Data processing: measuring – calibrating – or testing – Measurement system – Performance or efficiency evaluation
Reexamination Certificate
1998-07-17
2001-09-25
Hoff, Marc S. (Department: 2857)
Data processing: measuring, calibrating, or testing
Measurement system
Performance or efficiency evaluation
C310S050000
Reexamination Certificate
active
06295510
ABSTRACT:
TECHNICAL FIELD
The present invention generally relates to a data collection module for collecting data to facilitate diagnostics and failure prevention of rotating machinery.
BACKGROUND OF THE INVENTION
Electric machines such as motors and generators are widely employed in industrial and commercial facilities. These machines are relied upon to operate with minimum attention and to provide long and reliable operation. Many facilities operate several hundreds or even thousands of such machines concurrently, many of which are integrated into a large interdependent process or system. Like most machinery, at least a small percentage of such machines such as induction motors are prone to failure at any given time. In the case of induction motors, the majority of such failures can be attributed to either mechanical failures and/or thermally-induced failures of the motor insulation.
Other than normal aging, failures are typically due to: poor or no maintenance; improper application (e.g., wrong enclosure, excessive loading); and improper installation (e.g., misalignment, bad power, inverter mismatch). Even with normal aging failures, it is desirable to provide low cost failure prediction information for such machines.
Depending on the application, the failure of a machine in service can possibly lead to system or process down time, inconvenience, and possibly even a hazardous situation. Thus, it is desirable to diagnose the machinery for possible failure or faults early in order to avoid such problems. Absent special monitoring for certain motor problems, the problems may have an insidious effect in that although only a minor problem on the onset the problem could become serious if not detected. For example, insulation problems and electrical problems may not become apparent until irreversible damage has resulted. Likewise, bearing problems due to inadequate lubrication, contamination or other causes may not become apparent until irreversible damage has occurred.
Typically, to perform machine preventive maintenance, maintenance rounds are conducted where a maintenance person or vibration specialist will go to each critical machine in the plant and couple a portable recorder to each machine to measure vibrations of the machine. Vibration analysis is the established technique for determining the health of mechanical components in rotating machinery such as induction motors. The consistent analysis of the vibration signals taken at various times is dependent on the ability to reproduce the precise location and direction of mounting of the sensor (i.e., recorder). Consequently, portable recorders are deficient in obtaining reliable vibration data as compared to accelerometers permanently installed on the rotating machinery to be monitored.
Other types of portable recorders employed for collecting data relevant to motor health are ones that collect motor flux data, motor current data and/or motor temperature data. Many such portable recorders experience problems with consistency in data recovery because of the inherent difficulty associated with placing the portable recorder in the exact same position as when the previous recording was taken. Capturing current data remote from the motor will result in sampled data being altered due to power line characteristics (e.g., reflections, ringing). Capturing flux data from outside the motor will include the effects of winding end turns and the frame thus limiting its use to only very severe and specific fault detection.
Another method for obtaining data relating to the health of the motor is to mount current sensors (in the motor control cabinet) to the power lines feeding the motor. The current sensors collect current data which is used in current signature analysis to assess the health of the motor. However, intimate knowledge of the motor is generally required in order to conduct a thorough motor current signature analysis. But, many manufacturers of current signature analysis equipment do not have intimate knowledge of the motors that are to be analyzed with their equipment. Simply knowing the motor horsepower and line voltage is not sufficient for performing good current signature analysis. Rather, intimate details about the motor such as the number of rotor bars, rotor construction, the number of turns on the stator winding, windage and friction losses, etc. are needed. Generally, only the actual designer of the motor has such intimate information. Thus, current signature analysis devices fabricated by those other than the motor designer oftentimes result in inferior diagnostics because they are missing important motor design information. Consequently, the best such devices can do typically is provide general guidelines for spectral peaks within relatively broad frequency ranges and try to trend from sample to sample. Additionally, such current sensor devices located in the motor cabinets cannot monitor for vibration and temperature which are two important indicators of the health of the motor. In particular, mechanical problems of a motor usually are manifested most prominently via vibrations. Thus vibration analysis is still the desired method for analyzing a machine for mechanically related problems.
Furthermore, because such monitoring typically takes place at the motor, motor diagnosis related thereto may require large amounts of manpower to collect the data and then provide a remote computer with the data to perform analyses thereon. Moreover, such manual intensive methods are not amenable to performing trend analysis. Similarly, these methods do not allow for continual, ongoing data sampling. It is generally known that only a few minutes of uncontrolled vibration can have catastrophic consequences.
Consequently, there is a need in the art for a device and/or system for data collection and machine diagnosis which mitigates the manual intensiveness of conventional devices and systems.
SUMMARY OF THE INVENTION
The present invention provides for a data collection and diagnostic module for collecting machine data and processing the data to facilitate determining a health state of the machine as well as trending performance of the machine. The present invention will be described with respect to an AC induction motor, however, it is to be appreciated that the present invention has applicability to substantially any type of rotating machinery (such as gear boxes, pumps, generators, etc.)
The module is operatively coupled to a machine from which data is to be gathered and processed. In accordance with one embodiment of the invention a docking station is coupled to the machine. Data gathering sensors are positioned at suitable points on or within the machine to collect desired data. The sensors are operatively coupled to the docking station which serves as an interface for the module to collect the data. The module is designed to be coupleable to the docking station and easily removed from the docking station as well. Many conventional machine monitors are mounted to the machines in such a fashion that removal thereof is not so easy. Because many of the sensors are placed substantially permanently within the machine and coupled to the docking station, the module of the present invention can be quickly removed or inserted into the docking station without having to worry about proper positioning of sensors.
When the module is coupled to the docking station, the module receives data collected by the various sensors. The data is collected, processed and stored by the diagnostic module. The diagnostic module includes a memory sufficient to store substantial amounts of the raw data and/or processed. As a result, the diagnostic module may be employed to gather data for extended periods of time (eg., several weeks, several months or even several years). Data collection for extended periods of time affords for improved accuracy in machine diagnosis as well as substantially facilitating trending of machine performance and failure prediction. The frequency of data collection by the module may be suitably tailored as desired. Such extended data collectio
Amin Himanshu S.
Gerasimow Alexander M.
Hoff Marc S.
Raymond Edward
Reliance Electric Technologies LLC
LandOfFree
Modular machinery data collection and analysis system does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Modular machinery data collection and analysis system, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Modular machinery data collection and analysis system will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2503764