当前位置: 首页> 交通会议论文数据库 >详情
原文传递 The Study about Piston Pin Noise of Full Floating System in the Internal-Combustion Engine
题名: The Study about Piston Pin Noise of Full Floating System in the Internal-Combustion Engine
正文语种: 中文
作者: Liu Bo Tang Chaoyang Zhan Zhangsong Yang Jincai Li Xiaofeng Gu Qingwei Liu Gang
作者单位: Automobile Co., Ltd. Global R&D Center in Changan Automobile Co., Ltd.
关键词: NVH ticking noise wavelet analysis multi body dynamics EHD Analysis
摘要:   This study aims at the mechanism of piston pin noise of full floating system and resolving the piston pin noise problem at hot idle condition. The piston pin noise sounds like ticking noise, and generates by the collision between the piston pin and connecting rod when working at big clearance. The noise is annoyed and unacceptable. The NVH(Noise Vibration and Harshness)measurement re- sults show the range of piston pin noise frequency is range from 1500Hz to 4000Hz. When crank run two circles, there is one time ticking noise. The ticking noise occurs at around 30 deg. after TDC of exhaust stroke. Then, multi body dynamics analysis and center orbit of pis- ton pin simulation are used to reveal the mechanism of piston pin noise of full floating system. By dominating the NVH testing and CAE methods, the relationship between the ticking noise and the clearance of piston pin and connecting rod is obtained, and the heat distor- tion of connecting rod can be simulation when hot. The ticking noise is more clearly with more clearance between piston pin and connect- ing rod. The ticking noise shows strong dependence on the distortion of connection rod. But there are some limitations of this study, for example, the vibration sensors cannot be installed on the surface of piston pin or the connecting rod because of the high temperature and high rotating speed, therefore, we cannot get the vibration caused by the pin colliding with connecting rod directly. So, in this paper we will test the acceleration on the engine block for analyzing the collision. And we can estimate the piston pin movement behaved by CAE analysis. In this study, two main proposals are researched to decrease piston pin noise at hot idle condition, one is reduce the clearance of piston pin and connecting rod, another one is increase the stiffness of connecting rod.
会议日期: 20171024
会议举办地点: 上海
会议名称: 第19届亚太汽车工程年会暨2017中国汽车工程学会年会
出版日期: 1024-01-20
母体文献: 第19届亚太汽车工程年会暨2017中国汽车工程学会年会论文集
检索历史
应用推荐