Torsional vibration monitor
First Claim
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1. Apparatus for monitoring the torsional vibrations of a rotating shaft, comprising:
- means for producing a signal representation of the instantaneous angular velocity of said shaft;
means responsive to said instantaneous angular velocity signal for producing a signal representation of composite instantaneous torsional vibrations of said shaft;
first means for shifting said instantaneous torsional vibration signal from a measuring frequency range to a lower frequency range to produce a lower frequency measuring signal;
second means for shifting said instantaneous torsional vibration signal from said measuring frequency range to said lower frequency range to produce a lower frequency reference signal shifted in phase from said lower frequency measuring signal;
a plurality of frequency spectrum analysis channels, each said channel including(a) means for filtering said lower frequency measuring signal to remove frequency components outside a preselected frequency band;
(b) means for filtering said lower frequency reference signal to remove frequency components outside said preselected frequency band;
(c) means for shifting said lower frequency measuring signal back to said measuring frequency range after filtering to produce a filtered measuring signal;
(d) means for shifting said lower frequency reference signal back to said measuring frequency range after filtering to produce a filtered reference signal; and
(e) means for combining said filtered measuring signal and said filtered reference signal to produce a torsional vibration signal representation of shaft torsional vibrations within a preselected frequency range.
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Abstract
An improvement in torsional vibration monitors wherein a frequency shift is applied to the torsional vibration signal to achieve improved stability and increased confidence in the measurement. The torsional vibration signal is applied to parallel frequency shifters to produce a lower frequency measuring signal and a lower frequency reference signal. The two lower frequency signals are applied to parallel connected filters to obtain spectral content of the signals. Once the spectral content is obtained, each lower frequency measuring signal and each lower frequency reference signal is shifted back to the original frequency range to produce filtered reference signals and filtered measuring signals. These signals are then correspondingly summed to provide a set of torsional vibration signals segregated with respect to the frequency spectrum and meaningful with respect to a time base.
25 Citations
8 Claims
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1. Apparatus for monitoring the torsional vibrations of a rotating shaft, comprising:
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means for producing a signal representation of the instantaneous angular velocity of said shaft; means responsive to said instantaneous angular velocity signal for producing a signal representation of composite instantaneous torsional vibrations of said shaft; first means for shifting said instantaneous torsional vibration signal from a measuring frequency range to a lower frequency range to produce a lower frequency measuring signal; second means for shifting said instantaneous torsional vibration signal from said measuring frequency range to said lower frequency range to produce a lower frequency reference signal shifted in phase from said lower frequency measuring signal; a plurality of frequency spectrum analysis channels, each said channel including (a) means for filtering said lower frequency measuring signal to remove frequency components outside a preselected frequency band; (b) means for filtering said lower frequency reference signal to remove frequency components outside said preselected frequency band; (c) means for shifting said lower frequency measuring signal back to said measuring frequency range after filtering to produce a filtered measuring signal; (d) means for shifting said lower frequency reference signal back to said measuring frequency range after filtering to produce a filtered reference signal; and (e) means for combining said filtered measuring signal and said filtered reference signal to produce a torsional vibration signal representation of shaft torsional vibrations within a preselected frequency range. - View Dependent Claims (2, 3, 4)
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5. A method for monitoring torsional vibrations in a rotating shaft, comprising the steps of:
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(a) generating a signal representation of the instantaneous angular velocity of said shaft; (b) demodulating the phase of said instantaneous angular velocity signal to produce a signal representation of torsional vibrations in said shaft; (c) shifting the frequency of said torsional vibration signal from a measuring frequency range to obtain a lower frequency measuring signal; (d) shifting the frequency of said torsional vibration signal from said measuring frequency range to obtain a lower frequency reference signal shifted in phase from said lower frequency measuring signal; (e) filtering said lower frequency measuring signal with a plurality of parallel connected filters to produce a plurality of spectrally distributed lower frequency measuring signals; (f) filtering said lower frequency reference signal with a plurality of parallel connected filters to produce a plurality of spectrally distributed lower frequency reference signals; (g) shifting each spectrally distributed lower frequency measuring signal and each spectrally distributed lower frequency reference signal back to said measuring frequency range; and (h) correspondingly combining measuring signals and reference signals to obtain a set of signals representative of the spectral content of torsional vibrations of said shaft. - View Dependent Claims (6)
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7. A method for monitoring torsional vibrations in the rotating shaft of a turbine-generator set having an electrical output whose frequency is proportional to shaft speed, said method comprising the steps of:
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(a) generating a signal representation of the instantaneous angular velocity of said shaft; (b) demodulating the phase of said instantaneous angular velocity signal to produce a signal representation of torsional vibrations in said shaft; (c) shifting the frequency of said torsional vibration signal from a measuring frequency range by an amount proportional to the frequency of said electrical output to obtain a lower frequency measuring signal; (d) shifting the frequency of said torsional vibration signal from said measuring frequency range by an amount proportional to the frequency of said electrical output to obtain a lower frequency reference signal shifted in phase from said lower frequency measuring signal; (e) filtering said lower frequency measuring signal with a plurality of parallel connected filters to produce a plurality of spectrally distributed lower frequency measuring signals; (f) filtering said lower frequency reference signal with a plurality of parallel connected filters to produce a plurality of spectrally distributed lower frequency reference signals; (g) shifting each spectrally distributed lower frequency measuring signal and each spectrally distributed lower frequency reference signal back to said measuring frequency range; and (h) correspondingly combining measuring signals and reference signals to obtain a set of signals representative of the spectral content of torsional vibrations of said shaft. - View Dependent Claims (8)
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Specification
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Current AssigneeGeneral Electric Company
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Original AssigneeGeneral Electric Company
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InventorsWolfinger, John F.
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Primary Examiner(s)Ciarlante, Anthony V.
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Application NumberUS06/173,643Time in Patent Office580 DaysField of Search73/650, 73/658, 73/659, 73/660, 324/161, 361/236US Class Current73/650CPC Class CodesG01H 1/10 of torsional vibrations
