The Hydraulic Troubleshooting Silver Bullet

ts-appshortI get a lot of questions about troubleshooting hydraulic problems. This one showed up the other day:

“What is the most effective and efficient method to diagnose internal leakage on a hydraulic machine – without the aid of diagnostic tools, such as pressure gauges and flow meters.”

It’s not a bad question. But upon deeper analysis it smacks of ‘silver-bullet’ seeking. The revealing phrases are “most effective and efficient method” and “without the aid of diagnostic tools…”.

It’s human nature to seek maximum gain from minimum effort. Even if it’s not realistic. And since my job here is to entertain as well as inform, I’ll give you my quick ‘n easy, silver bullet answer first:

I’ve developed and patented a special troubleshooting paint. So now when a hydraulic problem arises, all you have to do is shake said can well and spray any hydraulic component you suspect might be faulty. After a couple of minutes faulty components turn red and serviceable components turn green.

It’s a nice fantasy. About my early retirement that is.

So to qualify the question before I answer it, until I perfect my magic spray paint: the most efficient method of troubleshooting may not be the most effective, and the most effective not the most efficient – which I assume is the reason for excluding pressure gauges and flow meters when posing the question.

But there are other tools and techniques we can employ when troubleshooting. One of these is the infrared thermometer or heat gun. The equipment required is inexpensive, its application is quick and non-invasive and the results can be very revealing.

It’s usefulness in hydraulic troubleshooting comes about because when hydraulic fluid moves from an area of high pressure to an area of low pressure (pressure drop) without performing useful work, heat is generated.

This means components with abnormal leakage generate abnormal heat. So a double-acting cylinder with a leaking piston seal or a relief valve that is passing usually become hotter than the rest of the system. And an infrared thermometer will quickly reveal them to you.

But like most other tools, an infrared thermometer is only as good as the person using it. And so you do have to be careful of false positives. The objective of every troubleshooting exercise should be to PROVE a component is faulty before it is changed-out.

An infrared thermometer can certainly speed up this process. But if the data from it doesn’t make sense or is not conclusive, then other tools must be employed to eliminate any doubt.

For example, a recent client came to the conclusion that a solenoid valve was the cause of his problem – based on temperature measurement alone. But there were two problems with this diagnosis: Firstly, a solenoid valve tends to absorb heat from its coil when energized – which could explain its temperature rise. And secondly, in the context of the particular system it didn’t really make sense.

I explained we should note his observation but continue the troubleshooting process – using other tools as necessary – to prove the diagnosis one way or the other. Because a false positive is just as bad as a blind guess – it results in the unnecessary change-out of serviceable components. This is a costly mistake you want to avoid. And to discover six other costly mistakes you want to be sure to avoid with your hydraulic equipment, get “Six Costly Mistakes Most Hydraulics Users Make… And How You Can Avoid Them!” available for FREE download here.

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