Fitting a thermocouple to a motor

In summary, the conversation is about predicting early failure of a hydraulic pump motor at a manufacturing plant due to bearing failure. The person is looking into monitoring the motor's temperature using a thermocouple, but there are concerns about the best location for the thermocouple and the possibility of shorting the windings to Earth. Some resources and techniques for monitoring bearing condition and temperature are discussed, including vibration analysis and FFT technology. It is noted that vibration analysis is the most powerful diagnostic tool for bearings and is now more accessible and affordable. The conversation ends with a recommendation to read a textbook on practical vibration analysis.
  • #1
Marky32
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Hi. It's my first post

I work in a manufacturing plant where a hydraulic pump motor has failed. The cause was bearing failure and the motor locked up. The motor still insulation tested ok, but is being sent out for rewind and new bearings I am looking at ways to predict early failure?

I want to fit a thermocouple to the motor so I can record the temperature weekly. I already have k type cable and display. Where would be the best location for the thermocouple? Ideally I want it inside the terminal box and through to the windings. I am hoping that as the bearing starts to fail the entire motor temp will start to increase so measuring the temp here will be ok.

Will there be a danger of shorting the windings to Earth if I don't install it correctly.

Thanks
 
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  • #2
Can you put the TC directly on the bearing cap?
 
  • #3
Anywhere external to the windings; on the frame. All you are getting from the log is a trend. And that's all you really need to predict a failure, IMO.
 
  • #4
I think it's unlikely that a thermocouple on the winding will give you much warning of a bearing failure.

However Google found this which might be of interest..

http://www.machinerylubrication.com/Read/1041/detecting-bearing-failure

Monitoring Bearing Condition
Machine bearings are generally monitored through vibration analysis, oil analysis and/or ultrasound techniques. Through these, it is possible to compare current data to historical data and accurately assess the life of the bearings. Temperature increase due to increased friction is not even considered as a symptom of bearing failure in many bearing analysis texts until Stage 3 bearing failure occurs.

If temperature is a reliable method of bearing life prediction, why is it ignored until after it's too late? The monitoring of temperatures with thermography has been considered unreliable because so many variables such as ambient temperature, speed, load and runtime all have a pronounced influence on bearing temperature. This article compares identical or near-identical bearings on the same shaft which cancels the effects of these variables because they are common to both bearings. The remaining temperature differences between the two bearings on a common shaft with the same load, can only be the result of friction, an indicator of bearing problems.

Perhaps subtle changes are hidden because there are so many variables that can potentially contribute to bearing temperature. In addition to friction, other factors that can contribute to temperature variation are load, speed, ambient environment temperature and runtime duration. If these conditions could be predicted and accounted for accurately, then increases in temperature would reliably indicate bearing problems.
.

So perhaps put thermocouples on two bearings and look for differences between them?
 
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  • #5
On the other hand...
http://www.maintenancetechnology.com/2013/10/methods-for-monitoring-bearing-performance/

Monitoring bearing temperatures is crucial: As these components fail, they get hotter. Trending their temperatures over time will help identify the early stages of failure. The most common tools for doing this include thermocouples and resistance temperature detectors (RTDs)—both of which can be permanently mounted to locations on the bearing housing for continuous real-time monitoring.


 
  • #6
Marky32 said:
Will there be a danger of shorting the windings to Earth if I don't install it correctly.
Yes. We had a 3500 horsepower motor blow up during just such an experiment.

In my opinion:

Vibration analysis is your most powerful bearing diagnostic. Fast Fourier Transform(FFT) tells you the frequencies present. It's applying high-tech to the old mechanic's stethoscope.
In 1974 a FFT analyzer ran on a PDP11 computer and with its signal conditioning equipment weighed a couple hundred pounds.
Small hand held FFT analyzers came about in late 1970's and seemed like something out of science fiction . Bentley Nevada was a pioneer but there are scores of companies in that business now so try a search. The early ones i knew of started around Knoxville Tennessee.

meantime here's a paper by an old line bearing manufacturer.
http://www.skf.com/binary/tcm:12-113997/CM5118/index.html
see 'bearing defect' spectra starting on page 20.

FFTbearing.jpg


I saw my industry learn to use this technology in early 1980's. It's the way to go and is no longer expensive.

See if you can find a copy of Bentley's classic textbook "Practical Vibration Primer" .

old jim
 
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1. What is a thermocouple and how does it work?

A thermocouple is a type of temperature sensor that consists of two different metal wires connected at one end. When there is a difference in temperature between the two ends of the wires, it creates a voltage that is measured and converted into a temperature reading. This is known as the Seebeck effect.

2. Why is it important to fit a thermocouple to a motor?

Fitting a thermocouple to a motor allows for accurate temperature monitoring, which is essential for ensuring the motor does not overheat and potentially cause damage. It also allows for early detection of any potential issues with the motor, allowing for timely maintenance and preventing costly breakdowns.

3. How do you choose the right type of thermocouple for a motor?

The type of thermocouple chosen for a motor depends on the operating temperature, the size and type of motor, and the environment it will be used in. Generally, a type K thermocouple is suitable for most motor applications as it has a wide temperature range and is resistant to oxidation.

4. What is the process for fitting a thermocouple to a motor?

The process for fitting a thermocouple to a motor may vary depending on the type of motor and the location of the thermocouple. Generally, it involves drilling a hole in the motor casing, inserting the thermocouple, and securing it with a fitting or adhesive. It is important to ensure proper placement and insulation to ensure accurate readings.

5. How often should a thermocouple be calibrated when fitted to a motor?

The frequency of thermocouple calibration depends on the application and the manufacturer's recommendations. In general, it is recommended to calibrate thermocouples every 6-12 months to ensure accuracy. However, if the motor is subjected to extreme temperatures or harsh environments, more frequent calibration may be necessary.

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