D3D v20.04: Difference between revisions
Jump to navigation
Jump to search
No edit summary |
No edit summary |
||
| Line 1: | Line 1: | ||
{{ | |||
{| class="wikitable" | |||
|+ Development Template | |||
! | |||
! Description | |||
! Link to Work Product | |||
! % | |||
|- | |||
! scope=row | | |||
| '''DESIGN''' || || | |||
|- | |||
! scope=row | 1 | |||
| [[Requirements + Value Proposition]] || [[D3D_v20.04 Requirements + Value Proposition]] || {{{1}}} | |||
|- | |||
! scope=row | 2 | |||
| [[Industry_Standards]] || [[D3D_v20.04 Industry Standards]] || {{{2}}} | |||
|- | |||
! scope=row | 3 | |||
| [[Conceptual Design]] || [[D3D_v20.04 Conceptual Design]] || {{{3}}} | |||
|- | |||
! scope=row | 4 | |||
| [[Module Breakdown]] || [[D3D_v20.04 Module Breakdown]] || {{{4}}} | |||
|- | |||
! scope=row | 5 | |||
| [[3D CAD]] || [[D3D_v20.04 3D CAD]] || {{{5}}} | |||
|- | |||
! scope=row | 6 | |||
| [[Calculations]] || [[D3D_v20.04 Calculations]] || {{{6}}} | |||
|- | |||
! scope=row | 7 | |||
| [[Electronics Design]] || [[D3D_v20.04 Electronics Design]] || {{{7}}} | |||
|- | |||
! scope=row | 8 | |||
| [[Wiring and Plumbing]] || [[D3D_v20.04 Wiring and Plumbing]] || {{{8}}} | |||
|- | |||
! scope=row | 9 | |||
| [[Software]] || [[D3D_v20.04 Software]] || {{{9}}} | |||
|- | |||
! scope=row | | |||
| '''BILL OF MATERIALS || || | |||
|- | |||
! scope=row | 10 | |||
| [[BOM]] || [[D3D_v20.04 BOM]] || {{{10}}} | |||
|- | |||
! scope=row | 11 | |||
| [[vBOM]] || [[D3D_v20.04 vBOM]] || {{{11}}} | |||
|- | |||
! scope=row | 12 | |||
| [[CAM Files]] || [[D3D_v20.04 CAM Files]] || {{{12}}} | |||
|- | |||
! scope=row | 13 | |||
| [[Cut List]] || [[D3D_v20.04 Cut List]] || {{{13}}} | |||
|- | |||
! scope=row | | |||
| '''BUILD''' || || | |||
|- | |||
! scope=row | 14 | |||
| [[Build Instructions]] || [[D3D_v20.04 Build Instructions]] || {{{14}}} | |||
|- | |||
! scope=row | 15 | |||
| [[Fabrication Drawings]] || [[D3D_v20.04 Fabrication Drawings]] || {{{15}}} | |||
|- | |||
! scope=row | 16 | |||
| [[Exploded Part Diagram]] || [[D3D_v20.04 Exploded Part Diagram]] || {{{16}}} | |||
|- | |||
! scope=row | 17 | |||
| [[Production Engineering]] || [[D3D_v20.04 Production Engineering]] || {{{17}}} | |||
|- | |||
! scope=row | | |||
| '''DATA COLLECTION''' || || | |||
|- | |||
! scope=row | 18 | |||
| [[Build Pictures and Video]] || [[D3D_v20.04 Build Pictures and Video]] || {{{18}}} | |||
|- | |||
! scope=row | 19 | |||
| [[Data Collection]] || [[D3D_v20.04 Data Collection]] || {{{19}}} | |||
|- | |||
! scope=row | 20 | |||
| [[Future Work]] || [[D3D_v20.04 Future Work]] || {{{20}}} | |||
|} | |||
=Specifications= | =Specifications= | ||
Revision as of 19:55, 10 April 2020
Specifications
- 12" heat bed
- 1400W heat bed
- Transitioning to OSE Universal Gearless Extruder
- Based on D3D Pro geometry
Working Doc
Part Library
D3D v2004 Assembly - FreeCAD -File:D3d v2004.fcstd
Auto parallel piece. File: File:Autoparallel.fcstd File:Autoparallel.stl
Cut List
Using 3D Printer Workbench 2020:
- X - [2] 22”
- Y - [4] 21”
- Z, bed, spool holder - [9] 17”
Heater Element
(See Nichrome Calculator)
Notes:
- Fiberglass sleeve used - HTG fiberglass, does not fray like standard high temperature sleeving (1000F) and is rated for . See [1]. Note that the resin can burn out at the 650C (1200F) workign temp. Sleeve has VW-1 flame resistance. Made of fiberglass, it does not burn out, but may fuse and lose fiber structure.
- Inner core: 5' long wraparound of 2mm tight braid fiberglass sleeve - 600C - [2]. Started with 5', wrap was more like 4' long.
- This is packed into 4' of 6 mm tight braid fiberglass sleeve.
- Fence wire is used to couple 200C wire to nichrome, in order not to burn out 200C wire. Nichrome is wrapped around the fence wire 5-10 turns
- Copper wire is soldered to the fence wire.
- 10" end piece of 6 mm tight braid sleeve covers the 200C wire, fence wire, and ends of nichrome.
- 2 strands of nichrome heater element are made, each 14' long, each about 600W.
- Ends, covered by 6 mm tight braid sleeve - stick out the finished bed. Third wire set is the thermistor, which is wrapped with 2 mm tight braid so it doesn't melt out.
Heater Optimization
Theoretical idea:
But, ga 18 can't bend easily using a cordless drill.
- 20 feet of 20 ga wire appears to be most convenient - 1 piece, max at 1200F. Current 500W heater is 1200F max, and works well.
- 14 feet of 24 ga works perfectly by hand to get a good wrap over 4 feet, and goes fast, about 1 minute pending tieups:
Heater Element Wrapping Procedure
- Cut 14' of ga 24 nichrome
- Cut 5' of tight 2 mm fiberglass sleeve
- start the wrap of nichrome on one end of sleeve
- Attach other end of sleeve to a free-spinning rotor
- Once enough to go inside a cordless drill chuck - grab the nichrome wrap and turn on the drill in reverse to start wrapping. Tension the sleeve against the rotor
- Wrap away! A person should be able to wrap 4 feet long just by holding a cordless drill