Requirements

• A portable, high performance machine
• Performance is defined as (1) plug-and-play, (2) ease of control, (3) scalability, (4) high print quality, (5) fast printing, and (6) printing in all materials
• Uses high temperature, 3 mm extruder, opimized for both fast printing (E3D Volcano Nozzle) as well as flexible filaments (short and supported extrusion distance)
• Easy to source parts
• Buildability in 5 hours
• 3D printable frame that still allows for high stability
• Stability of 3D printed frame may be assured via mini rebar plus concrete inside the pipes if needed
• 8" bed for minimum viable product
• extensible to 12" bed after 8" version is optimized
• Includes a full Design Guide
• Includes a FreeCAD workbench for design.
• Has well-developed cable management
• Has quick exchange toolheads via magnetic mount and complete unpluggability of print head using a single connector.

Control Requirements - Print Cluster

• Eliminate the laptop from being needed by sending files to an SD card on the RAMPS. This is the most secure way to control a printer - by eliminating dependence on a USB connection.

• Allow for monitoring of print job (video cam, progress)
• Allow to abort jobs remotely in case of failure detection
• Allow for remote control via the web (sales of products + integration with open source microfactory)

Value Proposition

• Construction Set via universal Axis, D3D Workbench in FreeCAD, and a Design Guide.
• Industrial applications by size of prints and any material
• easy enclosure for semi-heated chamber

Details

• Double Connector may be used with a 6 or 12-pair cable
• Gauge 22 Wire Ampacity is 5A enclosed, so it is suitable. It is 2.5A with 4-6 cores.
• DIY Cat5 splitter -[1]