Hi there, I'm new here.
I wanted to show my work in progress speedster pump conversion. This place is an absolute goldmine for spump inspiration, thank you so much for that.
First some backdrop on this marker:
It is a Umarex branded Pro-Toyz speedster, and as far as I know a direct spyder clone. I got it for 30€ at a flea market a few years back and it actually got me into paintball. It has been missing a few parts from the start and I replaced the Hammer back cap with a printed piece that is only now showing signs of wear.
Because I have no access to heavier tools than a dremel and also less access (and unwillingness to pay for) common cocker/trilly parts but a passion for 3d Printing and CAD design, this conversion takes a few unique turns.
Here are all the modified/new pieces parted out:
- The pumpgrip is off my own design. With the right reference I would like to make it cocker compatible before I upload the files for this conversion.
- The pump rod is a piece of threaded m5 rod with a brass sleeve to avoid scratching and snagging on things. I'll pick up some stainless rod on my next trip to the hardware store.
- The pump guide consists of 10mm aluminium tube and a 3d printed base. I was not keen on sourcing a trillogy pumpkit to germany and this actually holds the 500-800psi coming from my bottle. If I redo this piece, I'll make the rod 8mm in diameter to accept a linear bearing on the pumpgrip side, but this is quite smooth.
- The bolt has a printed extension attached. Conveniently it already had a screw port on the back that would hold a plastic sleeve to avoid metal on metal contact. Important to note is the print orientation, as you would usually print a round part like this upright; however I opted to cut away part of the cylindrical surface to print it flat for significantly higher tensile strength.
- Lastly the hammer. I spent 2-3 hours grinding away on the hardened steel hammer with my dremel and a stone bit before giving up. This hammer is printed flat in a similar manner to the bolt and uses an m5 screw as a striking surface and weight. It is still very lightweight and woll probably bite my arse when I try to convert to low pressure, but for now It works just fine. I can see the rear portion breaking when you fire it with the bolt not quite forward or the sear surface wearing down over a few dozen trigger pulls, but I guess I'll just print a bunch for my next game day. If it doesn't work out in the long run, I'll send the original and/or my cad modell to a friend that works in a machine shop.
The Entire action is exceptionally smooth, but my pump experience so far has been with (quite heavy) spring powered nerf blasters.
I haven't had a chance to chrony it or shoot actual paint through it, but it holds air and fires quite loudly. I'm concerned the hammer might be too light to get acceptable fps, but we'll see. If i can get my hands on some nice elbow fittings and macroline I can attach my PPS Fatty reg and work on converting this to LPA.
If you have recommendations on where you get your pneumatics within the EU, I'm curious. Other than that, tell me if you think mixing HPA and 3D printing like this is reckless.
I wanted to show my work in progress speedster pump conversion. This place is an absolute goldmine for spump inspiration, thank you so much for that.
First some backdrop on this marker:
It is a Umarex branded Pro-Toyz speedster, and as far as I know a direct spyder clone. I got it for 30€ at a flea market a few years back and it actually got me into paintball. It has been missing a few parts from the start and I replaced the Hammer back cap with a printed piece that is only now showing signs of wear.
Because I have no access to heavier tools than a dremel and also less access (and unwillingness to pay for) common cocker/trilly parts but a passion for 3d Printing and CAD design, this conversion takes a few unique turns.
Here are all the modified/new pieces parted out:
- The pumpgrip is off my own design. With the right reference I would like to make it cocker compatible before I upload the files for this conversion.
- The pump rod is a piece of threaded m5 rod with a brass sleeve to avoid scratching and snagging on things. I'll pick up some stainless rod on my next trip to the hardware store.
- The pump guide consists of 10mm aluminium tube and a 3d printed base. I was not keen on sourcing a trillogy pumpkit to germany and this actually holds the 500-800psi coming from my bottle. If I redo this piece, I'll make the rod 8mm in diameter to accept a linear bearing on the pumpgrip side, but this is quite smooth.
- The bolt has a printed extension attached. Conveniently it already had a screw port on the back that would hold a plastic sleeve to avoid metal on metal contact. Important to note is the print orientation, as you would usually print a round part like this upright; however I opted to cut away part of the cylindrical surface to print it flat for significantly higher tensile strength.
- Lastly the hammer. I spent 2-3 hours grinding away on the hardened steel hammer with my dremel and a stone bit before giving up. This hammer is printed flat in a similar manner to the bolt and uses an m5 screw as a striking surface and weight. It is still very lightweight and woll probably bite my arse when I try to convert to low pressure, but for now It works just fine. I can see the rear portion breaking when you fire it with the bolt not quite forward or the sear surface wearing down over a few dozen trigger pulls, but I guess I'll just print a bunch for my next game day. If it doesn't work out in the long run, I'll send the original and/or my cad modell to a friend that works in a machine shop.
The Entire action is exceptionally smooth, but my pump experience so far has been with (quite heavy) spring powered nerf blasters.
I haven't had a chance to chrony it or shoot actual paint through it, but it holds air and fires quite loudly. I'm concerned the hammer might be too light to get acceptable fps, but we'll see. If i can get my hands on some nice elbow fittings and macroline I can attach my PPS Fatty reg and work on converting this to LPA.
If you have recommendations on where you get your pneumatics within the EU, I'm curious. Other than that, tell me if you think mixing HPA and 3D printing like this is reckless.
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