My Improved Harmonic Tuner

[AirgunBill]

I made a simple harmonic barrel tuner back last summer using a weighted tube I affixed to my moderator. I decide do a couple of improvements and place my new tuner on the shroud instead since I usually have to remove my moderator to store my rifle in the case. I hope this set-up will give consistent and repeatable groups. Bill

https://www.youtube.com/watch?v=Cd4iNLfqg1c&ab_channel=GunPowder%26AirPower

 

[Bobr]

Nice work there bill looks like you are having fun with your 3d printer

 

[fe7565]

Excellent results. Looks pretty good too, well put together. Question to you or anyone that can answer: how much does it matter where the harmonic tuner (weight) is located between the breech-end and the muzzle end? I assume as long as the very end of the barrel (muzzle end) flexing is brought under control it should not matter. But I would assume that the closer away from the end of the barrel (muzzle end) the weight is located the more weight is needed to produce the proper effect? 

 

[dc8cappie]

How about uploading the stl files for the harmonic balancer and sideshot brackets, or a ling to them. Great job and super Ingenuity.

 

[AirgunBill]

Excellent results. Looks pretty good too, well put together. Question to you or anyone that can answer: how much does it matter where the harmonic tuner (weight) is located between the breech-end and the muzzle end? I assume as long as the very end of the barrel (muzzle end) flexing is brought under control it should not matter. But I would assume that the closer away from the end of the barrel (muzzle end) the weight is located the more weight is needed to produce the proper effect?

As I mentioned in my video my tuner weighs only about 4.6 ounces. To reach the accuracy node only required moving it forward about 9.5 mm. Bill

 

[AirgunBill]

How about uploading the stl files for the harmonic balancer and sideshot brackets, or a ling to them. Great job and super Ingenuity.

As I have mentioned before with 3d printing everyone's printer is calibrated slightly differently plus when you print out a hole or object the diameter will vary. For someone just trying to print the object as is will probably not size right. I use Tinkercad and the shapes used and the designs are pretty simple. Bill

 

[GunshipGuy]

Thanks. This is really fascinating--and helpful. I assume most of us are shooting mainly PCPs, but is there any reason why this wouldn't be helpful on a springer? 

 

[bigHUN]

From engineering standpoint (and a longer learning curve with archery arrows) every tube - no matter of round or square - or what wall thickness - or what material - have two node points = static. Can be calculated and can be measured. A rough picture only to show...devide the tube length by 3 and mark each segment with a pencil. So you got two lines...those are the node points which doesn't oscillate. Between the two lines it is flexing/oscillating and outside of the lines L-R ends are flexing. The two lines what you just marked on the tube are rough ballpark but a precise estimation will be less then 5% away.

Any dampener you don't position to the node points but between the most flex point (where is most bowing) and static=node point, and slide+test in and out in small increments.

 

[bigHUN]

Second part of the story...I failed to elaborate to ppl less inclined.

You don't want to eliminate/stop completely the oscillation of the tube, because it will "escape" to the neighboring/surrounding parts which are hard connected = oscillation is travelling (an aggressive example look at the earthquakes). You want to slow down the oscillations, without estimate let me pictorial put a number ,,, slow down from 327 Hz to let say 50-60...with a dampener (some heavy metal powder like bronze or carbide or iron powder mixed in to very soft wobbly rubber or silicon and cast this into a shape you will be handling).

This why the floating barrels getting popular. Let it float.