Corey with Kalos Services and HVAC School balances oil regulators and cleans the oil components on a Copeland 3D compressor on an R-449A parallel rack with an intermittent oil trip and demand cooling module. The compressor also has a Copeland Sentronic oil safety device.
Before Corey begins cleaning, he needs to get as much oil out of the compressor and into the reservoir as possible. He does that by valving off the oil regulator and attaching a hose from the pump to the reservoir with the compressor ON. That way, the compressor uses its own power to pump the oil out and into the reservoir until it goes out on safety. When that happens, the M and L contacts on the Sentronic safety will have voltage; we can measure that voltage with a meter to confirm that the compressor has been locked out.
Before Corey pumps down the system, he valves off the line feeding the demand cooling module and the King valves. Once everything is valved off, Corey and Chad move any additional gas in the compressor to the next compressor on the rack. They drain any excess oil at the bottom of the compressor. Then, they pull out the oil pickup screen and tube using a pick and clean those. Corey also pulls out the Sentronic sensor and demand cooling sensor, and he cleans those and sands the demand cooling sensor down. He then reinstalls the clean demand cooling sensor using Nylog as an assembly lubricant.
After cleaning the oil components, Corey takes a vacuum pump and evacuates any additional contaminants from the compressor.
Then, Corey balances the oil regulator using an OCV-5 check valve. He determines the pressure differential between the oil reservoir and crankcase suction pressure. After taking measurements and coming up with a differential of 5 PSI, Corey checks the manufacturer's graph to see how many times he needs to turn the check valve. According to the graph, he needs to make 10 counterclockwise turns to maintain a half-full sight glass. It takes some time for the oil to fill to the proper level, so we recommend waiting a day for the oil level to adjust after you balance the regulators.
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Before Corey begins cleaning, he needs to get as much oil out of the compressor and into the reservoir as possible. He does that by valving off the oil regulator and attaching a hose from the pump to the reservoir with the compressor ON. That way, the compressor uses its own power to pump the oil out and into the reservoir until it goes out on safety. When that happens, the M and L contacts on the Sentronic safety will have voltage; we can measure that voltage with a meter to confirm that the compressor has been locked out.
Before Corey pumps down the system, he valves off the line feeding the demand cooling module and the King valves. Once everything is valved off, Corey and Chad move any additional gas in the compressor to the next compressor on the rack. They drain any excess oil at the bottom of the compressor. Then, they pull out the oil pickup screen and tube using a pick and clean those. Corey also pulls out the Sentronic sensor and demand cooling sensor, and he cleans those and sands the demand cooling sensor down. He then reinstalls the clean demand cooling sensor using Nylog as an assembly lubricant.
After cleaning the oil components, Corey takes a vacuum pump and evacuates any additional contaminants from the compressor.
Then, Corey balances the oil regulator using an OCV-5 check valve. He determines the pressure differential between the oil reservoir and crankcase suction pressure. After taking measurements and coming up with a differential of 5 PSI, Corey checks the manufacturer's graph to see how many times he needs to turn the check valve. According to the graph, he needs to make 10 counterclockwise turns to maintain a half-full sight glass. It takes some time for the oil to fill to the proper level, so we recommend waiting a day for the oil level to adjust after you balance the regulators.
Read all the tech tips, take the quizzes, and find our handy calculators at https://www.hvacrschool.com/.
Learn more about the 2022 HVACR Training Symposium at https://hvacrschool.com/symposium/.
Today, we've got a copeland 3d compressor on a r449a parallel rack with an intermittent oil trip, so we are going to balance the oil regulator as well as do an overall clean of the oil system, components as well as demand cooling module. So let's get into it. This particular compressor is equipped with a copeland centronic oil safety device. The first thing to start this job off is: we need to get as much oil as possible out of the compressor and into the oil reservoir as possible.
We do that by valving off the oil regulator and attaching a hose from the oil pump itself to the top of the reservoir, with the compressor on and using the compressor's own power to pump that oil in until it does go off on safety. We'll monitor the sight glass, while this happens, and once we do go off on oil safety. The m and the l contacts on this centronic will now have voltage that will confirm that it is in a lockout, so we'll measure that with the meter once it does go off on oil safety, which it just turned off. So we'll take our field piece meter.
Here and check the voltage difference and we do have it and now we need to pump down the system. It is equipped with a demand, cooling module. So we need to valve off the line. Feeding the demand cooling as well as valving off the suction king valve and chad is valving off the discharge king valve.
While i do this teamwork and we'll take a hose once we have everything, valved off and dump any excess gas, that's in the compressor into the next compressor on this on this particular rack. Now that we've got the compressor pump down, two half inch bolts hold the cover plate for the oil pickup screen, which we will pull and clean and drain any excess oil. That is in the bottom of the compressor, as well as clean. The centronic sensor itself with a big boy wrench, we cracked that nut and using a pick gently pulling out the oil pickup screen, which is surprisingly clean.
That is a good sign. Sometimes these things can get very gummed up and there's an oil pickup tube. Also, that is in there with a slot that is supposed to be facing down. If it's not facing down, you will have problems.
Getting this out was kind of a pain on this compressor. It was jammed in there very, very tight, but we did eventually get that pickup tube out, so chad will clean the pickup screen as well as the tube. While i pull the centronic sensor and clean the screen on that, the centronic sensor does have a copper washer on it that very important not to lose, and that is properly reinstalled. This also wasn't too bad definitely needs clean, but i've seen way worse and while we have this compressor pump down we'll clean the demand, cooling sensor and sand it down, this was incredibly dirty.
You don't necessarily need to replace these sanding them, usually works using dialog, we'll reinstall the demand cooling sensor. Another thing i have to stress is the wear proper hearing. Protection in rack rooms were 90 decibels. It's very loud in here protect your ears. We are almost ready for start up so now that everything's clean, we will take brad's 2cfm, navvac vacuum pump and evacuate the compressor for any contaminants. Our final step is to balance the oil regulator. To properly do this, we have an ocv5 check valve and we must take our pressure difference between the oil reservoir and crankcase suction pressure, which in this case is five and then plot it on the manufacturer's graph to find out how many turns from the bottom. We need to adjust the oil regulator for the proper level.
We now know we have a 5 psi oil differential. So using the graph from the manufacturer, we can determine that it'll. Take 10 counter. Clockwise turns on the oil regulator from the bottom to maintain a half full sight glass.
These are not instant. It will take a little while to fill up to the proper level, so you just have to monitor it. Henry actually recommends waiting a day, but we sped this up through the power of editing and you can see we are at a perfect level after a few hours and as well as all the other two compressors on this parallel rack. So that's it thanks for watching our video if you enjoyed it and got something out of it, if you wouldn't mind hitting the thumbs up button to like the video subscribe to the channel and click, the notifications bell to be notified when new videos come out, hvac School is far more than a youtube channel.
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Sorry for the vertices video 😅
How the hell you supposed to learn this shit,not from a video Service area Barrhaven??
Very Nice Work!
Lol. Im like,,, what is it? Ummmm,, is it a heaterrrrr uurr Ac?
Lol.
Go Chad.
Great job guys very thought out video.
I’ve always liked to pull the oil reg and inspect and clear the float some times the screen on the other end can be clogged. I have a question regarding oil separator solenoid valve whats the max temp is allowed to enter the oil pump?
well that's clearly NOT hvac.
that's commercial refrigeration.
hvac tech would poop their pants.
AWSOME video.
I'm a rack guy too.
Well done mate 👍