Low-speed Performance Analysis of Variable Frequency Hydraulic Systems in Parallel Valve Control

机译：平行阀控制中变频液压系统的低速性能分析

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The variable frequency hydraulic system is characterised by high efficiency, high reliability and low cost, but has a critical disadvantage, poor low speed stability due to the limit of the minimum stable speed of pumps and low frequency of inverters. Aiming to improve the low-speed performance, a variable frequency hydraulic system in parallel valve control is proposed, in which a proportional throttle valve (PTV) works at leaking status. At low speed stages, the fixed displacement pump works above its minimum stable speed, and PTV works at leaking status to increase leakages and system damping ratios and to improve low-speed stability. In this paper, we first design the proposed system, and explain the theory basis of parallel valve control improving low-speed performance, then establish its simulation model, and make verification by simulation.

机译：可变频率液压系统的特点是高效率，高可靠性和低成本，但具有临界缺点，由于泵的最小稳定速度的极限和逆变器的低频频率，低速稳定性差。旨在提高低速性能，提出了一种平行阀控制中的可变频率液压系统，其中比例节流阀（PTV）在泄漏状态下工作。在低速阶段，固定位移泵的工作高于其最小稳定速度，PTV在泄漏状态下工作，以提高泄漏和系统阻尼比率，并提高低速稳定性。在本文中，我们首先设计了所提出的系统，并解释了并行阀控制的理论基础，提高了低速性能，然后建立了模拟模型，并通过模拟进行验证。

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《International Conference of Fluid Power and Mechatronics》|2015年||共4页
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作者
Jinhai Sun; Haigang Ding; Jiyun Zhao;
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中图分类 TH15-53;
关键词
Low-Speed performance; Variable frequency hydraulic systems; Valve control; Parallel control;

机译：低速性能;可变频率液压系统;阀门控制;并行控制;

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1. A New Method of Improving Low-Speed Performance of Variable Speed Hydraulic Systems: By Leaking Parallel Valve Control [J] . Ding Haigang, Zhao Jiyun Advances in Mechanical Engineering . 2014,第Pta8期

机译：通过泄漏并联阀控制提高变速液压系统低速性能的新方法
2. Characteristic analysis of valve-pump parallel connection in a variable frequency hydraulic system [J] . Haigang Ding, Jiyun Zhao International Journal of Modelling, Identification and Control . 2014,第3期

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3. On-line optimization control method based on extreme value analysis for parallel variable-frequency hydraulic pumps in central air-conditioning systems [J] . Zhao Tianyi, Zhang Jili, Ma Liangdong Building and Environment . 2012,第Jana期

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4. Low-speed Performance Analysis of Variable Frequency Hydraulic Systems in Parallel Valve Control [C] . Jinhai Sun, Haigang Ding, Jiyun Zhao International Conference of Fluid Power and Mechatronics . 2015

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Low-speed Performance Analysis of Variable Frequency Hydraulic Systems in Parallel Valve Control

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