Method and apparatus for monitoring rotating machinery
First Claim
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1. A method of monitoring operating conditions of a rotating device comprising the steps of:
- setting a threshold vibrational characteristic for at least one component in the device;
sensing vibration of said device to obtain a vibration signal in a time domain;
performing a Fourier transform on the vibration signal in the time domain to produce a vibration signal in a frequency domain;
dividing the vibration signal in the frequency domain into a plurality of bands;
identifying a band containing a frequency at which said component is known to vibrate; and
comparing the vibration signal in the frequency domain in said band with said component-level threshold to determine a condition of said at least one component.
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Abstract
A monitoring method and device which is capable of determining the overall fitness or condition of the device being monitored while simultaneously detecting unknown or unrecognized vibration frequencies. In addition, setting threshold values corresponding to the environment surrounding the device reduces the incidence of false alarms. False alarms may be controlled while detection of true alarms may be maximized by assigning values indicative of thresholds crossed and averaging the values before issuing an alarm. The monitoring system may also provide detailed information as to the operating condition of the device so as to allow the device to operate closer to its margin of safety. Thus, the device may handle more power or speed, without the need to modify the physical design. In addition, an onboard processing unit may be used to determine when the physical load on the device is approaching its physical limits and warn the operator so as to prevent the device from exceeding those limits.
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Citations
20 Claims
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1. A method of monitoring operating conditions of a rotating device comprising the steps of:
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setting a threshold vibrational characteristic for at least one component in the device;
sensing vibration of said device to obtain a vibration signal in a time domain;
performing a Fourier transform on the vibration signal in the time domain to produce a vibration signal in a frequency domain;
dividing the vibration signal in the frequency domain into a plurality of bands;
identifying a band containing a frequency at which said component is known to vibrate; and
comparing the vibration signal in the frequency domain in said band with said component-level threshold to determine a condition of said at least one component. - View Dependent Claims (2, 3, 4, 5)
setting a threshold amplitude for vibration of said device;
determining a peak vibration of the vibration signal in the time domain; and
comparing said peak vibration to said device-level threshold.
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6. A method of monitoring operating conditions of a rotating device comprising the steps of:
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sensing vibration of said device to obtain a vibration signal in a time domain;
determining an overall condition of said device;
determining a condition of a component in the device without a vibrational influence of surrounding components of the device; and
determining a condition of a component of the device based on an unpredicted vibrational frequency;
wherein said sensing step comprises the step of performing a Fourier transform on the vibration signal in the time domain to produce a vibration signal in a frequency domain, with said method further comprising the step of calculating a spectral component at zero frequency. - View Dependent Claims (7, 8, 9)
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10. A method of monitoring operating conditions of a rotating device comprising the steps of:
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sensing vibration of said device to obtain a vibration signal in a time domain;
determining an overall condition of said device;
determining a condition of a component in the device without a vibrational influence of surrounding components of the device;
determining a condition of a component of the device based on an unpredicted vibrational frequency;
determining an overall energy of the vibration signal in the time domain; and
,comparing said overall energy to a threshold.
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11. A method of monitoring operating conditions of a rotating device comprising the steps of:
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sensing vibration of said device to obtain a vibration signal in a time domain;
determining an overall condition of said device; and
determining a condition of a component in the device without a vibrational influence of surrounding components of the device;
wherein said vibration signal in the time domain comprises a debiased vibration signal and a debiased-rectified vibration signal.
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12. A method of controlling occurrences of false alarms while maximizing detection of true alarms in a device monitoring system comprising the steps of:
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sensing an operation condition of the device;
comparing said sensed operating condition to first thresholds;
assigning a value indicative of one of the first threshold values crossed;
accumulating a plurality of said values indicative of one of the first threshold values crossed;
calculating an average of said accumulated values; and
,determining an alarm based on said average. - View Dependent Claims (13, 14, 15, 16)
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17. A system for controlling occurrences of false alarms while maximizing detection of true alarms, said system comprising:
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a sensor for sensing an operation condition of the device; and
a controller responsive to said sensor, said controller comparing said sensed operating condition to first thresholds, assigning a value indicative of one of the first threshold values crossed, accumulating a plurality of said values indicative of one of the first threshold values crossed, calculating an average of said accumulated values, and determining an alarm based on said average.
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18. A method of operating a device close to an operating capacity comprising the steps of:
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sensing a vibrational signal of the device;
comparing said vibrational signal to a threshold, said threshold being set when the device is in a working environment;
determining a margin between said vibrational signal and said threshold;
changing operation of the device based on said margin;
providing a value indicative of increased operating capacity available based on said margin; and
indicating said value to an operator.
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19. A method of operating a device close to a predetermined operating capacity comprising the steps of:
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sensing a vibrational signal of the device;
comparing said vibrational signal to a threshold, said threshold being set when the device is in a working environment; and
indicating, based on said comparison, a change in a vibrational signal such that said device may operate close to the predetermined operating capacity.
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20. A method of operating a device close to a predetermined operating limit, said method comprising the steps of:
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sensing a vibrational signal of the device;
comparing said vibrational signal to a threshold;
indicating, based on said comparison, a desired change in an operating parameter, said operating parameter comprising at least one of oil level within the device, temperature of the device, stiffness of an element of the device, or vibration of an element of the device; and
performing said change.
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Specification
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Current AssigneeTextron IPMP L.P
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Original AssigneeTextron Systems Corporation (Textron Inc)
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InventorsChoe, Howard C., Chachich, Alan C., Woodroffe, Jaime A.
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Primary Examiner(s)Hoff, Marc S.
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Assistant Examiner(s)Barbee, Manuel L
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Application NumberUS09/268,106Time in Patent Office1,802 DaysField of Search702/33-36, 702/56, 702/77, 702/103, 702/189, 702/182-185, 702/193, 702/FOR.103, 702/FOR.104, 702/FOR.123, 702/FOR.124, 702/FOR.125, 702/FOR.126, 702/FOR-134, 702/FOR.136, 702/FOR.170, 702/FOR.171, 702/44, 736/50, 736/61, 736/60, 335/02, 340/680, 375/319US Class Current702/182CPC Class CodesG01H 1/003 of rotating machines G01H1/...
