Multiple discriminate analysis and data integration of vibration in rotation machinery
First Claim
1. A method of monitoring and analyzing vibrations in a rotating machine having rolling element bearings to determine machine bearing condition comprising the steps ofa. providing an accelerometer to detect an acceleration signal indicative of machine vibration;
- b. determining the RMS value of said acceleration signal to provide a first signal;
c. filtering the acceleration signal for signal frequencies indicative of bearing surface defects, and converting the RMS value of said signal frequencies to a second signal;
d. determining the peak value of the acceleration signal, determining the ratio of said peak value to the RMS value of the first acceleration signal and converting said ratio to a third signal;
e. determining the square of the peak value of the acceleration signal, determining the ratio of said squared peak value to said first signal and converting said ratio to a fourth signal;
f. detecting a signal at the resonant frequency of the accelerometer, demodulating said resonant frequency signal and converting the low frequency component energy of the demodulated components to a fifth signal; and
g. combining said second through fifth signals in predetermined weights to obtain a voltage value indicative of the condition of the bearings in the rotating machine.
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Accused Products
Abstract
The Multiple Discriminant Analysis system described provides three parameters: (1) a Dynamic Force Factor (DFF) that characterizes the dynamic forces which act to reduce operational life of the bearing; (2) a Bearing Degradation Factor (BDF) that characterizes the actual condition of the rolling element bearing; and (3) a Life Expectancy Factor (LEF) that characterizes the overall condition of the first two factors. Each factor is configured in scalar form, wherein readings range from acceptable, to caution/degradation, to action required. DFF combines low frequency and high frequency dynamic forcing function discriminants. BDF combines, in this case, four powerful diagnostic bearing fault process discriminants, in a formulaic composition. The composition accurately describes the actual rolling element bearing condition indicating optimum or warning of a potential failure condition. The normally voluminous vibration data is compressed into three easily understood, yet highly informative numbers.
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Citations
12 Claims
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1. A method of monitoring and analyzing vibrations in a rotating machine having rolling element bearings to determine machine bearing condition comprising the steps of
a. providing an accelerometer to detect an acceleration signal indicative of machine vibration; -
b. determining the RMS value of said acceleration signal to provide a first signal;
c. filtering the acceleration signal for signal frequencies indicative of bearing surface defects, and converting the RMS value of said signal frequencies to a second signal;
d. determining the peak value of the acceleration signal, determining the ratio of said peak value to the RMS value of the first acceleration signal and converting said ratio to a third signal;
e. determining the square of the peak value of the acceleration signal, determining the ratio of said squared peak value to said first signal and converting said ratio to a fourth signal;
f. detecting a signal at the resonant frequency of the accelerometer, demodulating said resonant frequency signal and converting the low frequency component energy of the demodulated components to a fifth signal; and
g. combining said second through fifth signals in predetermined weights to obtain a voltage value indicative of the condition of the bearings in the rotating machine. - View Dependent Claims (2, 3)
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4. A method of monitoring and analyzing vibrations in a rotating machine having rolling element bearings to determine machine bearing condition comprising the steps of
a. providing an accelerometer to detect an acceleration signal indicative of machine vibration; -
b. filtering the vibration signal for signal frequencies indicative of bearing surface defects and converting the RMS value of said signal frequencies to a first voltage signal;
c. determining the RMS value of the acceleration signal;
d. determining the peak value of the acceleration signal, determining the ratio of said peak value to the RMS value of the acceleration signal and converting said ratio to a second voltage signal;
e. determining the square of the peak value of the acceleration signal, determining the ratio of said squared peak value and converting said ratio to a DC voltage;
f. detecting a signal at the resonant frequency of the accelerometer, demodulating said signal at the resonant frequency and converting its low frequency energy to a third DC voltage signal; and
g. combining said first voltage signal and at least two of said second, third and forth voltage signals in predetermined weights to obtain a voltage value indicative of the condition of the bearings in the rotating machine. - View Dependent Claims (5, 6)
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7. A method of monitoring and analyzing vibrations in a rotating machine having rolling element bearings to determine the dynamic forces acting on the bearings comprising the steps of
a. providing an accelerometer to detect an acceleration signal indicative of machine vibration; -
b. filtering the accelerometer signal for low frequencies below about four times the rotational speed of the machine, which are indicative of dynamic forces on the machine bearings, converting said low frequencies to a first voltage signal; and
c. filtering the acceleration signal for the high frequency impact energy signal frequencies indicative of bearing surface defects and converting the RMS value of said signal frequencies to a second voltage signal; and
combining a portion of said second voltage signal indicative of Hertzian fatigue with said first voltage signal to derive a third voltage signal indicative of the dynamic forces on the bearings.- View Dependent Claims (8)
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9. A system for monitoring and analyzing vibrations in a rotating machine having rolling element bearings to determine machine bearing condition comprising
a. an accelerometer mountable to the machine to sense vibrations and provide an acceleration signal indicative of machine vibration; -
b. first means receiving the acceleration signal determining the RMS value of said acceleration signal and providing a first signal indicative thereof;
c. a first filtering means for filtering the acceleration signal for signal frequencies indicative of bearing surface defects and converting the RMS value of said signal frequencies to a second signal, d. first means for determining the peak value of the acceleration signal and determining the ratio of said peak value to the first signal and converting said ratio to a third signal;
e. second means for determining the square of the peak value of the acceleration signal, determining the ratio of said squared peak value to said first signal and converting said ratio to a fourth signal;
f. detecting from the acceleration signal a signal at the resonant frequency of the accelerometer, demodulating the signal at the resonant frequency, and converting the demodulated signal to a fifth signal; and
g. means for combining said second through fifth signals to obtain a signal indicative of the condition of the bearings in the rotating machine. - View Dependent Claims (10, 11, 12)
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Specification