Open Sector Workshop: Difference between revisions
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*[[Basic Advanced Workshop]] - $15k open source. CNC precision machining is involved. | *[[Basic Advanced Workshop]] - $15k open source. CNC precision machining is involved. | ||
*[[Ball Bearing and Bearing Manufacturing]] | *[[Ball Bearing and Bearing Manufacturing]] | ||
*[[Induction Furnace]] - | *[[Induction Furnace]] - 200kW - to produce 5000 lb of virgin steel and aluminum per day. Can consider a zone refining- style vertical furnace where only a zone is activated. | ||
*[[Plastic Recycling and 3D Printing]] | *[[Plastic Recycling and 3D Printing]] | ||
*[[Basic Electronics Shop]] - 3D printed and socketed designs for recyclable electronics, which can be potted for permanence. Heat dissipation fans and other structures included. | |||
*[[Materials Production Facility]] - lumber, CEBs, rubber (thermoplastic elastomers), aluminum, rebar (structures), glass, plastic composites, thermoplastic materials of all types.. | |||
=Proof of Concept= | |||
*Start with [[Large Workshop Structure]] with [[Roofless Roof]] and PV. Must thus include thermoplastic printing to deliver roofless roof geometry. | |||
*[[Basic Workshop]] for brute force fabrication including [[Frames]] that are rebar-based. | |||
*[[Basic Advanced Workshop]] for CNC torch, CNC machining. Includes Multimachine-style concrete block with spindle and linear travel axis and 2 opposed chucks, either of which can be driven. CNC grinder and drive added to this system, starting even with simple mounted grinders. | |||
*[[Rapid Learning Facility]] for housing, as means of cross-subsidization by training Civilization Builders in 4 years | |||
*Includes 50kW induction furnace for and 50kW VAWT windmill. See [[Aluminum Melting]] and [[Steel Melting]] - for yields of 2kg/kWhr of aluminum [https://www.epri.com/research/products/CR-108641#:~:text=Power%20usage%20can%20vary%20from,of%20melter%20and%20operating%20practices.], and 2kg/Kwhr for iron [https://electroheatinduction.com/time-required-to-melt-1000kg-of-cast-iron-using-a-induction-furnace/] | |||
*Industrial grade shredder for plastic, aluminum, rock, and steel. 8' long and 26 hp. Doublesided drive. | |||
*Basic electronics capacity - 3D printed in the style of [[Universal Power Module]], aluminum heatsinks, sockets, 3D printed terminal blocks of complex geometry. Can do controller, drone controllers, RTK GPS system, and sensor-actuator complexes. | |||
*Solar concrete - batch pottery/ceramic kiln for producing lime, pottery, ceramics. | |||
*Ball mill or rod mill for pulverizing. Cement, metal powders, micronized rubber, etc. | |||
*Hydrogen production - 50 kW system concept - industrial oxygen production and oxyhydrogen production. | |||
=Proof of Concept of Production Capacity= | |||
*Building engines from scrap metal and aluminum using solar energy | |||
*Building cars and tractors from scrap steel and aluminum using solar energy | |||
*Building aerial drones and terrestrials drones from scrap metal, plastic; using [[Modular Electronics]] with various sensors up to RTK GPS and inertial guidance. | |||
*Producing commercially-viable quantities of concrete | |||
*Producing rebar and reinforced concrete structures, frames, and space frames. | |||
=Key to Success= | =Key to Success= | ||
Sufficient recursion must be available | Sufficient recursion must be available to make parts in house starting from waste plastic, | ||
Latest revision as of 21:04, 13 April 2024
Building on Flexible Fabrication, Digital Fabrication, Industrial Productivity on a Small Scale, Distributive Enteprise, Open Sector, Open Design, Basic Workshop, Lifetime Design, and other experimentation - we propose the Open Sector Workshop.
This is a commercially viable facility that can produce about 90% of consumer durables and other products necessary for a modern standard of living. Basic infrastructure involved includes:
- Basic Workshop - $5k
- Basic Advanced Workshop - $15k open source. CNC precision machining is involved.
- Ball Bearing and Bearing Manufacturing
- Induction Furnace - 200kW - to produce 5000 lb of virgin steel and aluminum per day. Can consider a zone refining- style vertical furnace where only a zone is activated.
- Plastic Recycling and 3D Printing
- Basic Electronics Shop - 3D printed and socketed designs for recyclable electronics, which can be potted for permanence. Heat dissipation fans and other structures included.
- Materials Production Facility - lumber, CEBs, rubber (thermoplastic elastomers), aluminum, rebar (structures), glass, plastic composites, thermoplastic materials of all types..
Proof of Concept
- Start with Large Workshop Structure with Roofless Roof and PV. Must thus include thermoplastic printing to deliver roofless roof geometry.
- Basic Workshop for brute force fabrication including Frames that are rebar-based.
- Basic Advanced Workshop for CNC torch, CNC machining. Includes Multimachine-style concrete block with spindle and linear travel axis and 2 opposed chucks, either of which can be driven. CNC grinder and drive added to this system, starting even with simple mounted grinders.
- Rapid Learning Facility for housing, as means of cross-subsidization by training Civilization Builders in 4 years
- Includes 50kW induction furnace for and 50kW VAWT windmill. See Aluminum Melting and Steel Melting - for yields of 2kg/kWhr of aluminum [1], and 2kg/Kwhr for iron [2]
- Industrial grade shredder for plastic, aluminum, rock, and steel. 8' long and 26 hp. Doublesided drive.
- Basic electronics capacity - 3D printed in the style of Universal Power Module, aluminum heatsinks, sockets, 3D printed terminal blocks of complex geometry. Can do controller, drone controllers, RTK GPS system, and sensor-actuator complexes.
- Solar concrete - batch pottery/ceramic kiln for producing lime, pottery, ceramics.
- Ball mill or rod mill for pulverizing. Cement, metal powders, micronized rubber, etc.
- Hydrogen production - 50 kW system concept - industrial oxygen production and oxyhydrogen production.
Proof of Concept of Production Capacity
- Building engines from scrap metal and aluminum using solar energy
- Building cars and tractors from scrap steel and aluminum using solar energy
- Building aerial drones and terrestrials drones from scrap metal, plastic; using Modular Electronics with various sensors up to RTK GPS and inertial guidance.
- Producing commercially-viable quantities of concrete
- Producing rebar and reinforced concrete structures, frames, and space frames.
Key to Success
Sufficient recursion must be available to make parts in house starting from waste plastic,