Influence of Flow Force on the Flapper of a Water Hydraulic Servovalve

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概要

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• In this paper, flow force due to nozzle flow and its influence on the flapper-nozzle system for water hydraulic servovalves are discussed. The flow force acting on the flapper is estimated using the momentum theory, and expressed as a function of the nozzle pressure and flapper-nozzle gap. Analysis shows that the double nozzle flapper gives a quasi-linear characteristic to the relationship among the force on the flapper, the flapper gap and the spool velocity. The numerical result based on the theory is used to estimate the accuracy of the classical linear approximation. The moment due to the flow force resists input moment acting on the armature. Consequently the flow force reduces the magnitude of the change of the nozzle backpressures that drive the spool of the water hydraulic valve. Experimental verification of the theory is also presented.

• 一般社団法人日本機械学会の論文
• 1998-05-15

著者

• Urata Eizo

  Faculty Of Engineering Kanagawa University

• Yamashina C

  Ebara Research Co.ltd.

• Yamashina Chishiro

  Ebara Research Co. Ltd.

関連論文

• Development of a Water Hydraulic Servovalve
• Erosion by High-Water-Content Fluid Flowing from a V-Notch
• Study of a Flapper-Nozzle System for a Water Hydraulic Servovalve
• Unsteady Flow of Viscous Liquid in Long Circular Tube
• Control for Straightening Process of Seamless Pipe
• Influence of Flow Force on the Flapper of a Water Hydraulic Servovalve
• The Dynamic Characteristics of Oil Hydraulic Control Valve
• The Ramp Response of a Loaded Hydraulic Servomechanism
• Thrust of Poppet Valve

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