SYSTEM AND METHOD FOR MONITORING BEARING HEALTH IN A JOURNAL ASSEMBLY
First Claim
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1. A system for monitoring the health of one or more bearings of a journal assembly, the system comprising:
- a split spacer configured to be disposed on a shaft of the journal assembly, the shaft configured to support the one or more bearings;
one or more vibration sensors configured to detect vibrations emitted by the one or more bearings;
a speed sensor configured to measure the rotational speed of the one or more bearings;
a controller configured to electronically communicate with the one or more vibration sensors and the speed sensor and calculate a health status of the one or more bearings; and
wherein the split spacer includes two portions that define a cavity configured to abut the shaft so as to allow the one or more vibration sensors to be disposed inside the split spacer and next to the one or more bearings.
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Abstract
A system for monitoring the health of one or more bearings of a journal assembly is provided. The system includes a split spacer, one or more vibration sensors, a speed sensor, and a controller. The split spacer is configured to be disposed on a shaft of the journal assembly, the shaft is configured to support the bearings. The vibration sensors are configured to detect vibrations emitted by the bearings. The speed sensor is configured to measure the rotational speed of the bearings. The controller is configured to electronically communicate with the vibration sensors and the speed sensor and calculate a health status of the bearings. The split spacer includes two portions that define a cavity configured to abut the shaft so as to allow the vibration sensors to be disposed inside the split spacer and next to the one or more bearings.
14 Citations
25 Claims
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1. A system for monitoring the health of one or more bearings of a journal assembly, the system comprising:
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a split spacer configured to be disposed on a shaft of the journal assembly, the shaft configured to support the one or more bearings; one or more vibration sensors configured to detect vibrations emitted by the one or more bearings; a speed sensor configured to measure the rotational speed of the one or more bearings; a controller configured to electronically communicate with the one or more vibration sensors and the speed sensor and calculate a health status of the one or more bearings; and wherein the split spacer includes two portions that define a cavity configured to abut the shaft so as to allow the one or more vibration sensors to be disposed inside the split spacer and next to the one or more bearings. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A journal assembly for a pulverizer mill, the journal assembly comprising:
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a rotatable housing coupled to a grinding roller; a shaft that rotatably supports the rotatable housing via one or more bearings; a split spacer disposed on the shaft; one or more vibration sensors configured to detect vibrations emitted by the one or more bearings and to electronically communicate with a controller; a speed sensor configured to measure the rotational speed of the one or more bearings and to electronically communicate with the controller; and wherein the split spacer includes two portions that define a cavity configured to abut the shaft so as to allow the one or more vibration sensors to be disposed inside the split spacer and next to the one or more bearings. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
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17. A split spacer for a journal assembly, the split spacer comprising:
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a first portion; and a second portion configured to mate with the first portion; and wherein at least one of the first portion and the second portion includes one or more fasteners, such that when the split spacer is disposed on a shaft of the journal assembly and the first portion is mated to the second portion, the split spacer forms a cavity configured to abut the shaft so as to allow one or more vibration sensors to be fastened, via the one or more fasteners, inside of the cavity and next to the one or more bearings. - View Dependent Claims (18, 19, 20)
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21. A method for monitoring the health of one or more bearings of a journal assembly, the method comprising:
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detecting, via one or more vibration sensors in communication with a controller, vibrations emitted by the one or more bearings, measuring, via a speed sensor in electronic communication with the controller, the rotational speed of the one or more bearings; calculating, via the controller, a health status of the one or more bearings; and wherein a split spacer is disposed on a shaft that supports the one or more bearings and includes two portions that define a cavity that abuts the shaft such that the one or more vibration sensors are disposed inside the split spacer and next to the one or more bearings. - View Dependent Claims (22, 23, 24, 25)
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Specification
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Current AssigneeGeneral Electric Technology GmbH (GE Aerospace)
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Original AssigneeGeneral Electric Technology GmbH (GE Aerospace)
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InventorsFULLER, MARK ANDREW, Bianca, Joseph David, Decasse, Alexis Paige, Chmlelowiec, Kaz
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current
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CPC Class CodesB02C 15/04 Mills with pressed pendular...F16C 19/546 Systems with spaced apart r...F16C 19/55 with intermediate floating ...F16C 2233/00 Monitoring condition, e.g. ...F16C 2320/23 Milling apparatus in genera...F23K 1/00 Preparation of lump or pulv...F23K 2201/10 PulverizingG01H 1/003 of rotating machines G01H1/...G01M 13/045 Acoustic or vibration analysisG01P 3/443 mounted in bearings bearing...G01P 3/48 by measuring frequency of g...
