Vehicle Oil Sensor Vibration Isolation Technology Research

2022 4th World Symposium on Artificial Intelligence (WSAI) Pub Date : 2022-06-23 DOI:10.1109/wsai55384.2022.9836550

Hua Yang, M. Wang, Jing Tian, Hanqing Huang, Yunti Liu, Jibin Zhao, Lunming Huang

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Abstract

During the acceleration of the vehicle, the oil sensor will generate violent vibration, which will affect its measurement accuracy. For the vibration problem of the oil sensor, a vibration isolation device is proposed to achieve the purpose of vibration isolation. To this end, this paper takes the oil-liquid sensor vibration isolation device as the research object, establishes a two-dimensional CFD simulation model with the help of Fluent software, and studies the influence of different damping media and spring stiffness on the oil-liquid sensor integration device. The results show that the use of a spring with a stiffness coefficient of 1500N/m in the horizontal direction, a spring with a stiffness coefficient of 3000N/m in the vertical direction and diesel oil or kerosene as the damping medium can effectively improve the vibration isolation effect of the vibration isolation system for the oil-hydraulic sensor, reduce the data acquisition error caused by severe vibration, and provide a theoretical basis for the optimal design of the vibration isolation system for the oil-hydraulic sensor.

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汽车油传感器隔振技术研究

在车辆加速过程中，油传感器会产生剧烈的振动，影响其测量精度。针对油传感器的振动问题，提出了一种隔振装置，以达到隔振的目的。为此，本文以油液传感器隔振装置为研究对象，借助Fluent软件建立二维CFD仿真模型，研究不同阻尼介质和弹簧刚度对油液传感器集成装置的影响。结果表明:在水平方向上采用刚度系数为1500N/m的弹簧，在垂直方向上采用刚度系数为3000N/m的弹簧，并以柴油或煤油为阻尼介质，可有效提高隔振系统对油液传感器的隔振效果，减少剧烈振动引起的数据采集误差;为油液传感器隔振系统的优化设计提供理论依据。

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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来源期刊

2022 4th World Symposium on Artificial Intelligence (WSAI)

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