a novel modelling method for a highly nonlinear system of a hydraulic excavator is presented. Based on the data collected in the excavator's arms driving experiments, a data-based excavator dynamic model using Simplified Refined Instrumental Variable (SRIV) identification and estimation algorithms is established. The validity of the proposed data-based model is indirectly demonstrated by the performance of computer simulation and the.real machine motion control exoeriments. 展开更多
关键词 hydraulic excavator Nonlinear dynamics Data based model Simplified refined instrumental variable algorithm
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Motion Planning Based Coordinated Control for Hydraulic Excavators 被引量:4
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作者 GAO Yingjie JIN Yanchao ZHANG Qin 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2009年第1期97-101,共5页
Hydraulic excavator is one type of the most widely applied construction equipment for various applications mainly because of its versatility and mobility. Among the tasks performed by a hydraulic excavator, repeatable... Hydraulic excavator is one type of the most widely applied construction equipment for various applications mainly because of its versatility and mobility. Among the tasks performed by a hydraulic excavator, repeatable level digging or flat surface finishing may take a large percentage. Using automated functions to perform such repeatable and tedious jobs will not only greatly increase the overall productivity but more importantly also improve the operation safety. For the purpose of investigating the technology without loss of generality, this research is conducted to create a coordinate control method for the boom, arm and bucket cylinders on a hydraulic excavator to perform accurate and effective works. On the basis of the kinematic analysis of the excavator linkage system, the tip trajectory of the end-effector can be determined in terms of three hydraulic cylinders coordinated motion with a visualized method. The coordination of those hydraulic cylinders is realized by controlling three electro-hydraulic proportional valves coordinately. Therefore, the complex control algorithm of a hydraulic excavator can be simplified into coordinated motion control of three individual systems. This coordinate control algorithm was validated on a wheeled hydraulic excavator, and the validation results indicated that this developed control method could satisfactorily accomplish the auto-digging function for level digging or flat surface finishing. 展开更多
关键词 hydraulic excavator motion planning coordinated control
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Modeling and control of hydraulic excavator's arm 被引量:5
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作者 何清华 张大庆 +1 位作者 郝鹏 张海涛 《Journal of Central South University of Technology》 EI 2006年第4期422-427,共6页
In order to find a feasible way to control excavator’s arm and realize autonomous excavation, the dynamic model for the boom of excavator’s arm which was regarded as a planar manipulator with three degrees of freedo... In order to find a feasible way to control excavator’s arm and realize autonomous excavation, the dynamic model for the boom of excavator’s arm which was regarded as a planar manipulator with three degrees of freedom was constructed with Lagrange equation. The excavator was retrofitted with electrohydraulic proportional valves, associated sensors (three inclinometers) and a computer control system (the motion controller of EPEC). The full nonlinear mathematic model of electrohydraulic proportional system was achieved. A discontinuous projection based on an adaptive robust controller to approximate the nonlinear gain coefficient of the valve was presented to deal with the nonlinearity of the whole system, the error was dealt with by robust feedback and an adaptive robust controller was designed. The experiment results of the boom motion control show that, using the controller, good performance for tracking can be achieved, and the peak tracking error of boom angles is less than 4°. 展开更多
关键词 adaptive robust control autonomous excavation dynamic model hydraulic excavator motion control
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Development of dynamic-mathematical model of hydraulic excavator 被引量:5
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作者 Vujic Dragoljub Lazarevic Olgica Batinic Vojislav 《Journal of Central South University》 SCIE EI CAS CSCD 2017年第9期2010-2018,共9页
This work deals with analysis of dynamic behaviour of hydraulic excavator on the basis of developed dynamic-mathematical model.The mathematical model with maximum five degrees of freedom is extended by new generalized... This work deals with analysis of dynamic behaviour of hydraulic excavator on the basis of developed dynamic-mathematical model.The mathematical model with maximum five degrees of freedom is extended by new generalized coordinate which represents rotation around transversal main central axis of inertia of undercarriage.The excavator is described by a system of six nonlinear,nonhomogenous differential equations of the second kind.Numerical analysis of the differential equations has been done for BTH-600 hydraulic excavator with moving mechanism with pneumatic wheels. 展开更多
关键词 hydraulic excavator dynamic behaviour dynamic-mathematical model
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Fault detection of excavator’s hydraulic system based on dynamic principal component analysis 被引量:5
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作者 何清华 贺湘宇 朱建新 《Journal of Central South University of Technology》 2008年第5期700-705,共6页
In order to improve reliability of the excavator's hydraulic system, a fault detection approach based on dynamic principal component analysis(PCA) was proposed. Dynamic PCA is an extension of PCA, which can effect... In order to improve reliability of the excavator's hydraulic system, a fault detection approach based on dynamic principal component analysis(PCA) was proposed. Dynamic PCA is an extension of PCA, which can effectively extract the dynamic relations among process variables. With this approach, normal samples were used as training data to develop a dynamic PCA model in the first step. Secondly, the dynamic PCA model decomposed the testing data into projections to the principal component subspace(PCS) and residual subspace(RS). Thirdly, T2 statistic and Q statistic performed as indexes of fault detection in PCS and RS, respectively. Several simulated faults were introduced to validate the approach. The results show that the dynamic PCA model developed is able to detect overall faults by using T2 statistic and Q statistic. By simulation analysis, the proposed approach achieves an accuracy of 95% for 20 test sample sets, which shows that the fault detection approach can be effectively applied to the excavator's hydraulic system. 展开更多
关键词 hydraulic system excavator fault detection principal component analysis multivariate statistics
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CONSTANT WORK-POINT CONTROL FOR PARALLEL HYBRID SYSTEM WITH CAPACITOR ACCUMULATOR IN HYDRAULIC EXCAVATOR 被引量:4
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作者 ZHANG Yanting WANG Qingfeng XIAO Qing FU Qiang 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2006年第4期505-508,共4页
Limitations of various accumulators in hybrid hydraulic excavator are analyzed. A program using capacitor as the accumulator based on constant work-point control is put forward. A simulating experimental system of hyb... Limitations of various accumulators in hybrid hydraulic excavator are analyzed. A program using capacitor as the accumulator based on constant work-point control is put forward. A simulating experimental system of hybrid construction machinery is established, and experimental study on constant work-point control for parallel hybrid system with capacitor accumulator is carried out using the pressure and flow rate derived from boom cylinder of hydraulic excavator in actual work as the simulating loads. A program of double work-point control is proposed and proved by further experiments. 展开更多
关键词 Hybrid hydraulic excavator Capacitor accumulator Constant work-point control Double work-point control
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A soft-sensing model on hydraulic excavator's backhoe vibratory excavating resistance based on fuzzy support vector machine
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作者 黄志雄 何清华 《Journal of Central South University》 SCIE EI CAS 2014年第5期1827-1832,共6页
In order to measure the backhoe vibratory excavating resistance of a hydraulic excavator fast and precisely,the influences of vibratory excavating depth,angle,vibratory frequency,amplitude,bucket inserting velocity an... In order to measure the backhoe vibratory excavating resistance of a hydraulic excavator fast and precisely,the influences of vibratory excavating depth,angle,vibratory frequency,amplitude,bucket inserting velocity and soil type on the vibratory excavating resistance were analyzed.Simulation analysis was carded out to establish the bucket inserting velocity,amplitude and vibratory frequency considered as secondary variables and excavating resistance as primary variable.A fttzzy membership function was introduced to improve the anti-noise capacity of support vector machine,which is a soft-sensing model on the hydraulic excavator's backhoe vibratory excavating resistance based on fuzzy support vector machine.The simulation result reveals that its maximum relative training and testing error are nearly 0.68% and-0.47%,respectively.It is concluded that the model has quite high modeling precision and generalization capacity,and it can measure the vibratory excavating resistance accurately,reliably and fast in an indirect way. 展开更多
关键词 fuzzy support vector machine hydraulic excavator backhoe vibration excavating resistance soft-sensing technique
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Reducing-resistance mechanism of vibratory excavation of hydraulic excavator
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作者 朱建新 杨成云 +1 位作者 胡火焰 邹湘伏 《Journal of Central South University of Technology》 EI 2008年第4期535-539,共5页
Based on the working principle of vibratory excavation of hydraulic excavator,the expression of digging resistance changed with time under sine wave inspiritment was deduced;a comparison analysis was given after calcu... Based on the working principle of vibratory excavation of hydraulic excavator,the expression of digging resistance changed with time under sine wave inspiritment was deduced;a comparison analysis was given after calculating the forces status of rock and soil under static load and vibratory load respectively by using MATLAB;and then RFPA-2D(rock failure process analysis code)was used to make comparison of simulation experiment on rock and soil failure process under static load and vibratory load.The results demonstrate that,compared with the normal excavation under the same situation,the digging resistance and the energy consumption can be reduced by respectively 30%and 60%at maximum,and that the working efficiency can be increased by 45%at maximum owing to vibratory excavation. 展开更多
关键词 hydraulic excavator vibratory excavation reducing-resistance mechanism SIMULATION
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2D Part-Based Visual Tracking of Hydraulic Excavators
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作者 Bo Xiao Ruiqi Chen Zhenhua Zhu 《World Journal of Engineering and Technology》 2016年第3期101-111,共11页
Visual tracking has been widely applied in construction industry and attracted signifi-cant interests recently. Lots of research studies have adopted visual tracking techniques on the surveillance of construction work... Visual tracking has been widely applied in construction industry and attracted signifi-cant interests recently. Lots of research studies have adopted visual tracking techniques on the surveillance of construction workforce, project productivity and construction safety. Until now, visual tracking algorithms have gained promising performance when tracking un-articulated equipment in construction sites. However, state-of-art tracking algorithms have unguaranteed performance in tracking articulated equipment, such as backhoes and excavators. The stretching buckets and booms are the main obstacles of successfully tracking articulated equipment. In order to fill this knowledge gap, the part-based tracking algorithms are introduced in this paper for tracking articulated equipment in construction sites. The part-based tracking is able to track different parts of target equipment while using multiple tracking algorithms at the same sequence. Some existing tracking methods have been chosen according to their outstanding performance in the computer vision community. Then, the part-based algorithms were created on the basis of selected visual tracking methods and tested by real construction sequences. In this way, the tracking performance was evaluated from effectiveness and robustness aspects. Throughout the quantification analysis, the tracking performance of articulated equipment was much more improved by using the part-based tracking algorithms. 展开更多
关键词 Visual Tracking hydraulic excavators Construction Safety Part-Based Tracking
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Study on an Energy-saving System for a Hydraulic Excavator′s Boom
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作者 ZHANG Shu-zhong DENG Bin KE Jian 《International Journal of Plant Engineering and Management》 2010年第2期121-124,共4页
To improve the energy efficiency of a hydraulic boom, a new energy-saving system adopting a hydraulic accumulator is proposed. First, the principle of the system is presented. Then, the dynamic simulation is intro- du... To improve the energy efficiency of a hydraulic boom, a new energy-saving system adopting a hydraulic accumulator is proposed. First, the principle of the system is presented. Then, the dynamic simulation is intro- duced. Finally, the conclusions are given based on the analysis of simulation data. In Summary, the innovative energy-saving system combines flow regeneration and potential energy recovery, runs steadily and comfortably, saves energy remarkably and has good potential for improving energy utilization of a hydraulic excavator. 展开更多
关键词 hydraulic excavator hydraulic accumulator flow regeneration potential energy recovery
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Excavator Energy-saving Efficiency Based on Diesel Engine Cylinder Deactivation Technology 被引量:15
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作者 YANG Jing QUAN Long YANG Yang 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2012年第5期897-904,共8页
The hydraulic excavator energy-saving research mainly embodies the following three measures: to improve the performance of diesel engine and hydraulic component, to improve the hydraulic system, and to improve the po... The hydraulic excavator energy-saving research mainly embodies the following three measures: to improve the performance of diesel engine and hydraulic component, to improve the hydraulic system, and to improve the power matching of diesel-hydraulic system-actuator. Although the above measures have certain energy-saving effect, but because the hydraulic excavator load changes frequently and fluctuates dramatically, so the diesel engine often works in high-speed and light load condition, and the fuel consumption is higher. Therefore, in order to improve the economy of diesel engine in light load, and reduce the fuel consumption of hydraulic excavator, energy management concept is proposed based on diesel engine cylinder deactivation technology. By comparing the universal characteristic under diesel normal and deactivated cylinder condition, the mechanism that fuel consumption can be reduced significantly by adopting cylinder deactivation technology under part of loads condition can be clarified. The simulation models for hydraulic system and diesel engine are established by using AMESim software, and fuel combustion consumption by using cylinder-deactivation-technology is studied through digital simulation approach. In this way, the zone of cylinder deactivation is specified. The testing system for the excavator with this technology is set up based on simulated results, and the results show that the diesel engine can still work at high efficiency with part of loads after adopting this technology; fuel consumption is dropped down to 11% and 13% under economic and heavy-load mode respectively under the condition of driving requirements. The research provides references to the energy-saving study of the hydraulic excavators. 展开更多
关键词 diesel engine cylinder deactivation hydraulic excavator ENERGY-SAVING
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Research on hydraulic slotting technology controlling coal-gas outbursts 被引量:2
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作者 魏国营 单智勇 张子敏 《Journal of Coal Science & Engineering(China)》 2008年第1期67-72,共6页
Measured to control serious coal-gas outburst in coal seam were analyzed by theory and experimented in test site.A new technique to distress the coal-bed and drain methane,called hydraulic slotting,was described in de... Measured to control serious coal-gas outburst in coal seam were analyzed by theory and experimented in test site.A new technique to distress the coal-bed and drain methane,called hydraulic slotting,was described in detail,and the mechanism of hydrau- lic slotting was put forward and analyzed.The characteristic parameter of hydraulic slotting was given in Jiaozuo mining area and the characteristic of validity,adaptability and secu- rity was evaluated.The results show that the stress surrounding the strata and the gas in coal seam is released efficiently and thoroughly while new techniques are taken,as slot- ting at heading face by high pressure large diameter jet.The resistance to coal and gas outbursts is increased dramatically once the area of slotting is increased to a certain size. In the process of driving 2 000 m tunnel by hydraulic slotting excavation,coal and gas outburst never occurre.The technique could be used to prevent and control potential coal-gas outburst in the proceeding of tunnel driving,and the speed tunneling could be as high as more than 2 times. 展开更多
关键词 coal-gas outburst hydraulic slotting outburst prevention and control meas-ures high pressure large diameter jet heading excavation
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基于DEM-MBD耦合的液压挖掘机动力学仿真分析 被引量:1
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作者 刘畅 黄笛 +1 位作者 曹超 牟象东 《机床与液压》 北大核心 2024年第5期180-185,共6页
在实际工况下,液压挖掘机工作装置受到的载荷较大且具有强时变性,因此工作装置各组成杆件及液压缸较易出现各种形式的失效。针对以上问题,选取某型号液压挖掘机作为研究对象,根据液压挖掘机工作装置实际挖掘物料工况,利用多体动力学软件... 在实际工况下,液压挖掘机工作装置受到的载荷较大且具有强时变性,因此工作装置各组成杆件及液压缸较易出现各种形式的失效。针对以上问题,选取某型号液压挖掘机作为研究对象,根据液压挖掘机工作装置实际挖掘物料工况,利用多体动力学软件ADAMS建立液压挖掘机虚拟样机模型并利用离散元软件EDEM建立物料模型。通过DEM-MBD耦合仿真分析方法,对液压挖掘机工作装置进行动力学仿真分析,主要获取挖掘物料过程中铲斗受力变化曲线、不同时刻铲斗受力云图,通过对其分析,能够获取铲斗在挖掘作业过程中受力变化情况,为铲斗的有限元分析、优化设计提供理论依据。 展开更多
关键词 液压挖掘机 动力学仿真 铲斗 DEM-MBD耦合仿真
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挖掘机液压混合动力系统跟踪控制研究 被引量:1
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作者 王金莉 朱娟 《机械设计与制造》 北大核心 2024年第4期113-117,共5页
由于挖掘机混合动力系统参数的不确定性和系统的非线性给挖掘机的跟踪控制带来了巨大的困难。对此,构建了挖掘机液压混合动力系统模型,并采用改进的自适应鲁棒控制(ARC)实现挖掘机液压混合动力系统的跟踪控制。根据挖掘机液压混合动力系... 由于挖掘机混合动力系统参数的不确定性和系统的非线性给挖掘机的跟踪控制带来了巨大的困难。对此,构建了挖掘机液压混合动力系统模型,并采用改进的自适应鲁棒控制(ARC)实现挖掘机液压混合动力系统的跟踪控制。根据挖掘机液压混合动力系统,对液压系统、挖掘机动力学和发动机进行数学建模。利用线性稳定反馈控制规律,采用改进的自适应鲁棒控制,使挖掘机液压混合动力系统具有足够大的反馈增益。最后对斗杆、动臂和铲斗的倾角进行跟踪仿真实验,给出了系统模型位置和速度的跟踪误差,并与PI控制进行比较分析。结果表明:相比于PI控制,ARC控制下的斗杆、动臂和铲斗倾角的最大振幅波动率和倾角的波动范围都有所降低,且回转位置和速度的跟踪误差超调较小。说明采用ARC控制的挖掘机混合动力系统控制方法,能够更好的补偿系统模型的非线性,具有较好的控制稳定性以及跟踪精度。 展开更多
关键词 挖掘机 液压混合动力系统 ARC控制 控制稳定性 跟踪精度
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液压挖掘机斗杆内收流量分配节能设计
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作者 高韶坤 艾建军 《液压与气动》 北大核心 2024年第4期142-150,共9页
为解决小型挖掘机挖掘工况(正负载)下斗杆内收速度慢、系统压力高、存在溢流损失等问题,提出一种斗杆内收节能系统,挖掘工况下,使斗杆内收通过节能阀回油,即斗杆内收流量不再生时增大回油面积。给出了该节能系统工作原理和仿真参数,基于... 为解决小型挖掘机挖掘工况(正负载)下斗杆内收速度慢、系统压力高、存在溢流损失等问题,提出一种斗杆内收节能系统,挖掘工况下,使斗杆内收通过节能阀回油,即斗杆内收流量不再生时增大回油面积。给出了该节能系统工作原理和仿真参数,基于AMESim搭建了斗杆内收节能系统仿真模型,对比仿真了有无节能阀系统的斗杆内收速度、压力、流量等动态特性,分析了节能阀直径对斗杆内收动态特性的影响效果,进行了系统实际应用可行性分析,挖掘机整机测试有效验证了仿真结论。结果表明:引入节能阀,斗杆内收速度增加18%,斗杆油缸进油压力降低65%;节能阀直径对斗杆内收系统输出流量、回油总流量、系统压力影响不大;通过挖掘机整机测得斗杆内收速度提高19%。 展开更多
关键词 液压挖掘机 斗杆内收 流量分配 节能阀
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基于实测载荷的挖掘机动臂精细化焊缝疲劳寿命分析
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作者 熊敏 石劲松 +2 位作者 丁晓红 刘纯琨 李官运 《上海理工大学学报》 CAS CSCD 北大核心 2024年第5期502-508,555,共8页
针对挖掘机动臂疲劳失效多发于焊缝连接处的问题,建立精细化的焊缝疲劳寿命预测模型,基于实测载荷对挖掘机动臂疲劳寿命进行分析。以某特定型号的液压挖掘机动臂为分析对象,基于载荷反演技术获得挖掘机动臂在石方和土方环境作业下的铰... 针对挖掘机动臂疲劳失效多发于焊缝连接处的问题,建立精细化的焊缝疲劳寿命预测模型,基于实测载荷对挖掘机动臂疲劳寿命进行分析。以某特定型号的液压挖掘机动臂为分析对象,基于载荷反演技术获得挖掘机动臂在石方和土方环境作业下的铰点载荷,对动臂焊缝部位进行精细化有限元建模,结合焊缝材料的S-N曲线以及线性MineR损伤理论,分别预测动臂焊缝部位在石方和土方环境下的疲劳寿命。分析表明,焊缝部位在石方和土方环境下最低疲劳寿命分别为5.815×10^(5)和1.160×10^(6)次,此分析方法可为同类型机械焊缝结构疲劳寿命分析提供参考。 展开更多
关键词 液压挖掘机动臂 载荷反演 精细化建模 疲劳寿命分析
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穿越岩溶地区隧洞施工开挖防渗措施研究
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作者 苏凯 杨逢杰 +1 位作者 龚睿 朱洪泽 《中国农村水利水电》 北大核心 2024年第5期215-220,225,共7页
穿越岩溶地区隧洞在施工开挖期极易遭遇涌水突泥现象,如何选择合适的防渗措施减少隧洞渗流量一直是热点问题。依托某引调水工程,建立岩溶地区复杂地层三维有限元模型,重点考虑洞顶回填混凝土、洞周注浆圈、混凝土防渗墙3种防渗措施,研... 穿越岩溶地区隧洞在施工开挖期极易遭遇涌水突泥现象,如何选择合适的防渗措施减少隧洞渗流量一直是热点问题。依托某引调水工程,建立岩溶地区复杂地层三维有限元模型,重点考虑洞顶回填混凝土、洞周注浆圈、混凝土防渗墙3种防渗措施,研究了隧洞开挖过程中孔隙水压力及隧洞渗流量的变化规律,分析了防渗墙和注浆圈渗透系数对渗流特征的影响。结果表明:在本工程中,混凝土防渗墙对隧洞孔隙水压力分布的影响非常大,防渗墙之间水位降低程度明显,而洞周注浆圈对隧洞渗流量的影响最大,施工时要保证注浆圈的质量;孔隙水压力随着与隧洞中心水平距离增加而增加,随着与隧洞中心竖直距离增加呈现先增大后减小的变化趋势;随着注浆圈或防渗墙渗透系数增加,注浆圈或防渗墙区域内的孔压增长速率逐渐降低,隧洞渗流量不断增大。 展开更多
关键词 岩溶地区 水工隧洞 施工开挖 混凝土防渗墙 注浆圈
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考虑多关节时滞的液压挖掘机轨迹跟踪研究
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作者 邱清盈 窦方健 +1 位作者 管成 武建伟 《哈尔滨工程大学学报》 EI CAS CSCD 北大核心 2024年第5期938-946,共9页
为了减小多关节系统的时滞特性对液压挖掘机工作装置轨迹跟踪精度的影响,本文设计了考虑时滞的长短期记忆-广义回归级联网络和一种基于该网络模型的多关节控制系统。利用几何法分析闭式链运动状态,建立以摇臂关节为末端反馈关节的含闭... 为了减小多关节系统的时滞特性对液压挖掘机工作装置轨迹跟踪精度的影响,本文设计了考虑时滞的长短期记忆-广义回归级联网络和一种基于该网络模型的多关节控制系统。利用几何法分析闭式链运动状态,建立以摇臂关节为末端反馈关节的含闭式链的工作装置运动学逆解,通过4-3-3-3-4多项式轨迹规划算法在关节空间上生成轨迹。结合LSTM的时序处理能力和GRNN的强非线性映射能力,以比例阀信号和关节转角的各阶延迟以及目标转角作为网络输入特征,通过多关节联动辨识建立起输出信号和输入特征的映射关系模型,将关节模型作为逆控制器实现多关节轨迹跟踪。经AMESim-Simulink仿真验证:在空载或变载荷作用下,与不考虑时滞的LSTM系统比,考虑时滞的多关节控制系统能更准确、更迅速、更平滑地跟踪规划轨迹,误差小,并且系统具有较强鲁棒性。 展开更多
关键词 液压挖掘机 时滞 轨迹跟踪 运动学逆解 神经网络 多关节控制系统
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