My father's is set up the same way. You could try moving the regulator further down the system. The fundamental issue is you have a oscillating/resonating system. The answer is to figure out what things act as springs (air under pressure, the metal spring that works the regulator, the plates in the regulator) and, in our case, guess the one that is the spring that causes the issue.
Now that you mention where the valve is, perhaps putting the valve a bit further down the line might help.
Thanks, I have a 6 foot whip between it and the regulator
Here is the reply I got from Parker engineering...in case someone else notices this
"This is not a failure but could cause the regulator to wear out sooner than you'd like. This is called horning. It is caused by the air flow resonating in your system at a certain frequency that is causing the poppet within the regulator to vibrate. Turning the pressure up or down a ways could confirm this, but doing say may not be feasible for your application.
One thing you can try (temporary) is to attached 5ft long (or longer) hose between your supply and inlet of the regulator to create a buffer to stabilize the air coming into the regulator and see if that works. If so, for a long term fix, you can use a piece of larger pipe that would bush up the pipe, then bush down to the regulator.
All you are trying to do is change the natural resonance caused by the air flow. "
Thank you for contacting Parker Pneumatic Division Applications Engineering.
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