Dynamic Characteristics of ‘Floating’ Valve Plate for Internal Curve Hydraulic Motor

Dynamic Characteristics of ‘Floating’ Valve Plate for Internal Curve Hydraulic Motor

The internal curve hydraulic motor valve plate has a clearance self-compensation performance that can effectively improve the working efficiency of the valve plate. However, the dynamic characteristics of the valve plates require further investigation. This study considers the self-compensating ‘flo...

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Bibliographic Details
Main Authors: Wei Ma, Guolai Yang, Wenbin Cao, Shaohui Yao, Guixiang Bai, Chuanchuan Cao, Shoupeng Song
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Lubricants
Subjects:
internal curve hydraulic motor
‘floating’ valve plate
dynamic characteristics
film thickness
surplus pressing force
Online Access:https://www.mdpi.com/2075-4442/13/7/307
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Summary:The internal curve hydraulic motor valve plate has a clearance self-compensation performance that can effectively improve the working efficiency of the valve plate. However, the dynamic characteristics of the valve plates require further investigation. This study considers the self-compensating ‘floating’ valve plate as the research object, proposes a dynamic characteristic analysis method for the internal curve hydraulic motor valve plate, and explores the changing rule of oil film thickness and surplus pressing force of the valve plate. The results showed that an increase in the inlet pressure and oil temperature led to an increase in the thickness of the oil film, and the amplitude of the oil film thickness was larger, whereas the rotational speed of the oil film thickness of the valve plate pair was not obvious. When the inlet pressure is lower than 8 MPa, and the oil temperature is in the range of 20–30 °C, the oil film is mainly subjected to the squeezing effect of the valve plate, and the displacement of the valve plate decreased with increasing rotational speed. The inlet pressure is the main factor affecting the displacement of the ‘floating’ valve plate, and when the inlet pressure reaches 8.7 MPa, the valve plate is in hydrostatic balance support. In addition, the surplus pressing force coefficient of the valve plate decreased with increasing inlet pressures. This study provides theoretical support for the design of variable pressing force valve plates for internal curve hydraulic motors by investigating the dynamic characteristics of “floating” valve plates.
ISSN:2075-4442

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