SYSTEM AND METHOD FOR MONITORING BEARING HEALTH CONDITIONS

SYSTEM AND METHOD FOR MONITORING BEARING HEALTH CONDITIONS

A bearing health condition monitoring system (2) is disclosed. The sys- tem (2) is configured to monitor a health condition of one or more bear- ings (10, 10') of one or more rotatory machines (4, 6) of a machine assembly (26). The rotatory machines (4, 6) are vibrationally connected. Each of t...

Ausführliche Beschreibung

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Bibliographische Detailangaben
1. Verfasser: KÜHNE, Eva
Format: Patent
Sprache:eng ; fre
Schlagworte:
BEARINGS
BLASTING
ELEMENTS OR CRANKSHAFT MECHANISMS
ENGINEERING ELEMENTS AND UNITS
FLEXIBLE SHAFTS
GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVEFUNCTIONING OF MACHINES OR INSTALLATIONS
HEATING
LIGHTING
MEASURING
MECHANICAL ENGINEERING
PHYSICS
ROTARY BODIES OTHER THAN GEARING ELEMENTS
SHAFTS
TESTING
TESTING STATIC OR DYNAMIC BALANCE OF MACHINES ORSTRUCTURES
TESTING STRUCTURES OR APPARATUS NOT OTHERWISE PROVIDED FOR
THERMAL INSULATION IN GENERAL
WEAPONS
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Beschreibung
Zusammenfassung:A bearing health condition monitoring system (2) is disclosed. The sys- tem (2) is configured to monitor a health condition of one or more bear- ings (10, 10') of one or more rotatory machines (4, 6) of a machine assembly (26). The rotatory machines (4, 6) are vibrationally connected. Each of the rotatory machines (4, 6) comprises a motor (8, 8') arranged and configured to rotate a shaft (14, 14') of the rotatory machine (4, 6). The shaft (14, 14') of each of the rotatory machines is connected to the motor (8, 8') via the bearing (10, 10') of the rotatory machine (4, 6). The system (2) comprises a detection unit (24, 24') configured to be attached to and hereby detect vibration data (28, 28') of at least one of the rotatory machines (4, 6). The system (2) comprises a processing unit (32) configured to receive and process said data (28, 28'). The system (2) is configured to calculate: a) the active vibration energy (EA) associated to the vibration data (28, 28') of a first rotatory machine (4, 6) detected by the detection unit (24, 24') when the motor (8, 8') of the first rotatory machine (4, 6) is running and b) the passive vibration energy (EP) associated to the vibration data (28, 28') of a first rotatory machine (4, 6) detected by the detection unit (24, 24') when the motor (8, 8') of the first rotatory machine (4, 6) is not running and c) comparing passive vibration energy (EP) and the active vibration energy (EA). L'invention divulgue un système (2) de surveillance d'états de santé de palier. Le système (2) est configuré pour surveiller un état de santé d'un ou de plusieurs paliers (10, 10') d'une ou de plusieurs machines rotatives (4, 6) d'un ensemble machine (26). Les machines rotatives (4, 6) sont reliées de manière vibratoire. Chacune des machines rotatives (4, 6) comprend un moteur (8, 8') disposé et conçu pour entraîner en rotation un arbre (14, 14') de la machine rotative (4, 6). L'arbre (14, 14') de chacune des machines rotatives est en prise avec le moteur (8, 8') par l'intermédiaire du palier (10, 10') de la machine rotative (4, 6). Le système (2) comprend une unité de détection (24, 24') conçue pour être fixée à au moins l'une des machines rotatives (4, 6) et pour en détecter ainsi des données de vibration (28, 28'). Le système (2) comprend une unité de traitement (32) configurée pour recevoir et traiter lesdites données (28, 28'). Le système (2) est configuré pour calculer : a) l'énergie de vibration active (EA) associée aux données de vib