 I think that I can do something with this here tube. I have to excuse my bad lighting. It's raining out, so it's real dark. That's also why I'm working on this. So my question here is, is this going to melt if I have like a conveyor belt running along and rubbing? I think it might be okay. Maybe if a lot of the material I'm moving is going to be wet, or at least, you know, damp. I think it should be fine. All right, I'm going to try it. Oh, this side, this side, that was a bigger one. I did get a little bit of chipping and cutting it with a saw to put the chunk broke out. But that's fine. Okay, well that fool is starting up. Let me think about what I want to do here. You know, I think I can just melt the ends. All right, the bread's on, and I think that looks about right. I don't know. Good enough. All right, so a rotary thing goes here, I'm going to attach a pipe from here that goes down the side, all the way to the other end, and then another pipe at this end that attaches to the little bearing here, all the way down there. I have lots of stainless steel round pipes, and I also have aluminum square tube. The square would be a nice shape for this, much easier to attach things. Am I going to have a problem with the aluminum and corrosion? I used that square tube on this here. These parts here would be splashed by the most salt water, and they looked 100% fine. All these ones up here, they're pretty well protected anyway, and what a cool roof. Yeah, all these look, it looks like it's brand new, except for, you know, some paint or whatever, but I'm not worried about that. I don't see any signs of corrosion on this, so I think this stuff should be fine. Well, that's awesome. This stuff is nice and light, and strong, and great shape, and this piece is not a full one. I took a little piece off the end, however, I think it'll be long enough. 213 noodle units, so 106.5, oh beauty, that's a good spot right there, however, I don't want to cut the pipe directly in half, because the pipe here will just come up to this spot and bolt into one of these holes, and I'll make some kind of reinforcement thing, so this isn't swiveling on the end of there, but this one only comes up to there. The other one, I want to come up to the bolt for the bearing, so this side needs to be like two noodle units longer than the other side. All right, yeah, I'll just measure one this way, I'm going to add one to that one, subtract one to this one, it'll be two noodle units, that should be good, put the pipe right there, another bolt up there, it'll keep it from, all right, now I can attach my pipe here, that's pretty good, all right, where's the other one, yeah, other guy, okay, here's my bearing and everything, so I just need to drill a hole in the pipe, put it here, put a little spacer so the pipe isn't hitting this, well I guess before attaching anything else, I need to do the roller at this end, hmm, oh I guess I'll just make another one of these for down there, keep this 90 degrees aligned, suckers go there, and it goes way down the other end, not entirely sure how much adjustability I need down here, yeah, I can move this, there's another spot up here where I can connect it, you know, so it's connected well, and if every two centimeters is not enough adjustment, adjustment on this piece, I have a hole that goes between, so if I move the bolts from there to the other holes, it offsets them by one centimeter, so I can adjust everything down to one centimeter, if that's not enough, I'll put another hole in here somewhere to get it down to half a centimeter, I don't know, we'll see how it goes, thinking before I make the belt, I'll put this on the shortest length, that's actually the second shortest length, because probably I'm gonna have to stretch, so yeah, see, this thing still fits, now I need a belt, okay what do I have here, this stuff is really tough, might use that, definitely don't want to use the dark blue because I don't have that much of that, let's see, not that, not that, this, I'm not sure if this is thicker than this other hole, no it is totally, this is totally thicker, all right I gotta mark every nine imperial noodle units, and I don't want either of these edges on the outside, so we'll fold them in, so this is going pretty slow because I'm doing triple stitch, which does two stitches forward then one back, then two forward and one back, or you could say it does forward back forward, forward back forward, so on each spot it does three stitches, one forward, one back, one forward, now why is this, what's the point of this, why is this better than just running three straight stitches, okay if you have straight stitches, even if you have three straight straight stitches, you have, that's what this first stitch is here, you have threads that run along the cloth, and every time there's a hole, you know they loop around each other, but you basically have two threads running the length of the cloth, and if the cloth stretches more than the thread can stretch, the thread will break, but with a triple stitch, you don't have straight threads going all the way along, it'll go forward, back, forward, forward, so your your thread like loops back on itself over and over, so if the cloth stretches more than the thread can stretch, it can just kind of like uncoil itself a little without actually breaking, all right let's keep going, all right let's see how it does, I didn't sew this all tangled up, and that is on the loosest setting down there, so I should be able to tighten this, yeah I need to attach some wires to here, 12 amps of current, that is not that much, I don't need any fat wires, what do we get? okay now I need some electricity, all right let me just connect one of these batteries, it's not the right voltage, but should make it move some, oh great, that's actually pretty strong, thinking I might want to rubberize that top wheel up there, the top roller, because when I put my hand here, I could stop this from moving, but the roller was still turning, so it just didn't have enough friction to you know overpower me, doesn't necessarily have to overpower me, but yeah there's definitely a lot more, what's it called, strength that can be gained with some traction up there, also it's going to go a lot faster because that was a low voltage battery than what the motors made for, so I guess, well think about rubberizing the wheel, maybe I'll just give it a real test first, I gotta think about what I want to do, maybe I'll wait till it's not so soaking wet and muddy out, I guess I'll need to make some kind of frame here, I can hold that end up, and then this end, and yeah it's still a few things to do, but I think totally works, so that's good.