Method and apparatus to provide dynamic ultrasonic measurement of rolling element bearing parameters
First Claim
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1. An apparatus to measure stress in a rolling element bearing, comprising:
- an acoustic signal unit to transmit an acoustic signal across the rolling element bearing, to receive the acoustic signal, and to output information corresponding to a time of flight of the acoustic signal, said acoustic signal unit comprising a signal generation unit to generate a first electrical signal, a first transducer to generate the acoustic signal in response to the first electrical signal, and a second transducer to generate a second electrical signal in response to the received acoustic signal; and
a calculation unit to calculate stress in the rolling element bearing from the outputted information, said calculation unit comprising a comparison unit to compare the first and second electrical signals to determine the time of flight of the acoustic signal, wherein the time of flight corresponds to the stress in the rolling element bearing, said comparison unit calculating the stress according to the formula
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Abstract
An acoustic signal unit comprises a signal generation unit to generate a first electrical signal, a first transducer to generate an acoustic signal in response to the first electrical signal, and a second transducer to generate a second electrical signal in response to the received acoustic signal. A calculation unit is provided to compare the first and second electrical signals to determine the time of flight of the acoustic signal, wherein the time of flight corresponds to the stress in the rolling element bearing. The stress may be calculated according to a formula or by multiplying an acoustic time constant for the rolling element bearing by the distance traveled by the acoustic signal across the rolling element bearing, and by the time of flight determined by said comparison unit.
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Citations
20 Claims
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1. An apparatus to measure stress in a rolling element bearing, comprising:
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an acoustic signal unit to transmit an acoustic signal across the rolling element bearing, to receive the acoustic signal, and to output information corresponding to a time of flight of the acoustic signal, said acoustic signal unit comprising a signal generation unit to generate a first electrical signal, a first transducer to generate the acoustic signal in response to the first electrical signal, and a second transducer to generate a second electrical signal in response to the received acoustic signal; and
a calculation unit to calculate stress in the rolling element bearing from the outputted information, said calculation unit comprising a comparison unit to compare the first and second electrical signals to determine the time of flight of the acoustic signal, wherein the time of flight corresponds to the stress in the rolling element bearing, said comparison unit calculating the stress according to the formula - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. An apparatus to measure stress in a rolling element bearing, comprising:
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an acoustic signal unit to transmit an acoustic signal across the rolling element bearing, to receive the acoustic signal, and to output information corresponding to a time of flight of the acoustic signal, said acoustic signal unit comprising a signal generation unit to generate a first electrical signal, a first transducer to generate the acoustic signal in response to the first electrical signal, and a second transducer to generate a second electrical signal in response to the received acoustic signal; and
a calculation unit to calculate stress in the rolling element bearing from the outputted information, said calculation unit comprising a comparison unit to compare the first and second electrical signals to determine the time of flight of the acoustic signal, wherein the time of flight corresponds to the stress in the rolling element bearing, said comparison unit calculating the stress by multiplying the acoustic time constant for the rolling element bearing by the distance traveled by the acoustic signal across the rolling element bearing, and by the time of flight determined by said comparison unit.
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12. An apparatus to measure stress in a rolling element bearing, comprising:
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an acoustic signal unit to transmit an acoustic signal across the rolling element bearing, to receive the acoustic signal, and to output information corresponding to a time of flight of the acoustic signal, said acoustic signal unit generating a first electrical signal, and comprising a transducer affixed to a side of a race of the rolling element bearing to generate an acoustic signal in response to the first electrical signal, wherein said transducer generates a second electrical signal in response to receipt of a reflection of the generated acoustic signal, and outputs the second electrical signal; and
a calculation unit to calculate stress in the rolling element bearing from the outputted information, said calculation unit calculating the stress by multiplying the acoustic time constant for the rolling element bearing by the distance across the rolling element bearing, and by the time of flight of the acoustic signal across the rolling element bearing.
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13. A method of measuring stress in a rolling element bearing, comprising:
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transmitting an acoustic signal across the rolling element bearing;
receiving the transmitted acoustic signal from rolling element bearing;
determining a time of flight of the acoustic signal across the rolling element bearing from the time of transmission and the time of reception; and
calculating stress in the rolling element bearing from the determined time of flight, wherein the stress is calculated according to the formula - View Dependent Claims (14, 15, 16)
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17. An apparatus to measure stress in a rolling element bearing, comprising:
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a signal generation unit to generate a first electrical signal;
a first transducer affixed to a race of the rolling element bearing to generate an acoustic signal in response to the first electrical signal;
a second transducer affixed to the race of the rolling element bearing alternate from said first transducer to generate a second electrical signal in response to the received acoustic signal; and
a comparison unit to compare the first and second electrical signals to determine a difference in time, wherein the difference in time corresponds to a time of flight of the acoustic signal across the rolling element bearing, and the time of flight corresponds to the stress in the rolling element bearing, said comparison unit calculating the stress by multiplying the acoustic time constant for the race of the rolling element bearing by the distance traveled by the acoustic signal across the race, and the difference in time determined by said comparison unit.
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18. An apparatus to measure a parameter of a rolling element bearing, comprising:
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an acoustic signal unit to transmit an acoustic signal across the rolling element bearing, to receive the acoustic signal, and to output information corresponding to a time of flight of the acoustic signal; and
a calculation unit to calculate a parameter of the rolling element bearing from the outputted information, wherein the parameter is stress in the rolling element bearing, and wherein bearing element loads are inferred from the stress parameter.
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19. A method of measuring a parameter of a rolling element bearing, comprising:
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transmitting an acoustic signal across the rolling element bearing;
receiving the transmitted acoustic signal from rolling element bearing;
determining a time of flight of the acoustic signal from the time of transmission and the time of reception; and
calculating a parameter of the rolling element bearing from the determined time of flight, wherein bearing element loads are inferred from the stress parameter.
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20. An apparatus to measure stress in a rolling element bearing, comprising:
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a signal generation unit to generate a first electrical signal;
a first transducer affixed to a race of the rolling element bearing to generate an acoustic signal in response to the first electrical signal;
a second transducer affixed to the race of the rolling element bearing alternate from said first transducer to generate a second electrical signal in response to the received acoustic signal; and
a comparison unit to compare the first and second electrical signals to determine a difference in time, wherein the difference in time corresponds to a time of flight of the acoustic signal across the rolling element bearing, and the time of flight corresponds to the stress in the rolling element bearing, wherein said comparison unit calculates the stress by multiplying the acoustic time constant for the rolling element bearing by the distance traveled by the acoustic signal across the rolling element bearing, and by the difference in time determined by said comparison unit.
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Specification
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Current AssigneeThe Torrington Company (The Timken Company)
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Original AssigneeThe Torrington Company (The Timken Company)
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InventorsNguyen, David, Selfridge, Alan Robert, Domnitz, Robert, Lemoine, Richard L., Jurras, Mark I. III, Browner, Richard W.
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Primary Examiner(s)Williams, Hezron
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Assistant Examiner(s)MILLER, ROSE MARY
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Application NumberUS09/573,644Time in Patent Office1,111 DaysField of Search735/87, 735/79, 735/93, 736/60, 736/59, 735/97, 735/98, 735/99, 736/00US Class Current73/593CPC Class CodesF16C 19/52 with devices affected by ab...G01L 5/0009 Force sensors associated wi...G01M 13/04 BearingsG01N 2291/02845 Humidity, wetness
