Research on Electro-Hydraulic Load Simulator Based on Building Model of Flow Press Servo Valve

Jun Peng Shao; Jian Ying Li; Zhong Wen Wang; Gui Hua Han

doi:10.4028/www.scientific.net/AMR.129-131.213

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Effects of Low Temperature and Hot Pressure Molding Process Conditions on Unidirectional C/C Composites
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Study on the Effect of Value of the Current on Synthesis of W-C-Co Composites under an Electric Field
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Research on Electro-Hydraulic Load Simulator Based on Building Model of Flow Press Servo Valve
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A New Method of Constructing Tooth Surface for Logarithmic Spiral Bevel Gear
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Research on Electro-Hydraulic Load Simulator Based on Building Model of Flow Press Servo Valve

Abstract:

The model of flow press servo valve is built in this paper, during building the model, the author emphatically analyses the flow equation and force (torque) balance equation of every part of the valve, at the same time, all levels sub-models are organic combined according to power flow direction, signal flow direction of elements and causality, then we get the bond graph model of the flow press servo from this way. Adapting flow press servo valve and flow servo valve to concurrently control load system has its great advantage in restraining the superfluous force of the electro-hydraulic load simulator system, the performance such as load precision of system is enhanced greatly according to this method. Based on the system bond graph model, and by comparing the simulation curves and experiment curves, we can know that the simulation curves basically tally with the experiment curves, the bond graph models are validated right, which are flow press servo valve bond graph model and double valves concurrently control the electro-hydraulic load simulator system bond graph model. Simultaneity, the bond graph models in this paper take on generality, they are can be used on other aspects, such as other valve controlling cylinder system simulation, design and control strategy theory research.