![]() ![]() The HyperCube Evolution is an open source 3d-printer build common amongst 3D printing enthusiasts. Among the many benefits of 3D printing is the rapid turnover between iterations, making this technology very valuable to me as a product design engineer. See the detailed images on the Z-carriages.Core XY fused deposition modeling 3D printerĪdditive manufacturing, broadly referred to as 3D printing, has quickly become a powerful tool in the design and innovation process. I had to adjust my build platform after I noticed that it was positioned to far to the back of the printer. The height of the endstop will be adjusted later on. Use the assembled bed platform to position the Z-axis rods and mount them to the frame.įinally assemble and mount the endstop holder and the endstop adjust. Also mount the leadscrew support in the top. Place the Z-motor mount in the bottom middle and mount the motor and threaded rod. Also mount the Z nut mount in the middle on the small aluminum extrusion on the platform. Then, mount the Z-carriages and bearings. ![]() ![]() Printed parts: 2 x Z_Carriage 4 x Z_Carriage_Clamp 4 x Z_Shaft_Clamp 1 x Z_Nut_Mount 1 x Z_Motor 1 x Z_Leadscrew_Support 4 x Bed_Support 1 x Z_Endstop 1 x Z_Endstop_Adjust Z-axis: 1 x T8 300mm leadscrew with nut 1 x 5x8mm flexible coupler 2 x 350mm smooth rods 4 x Igus RJ4JP-01-08 Platform: 2 x 285mm V-SLOT 2020 Aluminium Extrusion 1 x 135mm V-SLOT 2020 Aluminium Extrusion 90 Degree Corner Bracket Button Head Screws M5 (Single) (Length: 8mm) 4 x Small springs for the bed. If something is missing or unclear in this instructable, please let me know. All my parts are printed in Torwell PETG, 0,25mm layer height, 50% infill. You will require a 3D-printer or access to a 3D-printing service to build this printer. 116 x "Drop-in" Tee nuts Linear movement: 2 x 8mm Hardened steel smooth rod, length 300mm (Y axis) 2 x 8mm Hardened steel smooth rod, length 360mm (X axis) 2 x 8mm Hardened steel smooth rod, length 350mm (Z axis) 10 x IGUS RJ4JP 01-08 bearings 1 x T8 300mm Lead Screw 1 x 5x8mm Aluminium Flexible Shaft Coupler 16 x F623ZZ Flange Bearing 1 x 5M GT2 Belt 2 x 2GT-20 Teeth Timing Pulley Electronics: 4 x NEMA17 stepper motor (4000g-cm 56OZ-IN) 1 x All Metal Bowden Remote Extruder 1 x 3D Printer Controller RAMPS 1.4 Board (display board is optional) 1 x Arduino Mega 2560 R3 5 x A4988 (or DRV8825) Stepper motor driver 1 x MK3 Aluminum Heatbed 1 x High Current 210A MOSFET Upgrade (or a relay and bang-bang setting for heatbed) 3 x Endstop switch Various Cables and dupont (female) connectors Misc parts: 1 x 440Pcs M3 A2 Stainless Hex Head Socket Cap Screws Nuts Assortment Kit I bought all parts for the frame from RatRig as they have a complete kit with all fixings required, except from electronics and the printed parts (Hypercube 3D kit from Ratrig: Natural Kit - All Black Kit). Frame (all supplied in the kit from RatRig): 2 x 340mm V-SLOT 2020 Aluminium Extrusion 2 x 303mm V-SLOT 2020 Aluminium Extrusion 2 x 340mm V-SLOT 2020 Aluminium Extrusion 2 x 303mm V-SLOT 2020 Aluminium Extrusion 4 x 350mm V-SLOT 2020 Aluminium Extrusion 28 x 90 Degree Corner Bracket 56 x Button Head Screws M5 - 8mm 60 x Button Head Screws M5 (Single) (Length: 10mm). I used other bearings and smooth rods, but otherwise my BOM is quite similar. The original BOM (Bill of Material) is availible at the Tech2C Thingiverse page.
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