Analysis of Rotary Direct Drive Electro-hydraulic Pressure Control Servo Valve

A rotary direct drive electro-hydraulic pressure control servo valve(RDDPV) is proposed and designed. This new-type servo valve converts the rotary motion of torque motor into linear motion of spool by the eccentric drive mechanism, then the throttle area ratio of the inlet and outlet is changed and...

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Veröffentlicht in:	Ji xie gong cheng xue bao 2018, Vol.54 (16), p.186
1. Verfasser:	YUAN, Jiayang
Format:	Artikel
Sprache:	eng
Schlagworte:	Control stability Control theory Control valves Dynamic characteristics Feedback loops Hydraulic pressure Parameters Servocontrol Servovalves Throttles Torque motors
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container_title	Ji xie gong cheng xue bao
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creator	YUAN, Jiayang
description	A rotary direct drive electro-hydraulic pressure control servo valve(RDDPV) is proposed and designed. This new-type servo valve converts the rotary motion of torque motor into linear motion of spool by the eccentric drive mechanism, then the throttle area ratio of the inlet and outlet is changed and corresponding pressure is output, and the servo control is achieved by the electrical feedback loop of the motor position and output pressure. The nonlinear mathematical model of RDDPV is established to study the influence of structure parameters, especially eccentric mechanism parameters, on the static and dynamic characteristics of the servo valve,and the main structural parameters of the valve were determined. The RDDPV prototype was manufactured and its basic characteristics were tested on test bed. The results showed that the valve had high dynamic and static performance, and it could be applied to those pressure servo control systems that required high performance in stability, accuracy and speed, such as the anti-skid brake system of airplane.
doi_str_mv	10.3901/JME.2018.16.186
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This new-type servo valve converts the rotary motion of torque motor into linear motion of spool by the eccentric drive mechanism, then the throttle area ratio of the inlet and outlet is changed and corresponding pressure is output, and the servo control is achieved by the electrical feedback loop of the motor position and output pressure. The nonlinear mathematical model of RDDPV is established to study the influence of structure parameters, especially eccentric mechanism parameters, on the static and dynamic characteristics of the servo valve,and the main structural parameters of the valve were determined. The RDDPV prototype was manufactured and its basic characteristics were tested on test bed. 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source	Alma/SFX Local Collection
subjects	Control stability Control theory Control valves Dynamic characteristics Feedback loops Hydraulic pressure Parameters Servocontrol Servovalves Throttles Torque motors
title	Analysis of Rotary Direct Drive Electro-hydraulic Pressure Control Servo Valve
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