Lubrication Reliability and Oil Churning Loss of Differential Gear Trains in a Mechanical-Hydraulic Coupling Mechanism

Eksploatacja i Niezawodność – Maintenance and Reliability Pub Date : 2024-01-27 DOI:10.17531/ein/182434

L. Wan, Hao Niu, Zhi-yuan Sun, Jinying Jiang, Wei Qin, Han-zheng Dai

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Abstract

A differential gear train (DGT) is a crucial component of a mechanical-hydraulic coupling mechanism. The transmission process generates oil churning losses, which significantly impact the overall transmission efficiency. Due to the complexity of DGTs and the unpredictability of lubrication reliability, traditional analysis of churning characteristics is inadequate. In this study, the moving particle semi-implicit (MPS) method is employed to analyze the effects of steady-state rotation speeds, dynamic rotation speeds, and oil filling heights on the oil churning characteristics of DGTs. The accuracy of the MPS method in predicting churning loss is illustrated by the average absolute percentage error of 6.4% obtained experimentally. It is concluded that: increasing the oil filling height improves lubrication reliability by 20.9%, but results in greater power loss. The lubrication reliability and power loss of DGTs with different output forms are mutually advantageous under different influencing factors. This paper helps to improve the lubrication reliability of DGTs.

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机械液压耦合机构中差速齿轮系的润滑可靠性和搅油损失

差速器（DGT）是机械液压耦合机构的重要组成部分。传动过程会产生搅油损失，严重影响整体传动效率。由于 DGT 的复杂性和润滑可靠性的不可预测性，传统的搅油特性分析是不够的。本研究采用移动粒子半隐式（MPS）方法分析了稳态转速、动态转速和注油高度对 DGT 搅油特性的影响。实验得出的平均绝对百分比误差为 6.4%，说明了 MPS 方法在预测搅油损失方面的准确性。结论是：增加注油高度可将润滑可靠性提高 20.9%，但会导致更大的功率损耗。在不同的影响因素下，不同输出形式的 DGT 的润滑可靠性和功率损耗是互为因果的。本文有助于提高 DGT 的润滑可靠性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Eksploatacja i Niezawodność – Maintenance and Reliability

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