CoreC

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The CoreC is a 3D printer designed for the medium/large manufacturing that operates within a network for a just-in-time and local production, managed by a remote SW able to optimize production by guessing market trends. FDM is the predominant technology in 3D printer solutions, thanks to its cost/benefit ratio. The goal of our the project is to bring the advantages of FDM technology to its next level, from an amateur stage, in to the production of goods for the entire community.

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CoreC

Release status: working

CoreC.png
Description
Fused Deposition Material
License
CC BY-NC-ND 4.0
Author
Contributors
Based-on
Categories
3D Printer
CAD Models
Yes
External Link
see below


Design

The machine has been designed to help the optimization of the company spaces, exploiting the verticality of the machine. The CoreC system is assembled inside a 19" rack server and can move over the entire height of the cabinet. Its design is strong and robust as an industrial machine, this is the reason for choosing a server rack, so that it can be both slim and light in its components. The printer structure permits a rapid change of the printing module, thanks to the fusion of all mechanical and electronic component in one unique “core”, so its possible to rapidly unmount the module for the backup substitution.


Capabilities

CoreC is an FDM 3D printer designed for mid-scale production that operates within a real-time cloud system for production optimization. Main features:

  • The management SW programs the machines to provide a targeted production of items by lowering the unsold while maintaining a high number of varieties.
  • The software works interdependently with CoreC devices, arranged according to a decentralized model within strategic hubs inside the retail network.
  • Modular system assembled into a server rack.
  • The structure is designed to place from 1 up to 9 interchangeable 400x400mm printing plates, on a Z axis of 1800 mm.
  • The printer provides sequential production, extruding on differents plates. Once a printing plate is completed, the printer unit controlled by the SW moves on to the next one, granting a continuous and flexible flow of production.
  • The software communicates with the printer to provide a management plan that takes in account the needs of the market in real time and optimizes the printing plates with respect to the shape, time and size of the items to be produced.
  • The modular system allows to choose the construction volume according to the production requirements.

Frame Material

The printer composed by two main elements:

  • Server Rack: 19” rack contains the Z axis movement the power unit and hosts two CoreC modules: one core is functional and the other is for backup purpose
  • CoreC module: Made of printed plastic and Aluminium 2020 extrusions.



Main innovations

The following is a list of the main innovations:

  • The deposition technique, there is no hot melt since the polymer hardens with white light from a low power led source (3W)
  • The photopolymer: an acrylic resin which has a viscosity similar to toothpaste
  • Scara movement combined with a polar movement
  • Fully 3D printed body

Electronics

Stepper Motors

The q3d uses, including the extruder, four NEMA-17 stepper motors. Two of these motors control the X and Z positions, one of them controls the rotating plate and the last controls the extrusion of the photopolymer. The stepper motors needs a minimum holding torque of 40Ncm (0.4Nm).

Controller Electronics

The q3d works perfectly using a MKS mini 2.0 or Arduino Mega/RAMPS 1.4 equipped with four stepper drivers A4988.

Extruder

The extrusion system is composed by a 1 mm nozzle, a flexible tube in polypropylene connected with the resin tube, two 1.5W white led, a mechanism "gear wheel/worm gear" that squeezes the resin tube, specially designed to raise the torque of the stepper motor by a factor of 58.

Credits

Thanks to Maurizio Mambrin, Alessandro Chiolerio, Vincenzo Guarnieri, Paolo Pandolfi, Simone Paschetto, Jessica Barolo, Marco Cotto, Paola Martino, Alessandra Rosa, Riccardo Dardano, Marcello Prisco, Mattia Palombella, Sonia Matera, Elisabetta Rosolen, Daniele Passamonte, Raffaele Spina, Pietro Giuliano, Arianna Vergani

External links

Websites

Open source files

  • Thingiverse [1]

Videos

  • q3d [2]
  • It's a Kit [3]
  • A Table Lamp [4]
  • Politronica Vision, Mission and Strategy [5]
  Specifications
Controller Electronics Duet2 Wifi Board
Printing material FDM printing filament up to 300°C
Printing Size (mm) 400X*400Y*1800Z
Motors 4 x NEMA 17 Stepper
Frame Material PETG and Aluminium
Sensors IR bed sensor, runout filament, power loss sensor,