中国机械工程
中國機械工程
중국궤계공정
CHINA MECHANICAl ENGINEERING
2012年
4期
435-438
,共4页
张玉存%马睿%付献斌%孔涛
張玉存%馬睿%付獻斌%孔濤
장옥존%마예%부헌빈%공도
旋转机械%特征提取%拓扑动力系统%拓扑传递
鏇轉機械%特徵提取%拓撲動力繫統%拓撲傳遞
선전궤계%특정제취%탁복동력계통%탁복전체
rotating machinery system%feature extraction%topological dynamic system%topological transitivity
旋转机械系统的复杂性,使得其特征参量具有较强的非线性和耦合性,对其进行有效特征提取存在困难。为了提取旋转机械系统耦合故障的特征信息,建立其状态特征信息拓扑空间,并构建旋转机械系统拓扑动力系统模型,基于系统的拓扑传递特性,提出了新的旋转机械系统特征提取的信息空间变换方法。通过跟踪系统特征信息的变换及传递过程,实现对系统特征信息的提取,从一个新的角度为分析旋转机械系统工作特性奠定基础。最后将该方法应用到含油膜力的裂纹故障、碰摩故障及裂纹碰摩耦合故障的旋转机械系统信息特征提取中,并通过仿真实验验证了理论方法的可行性。
鏇轉機械繫統的複雜性,使得其特徵參量具有較彊的非線性和耦閤性,對其進行有效特徵提取存在睏難。為瞭提取鏇轉機械繫統耦閤故障的特徵信息,建立其狀態特徵信息拓撲空間,併構建鏇轉機械繫統拓撲動力繫統模型,基于繫統的拓撲傳遞特性,提齣瞭新的鏇轉機械繫統特徵提取的信息空間變換方法。通過跟蹤繫統特徵信息的變換及傳遞過程,實現對繫統特徵信息的提取,從一箇新的角度為分析鏇轉機械繫統工作特性奠定基礎。最後將該方法應用到含油膜力的裂紋故障、踫摩故障及裂紋踫摩耦閤故障的鏇轉機械繫統信息特徵提取中,併通過倣真實驗驗證瞭理論方法的可行性。
선전궤계계통적복잡성,사득기특정삼량구유교강적비선성화우합성,대기진행유효특정제취존재곤난。위료제취선전궤계계통우합고장적특정신식,건립기상태특정신식탁복공간,병구건선전궤계계통탁복동력계통모형,기우계통적탁복전체특성,제출료신적선전궤계계통특정제취적신식공간변환방법。통과근종계통특정신식적변환급전체과정,실현대계통특정신식적제취,종일개신적각도위분석선전궤계계통공작특성전정기출。최후장해방법응용도함유막력적렬문고장、팽마고장급렬문팽마우합고장적선전궤계계통신식특정제취중,병통과방진실험험증료이론방법적가행성。
Because of the complexity of a rotating machinery system,it is difficulty to extract features effectively for its nonlinearity and coupling characteristic parameters.In order to extract the coupling characteristics of rotating machinery system,a state feature information topological space was established and a topological dynamic system model was constructed.A new method of information space transformation to express the rotating machinery system and extract features was put forward according to the topological transitivity of the system.Through tracing the transfer and converting processes of feature information of the system,the feature of the system was extracted.A foundation for analysing the rotating machinery system working characteristics was laid from a new perspective.The proposed method was applied to an oil film force rotating machinery with single fault of rub,single fault of crack and coupling fault for feature extraction,the feasibility of the proposed approach was demonstrated by simulation experiments.