Shock Pumps/ MOAR PRESSURE
I have built and am working on a pneumatic cannon with fairly low capabilities, and since it is build from schedule 40 steel and aluminum, I am now looking for some way to get over ~200 psi (low, I know) chamber pressure. I do not have ready access to a refrigerator compressor, but I am interested in their capabilities (on average), and the capabilities and ease of use for a shock pump. For example, what attachment system do I need for a fridge compressor and/or a shock pump to a chamber? Are shock pumps easy to use at ~400psi (a significant upgrade for now, I'll be looking at higher pressures and hybrids later) if you're filling a chamber that's got about 200 cu. in. of volume? Answers to all or any questions are appreciated.
oh god. I had a spreadsheet around here somewhere... it's not very accurate, but good enough until I have time to learn C++...
Okay. It is currently v0.02 ish, so expect bugs. Input fields are highlighted in yellow.
Pressure in: the PSIG pressure you are feeding into the pump. Since you have a compressor, you should use two check valves at the base of the pump, and feed the "inlet" from your compressor. be careful, as you have a pneumatic ram if you decide to let go of the handle. Maybe restrict the flow
Target volume: volume of your chamber, plus everything after the outlet check valve as far as hoses/gauges/valves etc. goes. Cubic Inches
target pressure: the PSIG pressure you want to reach
cylinder Diameter: diameter of the pump tube Inches
stroke length: obvious. Inches
dead space: the ammount of water that would fit in the bottom of the pump if the piston was all the way down. cubic Inches
Max force required: How hard in pounds you have to push for the last stroke.
number of strokes: number of strokes required to reach target pressure. FOR AN ACCURATE NUMBER, YOU HAVE TO RECALCULATE A BUNCH. IIRC, it is F9. mash it.
Max strokes: broken; ignore it
pump volume: hmmm... cubic inch
Piston area: obvious... square inches
Okay. It is currently v0.02 ish, so expect bugs. Input fields are highlighted in yellow.
Pressure in: the PSIG pressure you are feeding into the pump. Since you have a compressor, you should use two check valves at the base of the pump, and feed the "inlet" from your compressor. be careful, as you have a pneumatic ram if you decide to let go of the handle. Maybe restrict the flow
Target volume: volume of your chamber, plus everything after the outlet check valve as far as hoses/gauges/valves etc. goes. Cubic Inches
target pressure: the PSIG pressure you want to reach
cylinder Diameter: diameter of the pump tube Inches
stroke length: obvious. Inches
dead space: the ammount of water that would fit in the bottom of the pump if the piston was all the way down. cubic Inches
Max force required: How hard in pounds you have to push for the last stroke.
number of strokes: number of strokes required to reach target pressure. FOR AN ACCURATE NUMBER, YOU HAVE TO RECALCULATE A BUNCH. IIRC, it is F9. mash it.
Max strokes: broken; ignore it
pump volume: hmmm... cubic inch
Piston area: obvious... square inches
- Attachments
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pump.zip- v 0.02
- (555.83 KiB) Downloaded 230 times
POLAND_SPUD wrote:even if there was no link I'd know it's a bot because of female name
I recently purchased a very good quality aluminium bike pump, $98. It's incredibly robust, but the gauge only goes up to 160psi. So i'm hesitant about going past the gauge, since that usually breaks the needle and runs the risk of breaking the pump. I'm looking for a good way to pressurize a large chamber to high psi. Any suggestions?
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jackssmirkingrevenge
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I certainly wouldn't recommend shock pumps for chambers larger than than a couple of cubic inches (unless you found a way to motorise it, which would be an interesting and not that challenging project)
If you don't have access to a fridge/AC compressor you might want to consider making your own stirrup pump, which is basically making an oversized shock pump with much greater stroke volume. Gippeto offers an excellent tutorial on the subject here.
If you don't have access to a fridge/AC compressor you might want to consider making your own stirrup pump, which is basically making an oversized shock pump with much greater stroke volume. Gippeto offers an excellent tutorial on the subject here.
hectmarr wrote:You have to make many weapons, because this field is long and short life
You da man, JSR. That's exactly what I wanted to know. I'll certainly look into motorizing a shock pump, mostly because of the rated pressure tolerance on those things, I bet Ive got an old lawn mower engine somewhere that nobody would miss...
So that stirrup pump just screws directly onto the gun itself?
Is there any way to make one of those out of steel so it could handle higher pressures? It's probably possible with a welder and some good tools, but I'd like to be sure there aren't any other issues before I even think about trying.
So that stirrup pump just screws directly onto the gun itself?
Is there any way to make one of those out of steel so it could handle higher pressures? It's probably possible with a welder and some good tools, but I'd like to be sure there aren't any other issues before I even think about trying.
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jackssmirkingrevenge
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If you're looking to adapt the shock pumpthis FX designmight be worth copying.
The mechanism should be self explanatory.
If you make your own stirrup pump, it would probably still be worth buying a shock pump go cannibalise it for schrader attachment, hose and gauge, and I think it's safe to say that you would die of old age before reaching the sort of pressure that would make the materials that Gippeto used fail
The mechanism should be self explanatory.
If you make your own stirrup pump, it would probably still be worth buying a shock pump go cannibalise it for schrader attachment, hose and gauge, and I think it's safe to say that you would die of old age before reaching the sort of pressure that would make the materials that Gippeto used fail
hectmarr wrote:You have to make many weapons, because this field is long and short life
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POLAND_SPUD
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I've seen it before.. pretty much as simple as it gets... personally I'd use as small piston as possible (in order to reduce stress) and find some way to allow this thing to operate continually
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daberno123
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Here's somebody else who took an FX airgun pump and motorized it...http://www.steelplinkers.com/LowbuckCompressor.html
Pretty simple actually, especially it you have access to a lathe...
Pretty simple actually, especially it you have access to a lathe...
Even the old Girandoni guns from the 1700's used a pump system like this to fill the cylinders. Obviously not motorized but it did use a similar system that eliminated manual pumping.
I have a diagram of the system in an old Arms and Armor review.
I have a diagram of the system in an old Arms and Armor review.
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Crna Legija
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you can also try reged HPA or Co2. but getting a 40ish buck ac compressor of ebay it your best bet since you will only go to 200 psi
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Crna Legija
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well HPA Co2 and ac compresors will all go above 400psi
'' To alcohol... The cause of, and solution to, all of life's problems.”
--Homer Simpson
Add me on ps3: wannafuk, 8/11/11 cant wait
--Homer Simpson
Add me on ps3: wannafuk, 8/11/11 cant wait