D3D Requirements: Difference between revisions

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See also [[Talk:D3D_Requirements]]
See also [[Talk:D3D_Requirements]]


*[[File:check.png]]1 day build time. Possible scenario:
= Requirements =
:*including 4 hours of instruction and 6 hours of build
#Buildable during 1 day workshop, even for inexperienced builders.
*Social production requirement -/Fits Extreme Manufacturing model of extreme satisfaction of personal production. Build focuses on build experience, with supporting learning via excellent explainer videos. Tight scripts achieved via Script Team and Video Team.
#OSE label documented.
*Economic requirement - goal of attaining [[DMD]] via its derivatives.
#Automatic bed leveling mechanism
*[[OSE Label]] is documented
#OSHWA certification compliant
*Auto bed level
#$500 in parts for single print head version
*OSHWA compliant, possibly Respects Your Freedom certified
#Wirelessly controllable
*$500 in parts for single head
#Capable of storing and independently running wirelessly uploaded gcode
*Wireless to allow for freeing up computer
#Ninjaflex print capable
:*Better done by SD card, with wireless upload of Gcode
#Single print head version easily extendable to accommodate quadruple parallel printing
*Rubber ([[Ninjaflex]]) print capable, without head exchange (critical for OSE gaskets, rubber washers and o-rings in low and high pressure hydraulics and pneumatics)
#Capable of hours of maintenance free printing between any required fix
*Multiple print head addable, up to 4 for practical considerations
#Build techniques must be easily scalable up to meter scale 3D printers
:*For parellel printing, not [[Multiple Color 3D Printing]]
#Addable clear enclosure
*Meets or exceeds reliability of Lulzbot (hours of maintenance free printing between any required fix)
#Modular tool head attachment
*Scalable and Modular
#Functions as an effective Repstrap
:*Scalability - same build techniques can be scaled to meter scale 3D printers
#XY-fixed build platform
:*Modularity - standard interfaces are available for extending functionality
#Heated build platform that can be retrofitted readily without compromising bed leveling mechanism.
*Addable clear enclosure
#Capable of bumping (strong and tall) prints off of build platform without human assistance
:*Modular Tool Head attachment
#Works with open source filament from open source filament extruder
*Functions as an effective RepStrap for building future machines.
#Functional Logic and design rationale is fully documented
*'''XY-fixed build platform.'''  Not negotiable for reasons of robust design
#Capable of printing currently mass produced conductive filaments
*Unheated build platform for low cost, with heated platform as an added module that can be retrofitted readily without compromising bed leveling mechanism.
*Self-harvesting for mass production part capacity - by having the head bump the parts produced a off the build platform
*Future: works with irregular-dimension filament?
*Product Ecology - works with open source filament from open source filament extruder
*Functional Logic and design rationale is fully documented
*conductive metal print capable for Cordless Tool Construction Set. This should be implementable today with conductive filament for basic connections.


=Future Requirements=
= Goals =
*Eventual versions build in manufacturing capacity - [[Technological Recursion]]
#Fits Extreme Manufacturing model. This means optimizing for a parallel build process. See OSE wiki and Wikipedia for more.
*[[Multiple Color 3D Printing]]
#Distribution of the machine through distributive enterprise propagation.
*Resuming printing from an abort situation (filament feed sensor)
#Design being built upon, resulting in design remixes/derivatives.
*Pausing in a print
#Distribution of derivatives through distributive enterprise propagation.
*Syringe head for conductive inks, etc.
#Distributed market domination via derivatives.
 
= Planned Future Work =
#Respects Your Freedom certified
#Works with irregular dimension filament
#Coherence with other machines to achieve productive Productive Recursion of a complete workshop tool chain
#Capable of sensing different abort situations
#Detached print
#Failing material feed
#Improper temperature of print
#Failing positioning system (skipped stepper motor steps or similar)
#Capable of automatically pausing abort situations a and b and presenting manual mitigation instructions and resume options
#Capable of automatically mitigating abort situations c and d
#Addable syringe head (for conductive ink printing)

Revision as of 14:56, 31 December 2015

See also Talk:D3D_Requirements

Requirements

  1. Buildable during 1 day workshop, even for inexperienced builders.
  2. OSE label documented.
  3. Automatic bed leveling mechanism
  4. OSHWA certification compliant
  5. $500 in parts for single print head version
  6. Wirelessly controllable
  7. Capable of storing and independently running wirelessly uploaded gcode
  8. Ninjaflex print capable
  9. Single print head version easily extendable to accommodate quadruple parallel printing
  10. Capable of hours of maintenance free printing between any required fix
  11. Build techniques must be easily scalable up to meter scale 3D printers
  12. Addable clear enclosure
  13. Modular tool head attachment
  14. Functions as an effective Repstrap
  15. XY-fixed build platform
  16. Heated build platform that can be retrofitted readily without compromising bed leveling mechanism.
  17. Capable of bumping (strong and tall) prints off of build platform without human assistance
  18. Works with open source filament from open source filament extruder
  19. Functional Logic and design rationale is fully documented
  20. Capable of printing currently mass produced conductive filaments

Goals

  1. Fits Extreme Manufacturing model. This means optimizing for a parallel build process. See OSE wiki and Wikipedia for more.
  2. Distribution of the machine through distributive enterprise propagation.
  3. Design being built upon, resulting in design remixes/derivatives.
  4. Distribution of derivatives through distributive enterprise propagation.
  5. Distributed market domination via derivatives.

Planned Future Work

  1. Respects Your Freedom certified
  2. Works with irregular dimension filament
  3. Coherence with other machines to achieve productive Productive Recursion of a complete workshop tool chain
  4. Capable of sensing different abort situations
  5. Detached print
  6. Failing material feed
  7. Improper temperature of print
  8. Failing positioning system (skipped stepper motor steps or similar)
  9. Capable of automatically pausing abort situations a and b and presenting manual mitigation instructions and resume options
  10. Capable of automatically mitigating abort situations c and d
  11. Addable syringe head (for conductive ink printing)
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