Quick disconnect pneumatic fittings have been a staple in any manufacturing facility I have ever visited in my 10+ years as part of the manufacturing world. The fact is, they have been around for a lot longer than 10 years. The style we see most often is the 1/4″ Quick Disconnect Fitting, and we are typically troubleshooting a lack of air volume problem because they are not sized properly for the application. These can be found in any industrial supply companies catalog, your local hardware stores, and even auto parts stores. Quick Disconnects are even sold with certain EXAIR Industrial Housekeeping products, the key being they are properly sized.
Properly sizing the quick disconnect is a critical step in the process of deciding how to lay out your piping system as well as how to ensure products operate at optimal performance. As you can see in the picture above, the two quick disconnects on the left are both larger quick disconnects as well as larger NPT thread sizes. The two on the right are smaller and probably a bit more common to see. Also notice the thread sizes on each, these are also manufactured in many other NPT thread options. The through hole on the quick disconnects is decided by the size of the QD, not the thread size on the other end. The example I am illustrating is comparing the 3/8 NPT and 1/4 NPT quick disconnects: Even though you can have 3/8 NPT threads, your throat diameter of the QD is still restricted to .195″ I.D., the same as the 1/4 NPT. This can be a large restriction on a product with a 3/8 NPT thread size.
Also to be noted is that all QD’s of the same size are not made equally, tests have shown that you can lose as much as 20 psi through a quick disconnect and up to 40 psi when not properly matched with the female QD. This leads to the next step which is to ensure that you are not purchasing a QD on appearance. MAke sure to choose the QD designed to permit the amount of air you need to operate your point of use product without a volume or pressure loss.
These two points are reasons why quick disconnects can diminish your point of use compressed air product performance. If you have questions on which size to use with your EXAIR product or need help determining why your point of use product is not performing how you would like, contact us.
Quick Disconnects are a quick and easy solution to hook up devices to your compressed air system. These units can be found in quite a few factories and are more often than not being used incorrectly. I know that on the air compressor in my garage, the only way to hook anything up to it was to use 1/4″ quick disconnects. Chances are they are even a few of them within your facility, assuming you have compressed air available.
When you really look at a quick disconnect though you start to see why it shouldn’t be used to install every compressed air driven device there is. You can see in the pictures below that a 1/4″ quick disconnect that goes to a 3/8″ NPT adapter has a .192″ opening at the small end. A 3/8″ Schedule 40 iron pipe will actually carry a .493″ inner diameter. If you were to use this quick disconnect on something like a 2″ Heavy Duty Line Vac, you will starve it for air due to the limited ability of the small diameter to carry enough air volume. This, in turn, will limit the performance of the Line Vac. This is because the through hole on the quick disconnect cannot pass enough air to feed through to the Line Vac.
On the 1/4″ quick disconnect to a 3/8″ NPT this may not be as large as a problem as the next picture. Below you can see a 1/2″ quick disconnect that is going up to a 3/4″ NPT. a 3/4″NPT Schedule 40 iron pipe is actually a .824″ inner diameter. The quick disconnect at most has a .401″ inner diameter.
Even though you are providing the correct thread size for your connection (a 3/8 MNPT and a 3/4 FNPT respectively in our example) the quick disconnect’s small inside diameter could be too much of a restriction for the volume demanded by an end use product. Due to this restriction point you will see pressure drops in your system when using a device with a properly sized inlet for its demand of compressed air being fed with an improperly sized quick disconnect. This is one of the main reasons one of our first questions in troubleshooting an EXAIR products performance with a customer is whether or not they are using quick disconnects.