Experimental Testing of a Variable Displacement Pump/Motor That Uses a Hydro-Mechanically Timed Digital Valving Mechanism to Achieve Partial-Stroke Piston Pressurization (PSPP)

ASME/BATH 2019 Symposium on Fluid Power and Motion Control Pub Date : 2019-12-10 DOI:10.1115/fpmc2019-1693

Alissa Montzka, Nathan Epstein, M. Rannow, T. Chase, Perry Y. Li

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引用次数: 1

Abstract

This work describes an efficient means to adjust the power level of an axial piston hydraulic pump/motor. Conventionally, the displacement of a piston pump is varied by changing the stroke length of each piston. Since the losses do not decrease proportionally to the displacement, the efficiency is low at low displacements. Here, with partial-stroke piston pressurization (PSPP), displacement is varied by changing the portion of the piston stroke over which the piston is subjected to high pressure. Since leakage and friction losses drop as the displacement is decreased, higher efficiency is achieved at low displacements with PSPP. While other systems have implemented PSPP with electric or cam-actuated valves, the pump described in this paper is unique in implementing PSPP by way of a simple, robust hydro-mechanical valve system. Experimental testing of a prototype PSPP pump/motor shows that the full load efficiency is maintained even at low displacements.

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采用液压机械定时数字配气机构实现部分行程活塞增压(PSPP)的变量泵/马达实验测试

本文介绍了轴向柱塞式液压泵/马达功率调节的一种有效方法。通常，柱塞泵的排量是通过改变每个活塞的行程长度来改变的。由于损失不随排量成比例减少，因此在低排量时效率很低。在这种情况下，使用部分行程活塞增压(PSPP)，通过改变活塞承受高压的活塞行程部分来改变位移。由于泄漏和摩擦损失随着排量的减小而减小，因此使用PSPP可以在低排量下获得更高的效率。虽然其他系统已经通过电动或凸轮驱动阀实现了PSPP，但本文描述的泵通过简单，坚固的液压机械阀系统实现了PSPP，这是独一无二的。PSPP泵/电机样机的实验测试表明，即使在低排量下也能保持满负荷效率。

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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ASME/BATH 2019 Symposium on Fluid Power and Motion Control

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