Xu, J.; Zhang, G.; Fan, S.; Ni, J.; Lian, J. Research on the Controllable Interface Response Enhancement of the Textured Pilot Valve. Machines2022, 10, 357.
Xu, J.; Zhang, G.; Fan, S.; Ni, J.; Lian, J. Research on the Controllable Interface Response Enhancement of the Textured Pilot Valve. Machines 2022, 10, 357.
Xu, J.; Zhang, G.; Fan, S.; Ni, J.; Lian, J. Research on the Controllable Interface Response Enhancement of the Textured Pilot Valve. Machines2022, 10, 357.
Xu, J.; Zhang, G.; Fan, S.; Ni, J.; Lian, J. Research on the Controllable Interface Response Enhancement of the Textured Pilot Valve. Machines 2022, 10, 357.
Abstract
Based on the textured controllable interface effect, the dynamic performances of the textured and ordinary pilot valve are analyzed experimentally, and the influence of the textured controllable interface on the response of pilot valve is studied. Results show that when Pin is small, the textured surface shortens the reciprocating time of valve core, increasing the flow rate, and speeds up the piston stroke of oil cylinder. The valve core actions much more stable and sensitivity. Meanwhile, combined with the theoretical calculation, the operation mechanism of texturing the pilot valve is analyzed. It is concluded that the stress of textured valve core sealing surface is greater than that of ordinary one, and the pressure difference gradually decreases with the increase of Pin, and the flow difference is basically the same as the force on the sealing surface. This indicates that the textured surface improves lubrication characteristics, reduces the friction between components. The textured valve makes the velocity changes gently, and enhances the responsiveness and stability of the valve. Those related results provide a new idea for enhancing the response design of the pilot valve.
Keywords
pilot valve; texture; response; stress; flow field analysis
Subject
Engineering, Mechanical Engineering
Copyright:
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