Research on the Field Dynamic Balance Technologies for Large Diesel Engine Crankshaft System

• Main Authors: Shihai Zhang, Zimiao Zhang
• Format: Article
• Language: English
• Published: Hindawi Limited 2017-01-01
• Series: Shock and Vibration
• Online Access: http://dx.doi.org/10.1155/2017/7150472

In order to reduce the unbalancing mass and the accompanying unbalancing vibration of diesel engine crankshaft system, the field dynamic balancing method and its key technologies are presented in the paper. In order to separate the unbalancing vibration signal from the total vibration signal of crankshaft system, the fundamental frequency signal fitting principle based on the least square method was introduced firstly, and then wavelet noise reduction method was applied to improve the signal fitting precision of least square method. Based on the unbalancing vibration signal analysis and assessment of crankshaft system, the influence coefficient method was applied to calculate the value and phase of the equivalent unbalancing mass in flywheel. To easily correct the unbalancing condition of crankshaft system, the unbalancing adjustment equipment was designed based on the flywheel structure. The balancing effect of field dynamic balancing system designed for the large diesel engine has been verified by field experiments.