
Space Invaders Carriage (Eustathios)
myminifactory
This experimental extruder design is compatible with some Eustathios printers, specifically Eric Lien's Eustathios v2 Spyder variant. It can be switched between bowden, direct drive Gear Head, and direct drive Bondtech using linked extruder parts. The main differences of this extruder include: 1. Allows switching between different configurations (bowden, direct drive, bondtech, and gearhead) 2. Much larger (and heavier), expect to lose about 1cm build area in x and y (significantly more y in BondTech direct drive mode) 3. More difficult to assemble and install so I'd recommend starting with one of the other designs if building a new printer 4. Hotend height is higher (this may cause problems with some bed configurations? - I'm using a custom bed configuration) 5. More CFM for part cooling (I prefer to run with more cooling than most) 6. I don't know if the extruder cooling is sufficient for warmer environments or heated build chambers. See the instructions tab for more info on assembly and parts required. Filaments: -- Sainsmart Clear PETG -- IAP Clear ABS Instructions E3D v6: The E3D v6 is held in place with a M5x30mm screw and an optional M3x40mm screw. The tolerances on the slot for the E3D are tight, and will probably require some light sanding to get a good fit. Bushings: I'm using 10x14x30mm graphite bushings with a NinjaFlex sleeve, but the holes are 15.9mm in diameter and should be compatible with more common self-aligning bushings. I've found that the larger size of the extruder makes it more prone to binding than the original design, at least with the 30mm graphite bushings I'm using. Extruder Fan: I mounted the extruder fan with 3mm cylindrical magnets, black oxide set screws, and a NinjaFlex gasket. The set screws go in the extruder holes, the magnets press fit in the fan screw holes, and the gasket prevents it from rattling. This makes it very easy to remove, but you can use the standard approach of attaching the fan with some M3 screws. Cooling Fans: The extruder uses two 50mm x 15mm blower fans for part cooling. I'm using removable glue dots to keep them in place. I rarely run them at 100% (usually only for bridging or very short layer times). Typical values I use are 60-80% for PLA, 0-20% for ABS. Cooling Duct: The cooling duct is attached using eight M4x3mm black oxide set screws and eight 5mm x 3mm cylindrical magnets. The set screws are screwed into the duct and extruder plastic, and the magnets hold them together (see pictures). Some other sizes can work too as there is some adjustment range with the set screws. Lights (optional): I'm using two 2W 12V LED modules wired in series (I'm running a 24V system) to light up the extruder. I have them wired on a separate circuit and set up to indicate when the hotend is hot enough to extrude. Brass M3 Press Fit Inserts: The holes on top of the extruder are designed to work with brass press fit threaded inserts. Printing: I printed the extruder block in PETG and the cooling duct in ABS. I would recommend printing in the default orientation with support. It can be printed on the back corner flat without support (it was originally designed to be printed that way), but I found that the axes were less orthogonal when printed that way (this design is prone to warping and not very tolerant of it). Wiring: I wired the heater and thermistor on a separate connector from the fans and lights. This makes it easier to switch out just the heater block.
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