一种四位置不平衡液压阀模型

Tenth International Conference on Computer Modeling and Simulation (uksim 2008) Pub Date : 2008-04-01 DOI:10.1109/UKSIM.2008.103

S. Andic

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引用次数: 0

摘要

本文提出了作者在2006年[1]提出的用于节省和回收制动功率的液压系统中的四位置不平衡阀，并对其进行了建模。该阀调节油流，从自由旋转模式到制动和储存能量，到完全制动，再到回收能量和加速负载。阀门设计通过结合滑动和旋转操作的操作特性来实现这一点。本分析的主要目标是证明四位置运行是可以实现的，并评估阀门在瞬态和稳态运行模式下的稳定性，并将其与传统的步进滑阀的稳定性进行比较。阀的正常自由位置是通过将阀芯定位在两个不相等刚度的弹簧之间来确定的，从而使其“不平衡”。本文给出了该设计的实体模型并对其进行了分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Model of a Four-Position Unbalanced Hydraulic Valve

The present paper proposes and models a four-position unbalanced valve that was introduced by the author in 2006 [1] in a hydraulic system used to save and recover braking power. The valve modulates the oil flow from a free-wheeling mode to braking-and-storing energy, to full braking, to recovering energy and accelerating a load. The valve design achieves this by combining the operating characteristics of the sliding and the rotary operation. The key goals of the present analysis are to demonstrate that the four-position operation is attainable, and to evaluate the valve stability during the transient and the steady state modes of operation and compare it with the stability of the conventional stepped-spool valves. The normal, freewheeling position of the valve is determined by locating its spool in between the two springs of unequal stiffness, thus making it “unbalanced”. The solid model of the proposed design is presented and analysed here.

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Tenth International Conference on Computer Modeling and Simulation (uksim 2008)

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