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Hydraulic Circuit Design and Dynamic Learning Using Case-based Reasoning
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作者 C.M. Vong and PK. Wong (Faculty of Science and Technology, University of Maca4 P.O. Box 3001, Micau E-mail fstcmvumac mo Fax:(853) 838314 Tel: (853) 397476) 《Computer Aided Drafting,Design and Manufacturing》 2000年第1期9-16,共8页
This paper describes the design and implementation of a hydraulic circuit design system using case-based reasoning (CBR) paradigm from AI community The domain of hydraulic circuit design and case-based reasoning are ... This paper describes the design and implementation of a hydraulic circuit design system using case-based reasoning (CBR) paradigm from AI community The domain of hydraulic circuit design and case-based reasoning are briefly reviewed Then a proposed methodology in compuer-aided circuit design and dynamic leaning with the use of CBR is described Finally an application example is selected to illustrate the ussfulness of applying CBR in hydraulic circuit design with leaming. 展开更多
关键词 hydraulic circuit design case-based reasoning(CBR) dynamic learning
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Design and Optimization of Actuator for HT-25 Multifunctional Loader
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作者 Md. Al Imran Tapu Joy Howlader +2 位作者 Md. Shahriar Sujan Md. Jahangir Alam Md. Mehedi Hassan 《World Journal of Engineering and Technology》 2023年第4期874-892,共19页
To break down the development interaction of the working gadget of the multi-practical wheel loader and to compute the heap of each part, the Denavit-Hartenberg strategy was applied to build up the kinematics of the i... To break down the development interaction of the working gadget of the multi-practical wheel loader and to compute the heap of each part, the Denavit-Hartenberg strategy was applied to build up the kinematics of the instrument model. Also, all the while, set up the elements model of dynamic framework. A multi-body element programming MSC, ADAMS and its active module were applied to assemble component power through a pressure framework reenactment model. An entirety working cycle interaction of the functioning gadget of the wheel loader was mimicked, and the investigation results thoroughly show the development interaction of the functional device and the stacked state of each part, and check the mechanical properties of the working gadget and dynamic execution water-driven framework effectively. 展开更多
关键词 Multifunctional Loader hydraulic circuit CAD Power system hydraulic Actuator and Pump
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Proportional directional valve based automatic steering system for tractors 被引量:4
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作者 Jin-yi LIU Jing-quan TAN +2 位作者 En-rong MAO Zheng-he SONG Zhong-xiang ZHU 《Frontiers of Information Technology & Electronic Engineering》 SCIE EI CSCD 2016年第5期458-464,共7页
Most automatic steering systems for large tractors are designed with hydraulic systems that run on either constant flow or constant pressure. Such designs are limited in adaptability and applicability. Moreover, their... Most automatic steering systems for large tractors are designed with hydraulic systems that run on either constant flow or constant pressure. Such designs are limited in adaptability and applicability. Moreover, their control valves can unload in the neutral position and eventually lead to serious hydraulic leakage over long operation periods. In response to the problems noted above, a multifunctional automatic hydraulic steering circuit is presented. The system design is composed of a 5-way-3-position proportional directional valve, two pilot-controlled check valves, a pressure-compensated directional valve, a pressurecompensated flow regulator valve, a load shuttle valve, and a check valve, among other components. It is adaptable to most open-center systems with constant flow supply and closed-center systems with load feedback. The design maintains the lowest pressure under load feedback and stays at the neutral position during unloading, thus meeting the requirements for steering. The steering controller is based on proportional-integral-derivative(PID) running on a 51-microcontroller-unit master control chip. An experimental platform is developed to establish the basic characteristics of the system subject to stepwise inputs and sinusoidal tracking. Test results show that the system design demonstrates excellent control accuracy, fast response, and negligible leak during long operation periods. 展开更多
关键词 Automatic steering system hydraulic circuit Proportional directional valve Proportional-integral-derivative(PID) control
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