Other than that, go for the obvious have four inlines all attached to the one gun and have them going at the same time

Good Luck!
Happy Spuddin'
You can buy valves rated well past 3500psi.Novacastrian wrote:What pressures can commercial valves go to?
If you use a metal ball valve, this is usually the strongest part.This would be the only limiting factor, no?
Surely you've seen my ball valve strafer?jimmy101 wrote:The limiting factor really isn't the pressure, it is the air flow rate and the resulting pressure drop.
If you could actually get 120 PSI behind a BB in a BBMG you would get muzzle velocities much higher than 300~350 FPS the typical BBMG gets.
Folks have figured it out before, the typicall BBMG is operating at an effective pressure, that is the pressure actually pushing the BB, of only a few tens of PSI. Doesn't matter much if the compressor is supplying 120 PSI or more, there is just too high a gas flow rate and too much pressure drop in the supply line to actually get anywhere near 120 PSI pushing the BB.
hectmarr wrote:You have to make many weapons, because this field is long and short life
I had hooked up a gauge to the chamber on my vortex project, the pressure never exceeded 20 psi from a 110 psi input.On the linked page (near the bottom) is a calculation of the effective pressure for my vortex BBMG. ... just 18.6 PSIG from a pump resevoir of 120 PSIG.
hectmarr wrote:You have to make many weapons, because this field is long and short life
Don't you mean fps?jackssmirkingrevenge wrote:I remember that one from spudtech, that actually inspired me to take a second look at our old washing machine before it was disposed of
I had hooked up a gauge to the chamber on my vortex project, the pressure never exceeded 20 psi from a 110 psi input.On the linked page (near the bottom) is a calculation of the effective pressure for my vortex BBMG. ... just 18.6 PSIG from a pump resevoir of 120 PSIG.
While I can't fault your calculations, the ball valve design technically gave me a full 110 psi behind the BB as it started down the barrel since the chamber was already pressurised, but even so with a 25 inch barrel I only got close to 400 psi with steel BBs. This is more than twice the muzzle energy of the vortex block, but still short of your predictions. Of course my barrel is shorter and using a lower pressure, but still.
If I had the facilities, I would go the "American" way and hook up a high pressure chamber to an unregulated SCUBA tank and let her rip, to hell with efficiency, just add more pressure! - but this is a luxury i can ill afford so i'm stuck with ways of making the best of what I have, and this means thinking of individually chambered BBs and pulsed air.
yeswindshrike wrote:Don't you mean fps?
That's what I did with my prototypeIf I may suggest it, how about an o-ring that fits just around a bb in the ball valve in the chamber; that way, when the valve is being opened, air doesnt leak before the ball valve opens enough to fire.
Have a look hereThis may seem crazy, but JSR, try charging that cloud with your shock pump to 350 and see what happens. I'd like to know the velocities you get from that!!!!!
EDIT: I mentioned this in another thread but no one paid any attention..................................
Anyway, try using a piston or QEV(with a small chamber refilled from a larger one) to feed air to a vortex block. The higher flow should enhance the venturi effect, not to mention making burst fire possible, and possibly semiautomatic with careful adjustment of the size of the chamber.
hectmarr wrote:You have to make many weapons, because this field is long and short life