https://www.youtube.com/watch?v=rZpHizpZSPQ
The computer is an Xi3 X7A/Piston. I made a longer video about it here: https://www.youtube.com/watch?v=M9ZCjMtthqYI could be 10000% wrong about this but I T...
https://www.youtube.com/watch?v=rZpHizpZSPQ
The computer is an Xi3 X7A/Piston. I made a longer video about it here: https://www.youtube.com/watch?v=M9ZCjMtthqYI could be 10000% wrong about this but I T...
https://www.thingiverse.com/thing:6083263
This is an adapter for holding sandpaper with an oscillating multitool. I designed it for a DeWalt DCS356, but it may fit other brands/models with the same blade interface. The Everclamp grid with sqwasher plate and thumbscrews lets you attach sandpaper, a sponge, or other irregularly-shaped objects in any orientation. Do not print the "uncalibrated" STL files, as the threads will not fit. Instead, use OpenSCAD to convert the attached *.bundle.scad files into STL, calibrated for your printing setup. See https://everclamp.org/#calibration for instructions. PrusaSlicer settings: Layer height 0.2mm Gyroid 15% infill The elevated flat part requires good support to print correctly: Support style: organic Don't support bridges: unchecked (in other words, DO support bridges) Overhang threshold: 10 degrees (support the bridge, not the screw threads) Top/Bottom contact Z distance: 0.2 (detachable) Top/Bottom interface layers: 3 (heavy) Support speed: 20 mm/s (slow)
https://github.com/prusa3d/PrusaSlicer/issues/2596#issuecomment-1975001840
Version Version 2.0.0+win64 Operating system type + version Windows 10 3D printer brand / version + firmware version (if known) Prusa i3 MK3s with MMU 2.0, running marlin firmware version 3.7.1-226...
https://www.thingiverse.com/thing:6495278
This ridiculous contraption lets you refill a Squirrel Buster bird feeder using only two hands, without setting any parts on the ground except the bag of seed. Features: A small hook for hanging the tool itself A big post for hanging the feeder's outer shell upside down A funnel for adding bird seed Symmetrically redundant for right/left handed use Only 30 grams of PLA My Squirrel Buster Legacy measures 24.9 mm outside the inner cylinder, and 92.2 mm inside the outer cylinder. If yours has the same dimensions, and U-shaped wires on the bottom, then it should be compatible. Usage: Start with the tool hanging from the triangular wire as shown in the photo. Unhang and disassemble the feeder, holding one part in each hand. Lean the big cylinder on its side, and use it to grab the tool and unhook it. Then invert the feeder's outer shell and hang it from a post, freeing up a hand so you can hang the entire feeder for filling. After filling, unhang the feeder and do everything backwards to reassemble. Since you can't lean the filled cylinder on its side, instead use one of the bottom U-shaped wire loops to hook and remove the tool. The whole process is a bit complicated and I'm glossing over some steps, so practice without seed until you figure it out. Printing: Enable tree supports for the small hooks. (The flat bridge area does not need supports.) Consider adding a brim, though my bed adhesion was good enough without one.
https://www.thingiverse.com/thing:6076719
This PrusaSlicer project cuts the original 3DBenchy.stl into parts, using 100% infill density for the aft hull and 10% lightning infill elsewhere. The resulting model floats upright when printed in PLA. This version is under 9 grams, but some of my previous test prints were over 12 grams and just barely floated, so there are many solutions to this problem. I used PrusaSlicer 2.6 because its "center of gravity" visualization is somewhat useful. The "Public Domain" license only applies to the slicer profile, as I didn't create the model.
https://www.thingiverse.com/thing:6480745
The goal of this project is to design a cover for an 8mm⌀ extension cord at my makerspace, strong enough to walk on, at minimum cost. The parts assemble to form a rigid triangle, with the top in compression and the base in tension. Filament usage: 170 g/m (52 g/ft) Filament cost at $20/kg PLA: $3.40/m ($1.04/ft) The STL files contain 100mm extrusions; you should scale them to the desired length. For example, to span a distance of 1080 mm, you could print the following: cord_cover_top_3x.stl, scaled to Z=180%, 3×2 copies: 180×3×2 = 1080 mm cord_cover_base.stl, scaled to Y=180%, 5 copies: 180×5 = 900 mm cord_cover_base.stl, scaled to Y=90%, 2 copies: 90×2 = 180 mm When assembling, stagger the top and base parts like bricks, with 50% overlap. The final base (would be #6 in this example) is split in half and positioned at the ends. The top_1x and top_3x STLs are equivalent, but top_3x is theoretically less wobbly because the 3 parts can support each other. I recommend printing 20mm extrusions first, for quality/strength testing: cord_cover_top_1x.stl, scaled to Z=20% cord_cover_base.stl, scaled to Y=20% PrusaSlicer settings for 'top': Scale in the Z direction 0.2 mm layer height 1 wall 99% honeycomb infill (solid, with lines pointing in 3 directions for diversity) 0 top layers (let the infill handle it) 1 bottom layer (to help align with the raft) 3-layer raft with 0.15 mm Z distance (bed adhesion is important) Seam position: Random (print the horizontal stitches in both directions) No support PrusaSlicer settings for 'base': Scale in the Y direction 0.2 mm layer height 2 walls 100% rectilinear infill 0 top/bottom layers (let the infill handle it) No raft (the base is a huge rectangle) No support The "8mm" STLs have 8.1mm⌀ of internal clearance. I haven't built STLs for other diameters, but they can be made in Fusion 360: Modify > Change Parameters > (wire_diameter, top_thick, extrusion_length) Longprint is loooooooooong.
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