The development of methodological techniques and an algorithm for diagnosing modern intake systems for internal combustion engines

IF 1.2 Q3 ENGINEERING, MECHANICAL FME Transactions Pub Date : 2022-01-01 DOI:10.5937/fme2201302b

A. Balyasnikov, A. Gritsenko, V. Shepelev, B. Kaliyev, N. Kostyuchenkov, O. Fadina

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Abstract

Type Diagnosing and detecting malfunctions in internal combustion engines (ICE) is not an easy task due to their complex design. Timely and high-quality ICE monitoring allows performance to be maintained and prevents breakdowns. Vibration and acoustic analysis is a powerful and informative tool for detecting faults even at an early stage. This article considers a method for determining the main malfunctions of the valvetrain (VT) (tightness of the "valve-seat" interface, thermal gap in the valve drive, valve opening and closing phases) by measuring and analyzing vibroacoustic pulses caused by the operation of individual engine elements. The maximum amplitude and the moment of vibration impulses are used as signal parameters. For the reference signal of the piston, the top dead center (TDC) of the cylinder under study, a vibration pulse from the impact of the piston on an elastic tip placed in the combustion chamber is taken. This technique makes it possible to exclude the external influences and inaccuracies associated with a change in the geometry ICE elements.

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现代内燃机进气系统诊断方法技术和算法的发展

内燃机由于其复杂的设计，诊断和检测故障不是一件容易的事情。及时和高质量的ICE监控可以保持性能并防止故障。振动和声学分析是一种功能强大且信息丰富的工具，可以在早期发现故障。本文提出了一种通过测量和分析由发动机各部件运行引起的振动声脉冲来确定气门机构主要故障(气门-阀座界面的紧密性、气门传动的热间隙、气门开启和关闭阶段)的方法。以振动脉冲的最大幅值和弯矩作为信号参数。作为参考信号的活塞，即所研究气缸的上止点(TDC)，取活塞撞击放置在燃烧室的弹性尖端的振动脉冲。这种技术可以排除与几何ICE元素变化相关的外部影响和不准确性。

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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