I saw a few videos of people making their own wood chipper and I decided I'd try to make one using stuff I already have. I recently made a log splitter that works great and decided I'd integrate the chipper on it. But that project has failed so I thought I'd share my experience.
Here's a video of the first run:
The first problem I had was to drill holes in the shaft precisely enough to fit the blades:
I blame this on not having the right tools. But I'm sure that I can rig something up with my press drill to get more precision. That's not a big issue though because I was still able to align the holes for the blades.
Then I mounted this on the splitter with the driveline under the beam, going to the tractor. This works just nice. The clearance between the splitter and the chipper is 12" so it's good enough for me.
But the issue with that was the size of my pulleys, The belt started slipping as soon as I put a branch in it. No big deal, I changed them for 16" pulleys that I already had. But then what had to happen did happen: the shaft on the chipper bent. I'm using a 1" steel bar for the shaft and that was not enough. So that kinda killed the prototype. The bar bent, so one of the blades touched the bottom of the chipper and halted the shaft, and the bolts on one of the pulleys sheared. I'm using a QD bushing on the large pulleys. Those bushings have 2 1/4 bolts (I'm using grade 5) but that was no match for the raging force of the PTO.
So now I'm back to the drawing board. Here's what I think I'll do:
- I'll keep the driveline as is, with a 1" steel bar and a 16" pulley at the end. But I think I'll drill 3/8 hole in the the pulley and bushing and use 3/8 bolts grade 8.
- I'll build another chipper with a 1.5" steel bar. But I don't wanna have to buy another pulley so I might get it machined to have the last 4" narrow down to 1" so that I can use the same pulley.
- Instead of using 4 bolts per blades, I think I'll use 3 longer bolts that go straight across (so the holes in the shaft are non-threaded) and the bolts would hold both opposing blades.
BTW, the blades are made of 5/16 steel. I know I'm supposed to use something thicker and harder, but I'll see where that gets me. I can always make new blades later.
Here's a video of the first run:
The first problem I had was to drill holes in the shaft precisely enough to fit the blades:
I blame this on not having the right tools. But I'm sure that I can rig something up with my press drill to get more precision. That's not a big issue though because I was still able to align the holes for the blades.
Then I mounted this on the splitter with the driveline under the beam, going to the tractor. This works just nice. The clearance between the splitter and the chipper is 12" so it's good enough for me.
So now I'm back to the drawing board. Here's what I think I'll do:
- I'll keep the driveline as is, with a 1" steel bar and a 16" pulley at the end. But I think I'll drill 3/8 hole in the the pulley and bushing and use 3/8 bolts grade 8.
- I'll build another chipper with a 1.5" steel bar. But I don't wanna have to buy another pulley so I might get it machined to have the last 4" narrow down to 1" so that I can use the same pulley.
- Instead of using 4 bolts per blades, I think I'll use 3 longer bolts that go straight across (so the holes in the shaft are non-threaded) and the bolts would hold both opposing blades.
BTW, the blades are made of 5/16 steel. I know I'm supposed to use something thicker and harder, but I'll see where that gets me. I can always make new blades later.
