I previously wrote about this homemade air gun on my other website. I get the odd email from people who couldn't figure out how it works from the pictures, so I thought I'd do another write up on this air gun, this time The part that people ask about most often is how the trigger works. I hope this photo helps explain (click photo to enlarge). The trigger pull is a bent piece of wire, pivotingThe top end of it forms a hook which goes through a hole in a stripWhen you pull the trigger, the wire turns counterclockwise around the screw and the hook pulls down and out of the metal strip. Some nails (barely visible) keep the strip from moving down with the hook. The spring from the left then pullsThe two gray pieces of string (tennis racquet string, actually) then goes taut and pulls the lever on the ball valve. This causes the lever to turn 90 degrees, opening the ball valve very rapidly. I left some slack in the gray string so that the spring and strip of metal would accelerate before starting to open

the valve so that the actual valve rotation would happen with more of a sudden jerk. Once the valve opens, it releases the entire content of the air tank, which is made of black ABS drain pipe. The air rushes through the barrel of the gun, shooting whatever was in it out the front. To set the gun, the spring needs to be pulled and the metal strip hooked onto the trigger, then the valve is closed, and the air tank pressurized with an air compressor. That spring is quite hard to pull back, so I added a string and a lever to help pull it when setting it. You can see the lever towards the back of the photo. string is attached to the lever and pulls the strip back when the lever is rotated back and down. The air tank has a bicycle valve in the front of it. The bike valve is pushed into a tight hole on the air tank. The rubber stem of the valve forms a tight seal in the hole without the need for any sealant or glue. I clamped a block of wood around the bike valve to avoid accidentally pushing

it into the barrel. I figured the weakest point of this tank was the end cap. I was worried that that end cap might explode while I was charging it up. So I tied it to the rest of the gun using a piece of coat hanger wire. stop the cap from failing, but if it does fail, the block and valve won't turn I would prefer that this air gun be dangerous only to objects in front of it!air purification systems ireland The gun will put a marble through a piece of 3/4" inch (19 mm) particle board or plywood.do spider plants clean the air I managed to put a hole through 1 1/4" (30 mm) particle board with a steel ball. usa air duct cleaners llc Steel balls weigh about three times as much as marbles, so they pack more of a punch.

I got these from an industrial bearing store, but they cost $1 each. I figured another way to get injured by the gun is if the U-shaped piece of 3/4" copper pipe somehow came loose. That would be particularly bad as it would potentially hit me in the So I added a big piece of hardwood to "hold" the U-shaped pipe if it should come loose. Here's a bottle of wine shot with a marble. There seems to be quite a bit of dust aroundI can only assume that that's from pulverizing the marble. We couldn't find a trace of it afterwards at any rate. The barrel is a piece of aluminium tubing with just over 5/8" inch (16 mm) inside diameter. While most of the materials for the gun came from the plumbing department of a hardware store, this part came from where various pieces of angle iron and rod are sold (from The Home Depot) I wrapped a few turns of electrical tape around the barrel where it's mounted to act as a sort of spacer. That way, the barrel doesn't touch the wood it's mounted on except

for the front and back. I figure it's more likely to stay straight that way. rifled the inside of the barrel at some point. But my helical scratches weren't deep enough, and over time they smoothed out enough to be ineffective. I think I'd have to use a steel barrel and cut the grooves deeper for them to really work. gives the projectile a spin, which stabilizes it. Otherwise, the projectile eventually starts spinning in a random axis, and the magnus effect subsequently increases the spin and causes a random side deflection. This is why the old smooth bore musket firearms were so inaccurate at a distance. The other end of the barrel mounts using a grey electrical conduit end to the ball valve. I wrapped a few turns of electrical tape around the barrel until it fit tightly in the 3/4" hole of this part. It's not a perfectly airtight seal, but this side of the valve is only pressurized for a few milliseconds before the marble is shot out the front, so a bit of leakage here doesn't

cause the tank to drain. One time, I filled the barrel of the gun with water and shot up to see what would happen. The water had a bit of friction with the side of the barrel, so the whole barrel shifted forward until it pulled out of the mount. The water then got splattered towards me. so a word of caution - this sort of air gun can backfire. The ball valve has a relatively large opening (I think about 1/2" or 13 mm), and it's straight through for minimal air resistance. Taking audio and video of the valve opening, the as best as I can tell, it rotates through 90 degrees in about 8 milliseconds. That's a lot faster than a sprinkler valve would open. But that doesn't stop people from suggesting that I switch to a sprinkler valve, because something bought surely must be better. Here's the non-trigger side of the gun. The block of wood with the four screws helps hold the stock to the piece of wood that supports the barrel. I had to cut away quite a bit of the stock