Modeling and Optimization Study of a Tightly Integrated Rotary Electric Motor-Hydraulic Pump

ASME/BATH 2019 Symposium on Fluid Power and Motion Control Pub Date : 2019-12-10 DOI:10.1115/fpmc2019-1626

Garrett R. Bohach, Nishanth, E. Severson, J. Ven

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引用次数: 4

Abstract

To meet the growing trend of electrification of mechanical systems, this paper presents a compactly integrated electric motor and hydraulic pump. The proposed application for this machine requires high flow rates at low pressure differentials and four quadrant operation. The hydraulic pump architecture selected for this machine is a radial ball piston pump. An inside impinged version of this architecture allows for efficient filling of the chambers and is radial balanced, both of which allow highspeed operation for increased power density. The radial ball piston pump is less expensive to manufacture and is radially more compact than a standard radial cylindrical piston pump. A model of the pump and the integrated electric motor have been created to study scaling relationships and drive detailed design and optimization. The scaling study considers how displacement is affected by pump diameter, and how the diameter and required torque change with angular velocity. The detailed model considers the effect of valve timing, piston-cylinder clearance, and pump geometry on the efficiency. The model is then exercised in an optimization of the machine parameters.

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旋转电机-液压泵紧密集成的建模与优化研究

为了适应机械系统电气化的发展趋势，本文提出了一种紧凑集成的电动机和液压泵。这台机器的建议应用要求在低压差和四象限操作下的高流量。本机床选用的液压泵结构为径向球柱塞泵。这种结构的内部撞击版本允许有效填充腔室和径向平衡，这两者都允许高速运行以增加功率密度。径向球柱塞泵制造成本较低，并且径向比标准径向圆柱柱塞泵更紧凑。建立了泵和集成电机的模型，研究了比例关系和驱动的详细设计和优化。标度研究考虑了排量如何受泵径的影响，以及泵径和所需扭矩如何随角速度变化。详细的模型考虑了配气正时、活塞缸间隙和泵的几何形状对效率的影响。然后，对该模型进行了机器参数的优化。

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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