A Study on an Experimental System of Wiper–Windshield Friction Vibration and Noise

A Study on an Experimental System of Wiper–Windshield Friction Vibration and Noise

With the rapid development of electric vehicles, the issue of wiper–windshield friction noise has become more prominent. However, limitations in the hardware and software configurations of existing experimental systems restrict in-depth studies of frictional vibration and noise mechanisms. This stud...

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Bibliographic Details
Main Authors: Ningning Liu, Yansong Wang, Hui Guo, Zhian Mao, Shuai Zhang, Shuang Huang, Tao Yuan
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Lubricants
Subjects:
wiper–windshield frictional vibration and noise
experimental system design
human–computer interaction
data acquisition and processing
Online Access:https://www.mdpi.com/2075-4442/13/7/296
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Summary:With the rapid development of electric vehicles, the issue of wiper–windshield friction noise has become more prominent. However, limitations in the hardware and software configurations of existing experimental systems restrict in-depth studies of frictional vibration and noise mechanisms. This study develops an experimental system with functions for working condition adjustment, data acquisition, and analysis of wiper–windshield frictional vibration and noise. First, the overall design of the wiper–windshield experimental system is described. The system allows adjustment of the motion gear and friction coefficient and facilitates data collection and analysis of pressure, vibration, and noise. The design includes the mechanical structure, electronic and electrical components, and software system of the experimental setup. A PLC control program (lower computer) and human–computer interaction software (upper computer) based on LabVIEW are developed to drive and control the mechanical structure, enabling working condition adjustment, data acquisition, and analysis. Finally, an experimental scheme is implemented to verify the feasibility of the wiper–windshield experimental system. Mechanical property, vibration, and noise data from the wiper are collected by simulating the operating conditions of a real vehicle. The experimental results demonstrate that the designed wiper–windshield experimental system can adjust various working conditions and support the collection and analysis of diverse data, facilitating theoretical research on the generation mechanism, influence rules, and control methods for wiper–windshield frictional vibration and noise.
ISSN:2075-4442

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