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Mechanical Efficiency of HMCVT under Steady‐State Conditions

Guangqing Zhang, Hengtong Zhang, Yanyan Ge, Wei Qiu, Maohua Xiao, Xiaomei Xu, Minghui Zhou

2021Shock and Vibration12 citationsDOIOpen Access PDF

Abstract

Hydromechanical continuously variable transmission (HMCVT) technology has been widely used due to its advantages of ride comfort and fuel economy. The relatively uniform efficiency expression of HMCVT is obtained by studying torque and transmission ratios to reveal steady‐state characteristics and predict the output torque. Mathematical models of torque ratios are derived by analyzing the HMCVT system power flow and calculating the equivalent meshing power of epicyclic gear train and efficiency for the hydraulic system. The relationship between mechanical system transmission and hydraulic system parameters is established using the torque ratios, and a mechanical system demanding surface is proposed. Two numerical examples of the HMCVT system with single and dual variable units are demonstrated to establish an effective and convenient method. The method is validated through a physical prototype TA1‐02 test.

Topics & Concepts

Steady state (chemistry)State (computer science)Structural engineeringControl theory (sociology)Computer scienceEngineeringChemistryAlgorithmArtificial intelligencePhysical chemistryControl (management)Mechanical Engineering and Vibrations ResearchVibration and Dynamic AnalysisVehicle Dynamics and Control Systems
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