中国机械工程
中國機械工程
중국궤계공정
CHINA MECHANICAl ENGINEERING
2015年
17期
2290-2296
,共7页
吴占涛%程军圣%李宝庆%郑近德
吳佔濤%程軍聖%李寶慶%鄭近德
오점도%정군골%리보경%정근덕
局部特征尺度分解%微分算子%故障诊断%内禀尺度分量%转子
跼部特徵呎度分解%微分算子%故障診斷%內稟呎度分量%轉子
국부특정척도분해%미분산자%고장진단%내품척도분량%전자
local characteristic-scale decomposition(LCD)%differential operator%fault diagnosis%intrinsic scale component(ISC)%rotor
针对局部特征尺度分解(LCD)方法在目标信号所含频率分量较接近时分解能力降低,易出现模态混淆现象,从而导致内禀尺度分量失去原有物理意义的问题,提出了基于微分算子的局部特征尺度分解(DOLCD).DOLCD 在对目标信号进行分解前,先将目标信号进行一阶微分,则在频率比一定的情况下,可提升分解能力及抑制模态混淆能力.研究了 DOLCD 方法的原理,通过仿真信号模型将DOLCD 与 LCD 的分解能力进行对比分析,结果表明,DOLCD 方法在提高分解能力,抑制模态混淆等方面具有一定的优越性,并将 DOLCD 方法应用于转子不对中故障的诊断,结果表明该方法有效.
針對跼部特徵呎度分解(LCD)方法在目標信號所含頻率分量較接近時分解能力降低,易齣現模態混淆現象,從而導緻內稟呎度分量失去原有物理意義的問題,提齣瞭基于微分算子的跼部特徵呎度分解(DOLCD).DOLCD 在對目標信號進行分解前,先將目標信號進行一階微分,則在頻率比一定的情況下,可提升分解能力及抑製模態混淆能力.研究瞭 DOLCD 方法的原理,通過倣真信號模型將DOLCD 與 LCD 的分解能力進行對比分析,結果錶明,DOLCD 方法在提高分解能力,抑製模態混淆等方麵具有一定的優越性,併將 DOLCD 方法應用于轉子不對中故障的診斷,結果錶明該方法有效.
침대국부특정척도분해(LCD)방법재목표신호소함빈솔분량교접근시분해능력강저,역출현모태혼효현상,종이도치내품척도분량실거원유물리의의적문제,제출료기우미분산자적국부특정척도분해(DOLCD).DOLCD 재대목표신호진행분해전,선장목표신호진행일계미분,칙재빈솔비일정적정황하,가제승분해능력급억제모태혼효능력.연구료 DOLCD 방법적원리,통과방진신호모형장DOLCD 여 LCD 적분해능력진행대비분석,결과표명,DOLCD 방법재제고분해능력,억제모태혼효등방면구유일정적우월성,병장 DOLCD 방법응용우전자불대중고장적진단,결과표명해방법유효.
A novel non-stationary signal method differential operator based LCD(DOLCD)was proposed for improving the LCD method,of which,when the target signal contained components with frequencies close to each other,the decomposition ability was decreased,mode mixing phenomenon would easily occur and the physical meaning of intrinsic scale components decomposed were lost.A differential operator was used to differentiate the target signal in time domain,then the differentiated target signal was decomposed with DOLCD,then in the certain frequency ratio,the decomposition ability was enhanced,and the mode mixing was inhibited.The paper firstly studied the theory of DOLCD,then simulation experiments were used to compare the decomposition ability of DOLCD with LCD.The results indicate that DOLCD is more efficient in improving the decomposition ability,and inhibiting the mode mixing than LCD.Finally,the proposed method was applied to diagnose the rotor with misalignment faults successfully which indicated the effectiveness of DOLCD.