No.1007E 2010 Theoretical Analysis of Mechanical Efficiency in Vane Pump

Category TECHNICAL PAPER
Author Y. INAGUMA
Automotive Components Engineering Dept., Bearing & Driveline Operations Headquarters, Doctor of Engineering
Abstract This paper describes the theoretical analysis on the mechanical effi ciency of a hydraulic balanced vane pump and presents a design concept to decide values such as vane thickness and cam lift to improve its mechanical effi ciency. The friction torque characteristics of the balanced vane pump, especially the friction torque caused by the friction between a cam contour and vane tips are both experimentally and theoretically investigated. Although the friction force increases with vane thickness increase due to increase in the vane force, the mechanical effi ciency of the vane pump does not decrease when the cam lift becomes large as the vane thickness is increased. An important parameter e defi ned as the ratio to be obtained by dividing the cam lift by the vane thickness determines essentially the mechanical efficiency of the vane pump. The pumps with the same e have the same mechanical effi ciencies, even if the cam lift or the vane thickness varies. A larger value of e leads the vane pump to obtain a higher mechanical efficiency. Additionally reducing the friction coefficient at the vane tip contributes to an improvement of the mechanical effi ciency.
Keyword hydraulic power system, vane pump, friction torque, mechanical effi ciency, cam lift, vane thickness
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