Precious Plastic Extruder: Difference between revisions

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{{Hint|This work builds upond the precious work of Precious Plastic. We are indebted here to Dave Hakkens. See https://preciousplastic.com/en/videos/download.html}}
=Working Doc=
=Working Doc=
{{Hint|This work builds upond the precious work of Precious Plastic. We are indebted here to Dave Hakkens. See https://preciousplastic.com/en/videos/download.html}}


<html><iframe src="https://docs.google.com/presentation/d/e/2PACX-1vQVpCr4l4znaERO4xb2QzWN5tlorVIE_BNHabLZTI5TTevLED-35nT1-vjyMT6KdxP1ujDfe40KJ7jh/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="299" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html>
<html><iframe src="https://docs.google.com/presentation/d/e/2PACX-1vQVpCr4l4znaERO4xb2QzWN5tlorVIE_BNHabLZTI5TTevLED-35nT1-vjyMT6KdxP1ujDfe40KJ7jh/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="299" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html>
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*Remove flow control screw and rely on temperature and auger speed instead. PP version doesn't have speed control on motor, so motor control produces additional control required here
*Remove flow control screw and rely on temperature and auger speed instead. PP version doesn't have speed control on motor, so motor control produces additional control required here
*
*
=Calculations=
=Heuristic Calculations=
*We want low speed equivalent to a strong corded drill such as [https://manuals.harborfreight.com/manuals/60000-60999/60495.pdf]. [[File:cordeddrilltorque.jpg]].
*We want low speed equivalent to a strong corded drill such as [https://manuals.harborfreight.com/manuals/60000-60999/60495.pdf].
[[File:cordeddrilltorque.png]].
*[[Torque Calculator]] shows this drill has only about 30 in-lb torque
*This is more like it - [https://manuals.harborfreight.com/manuals/63000-63999/63112.pdf] - 0-600 RPM, same power - means - 140 in-lb.
*PP shredder is 1770 in lb - 10x stronger - [[Precious_Plastic_Shredder#Torque_and_RPM]]
*We have experience with Lyman filament maker, 50W, 140 in lb:
[[File:lymanmotor.png|600px]]
*About 140 in lb for motor above. This should be plenty for an extruder application.
*If we take a 1A, 12V motor - Nema 17 - that is 1/4 the power of the above.
*But power for steppers apparently doesn't work like this - as that indicates 600x geardown if we consider power alone. 140 in lb is 140*16 in-oz = 2240 oz in. Then we need 30 geardown for a Nema 17 motor at low speed. That is well doable for a 3D printed geardown.
:*Note that Nema motors retain good torque at 300 RPM, so we obtain 10 RPM within the good torque regime.
*Let's move on to [[Planetary Geardown]].


=CAD - OSE Version=
=CAD - OSE Version=
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==Filament Extruder==
==Filament Extruder==
[[File:filamenter_motor.png|100px]][[File:filamenter_auger.png|100px]][[File:filamenter_controller.png|100px]][[File:filamenter_bearing.png|100px]][[File:filamenter_flowcontrol.png|100px]]
[[File:filamenter_motor.png|100px]][[File:filamenter_auger.png|100px]][[File:filamenter_controller.png|100px]][[File:filamenter_bearing.png|100px]][[File:filamenter_flowcontrol.png|100px]][[File:filamenter_overall.png|100px]][[File:filamenter_flowadjust.png|100px]][[File:filamenter_final.png|100px]][[File:filamenter_wallmount.png|100px]]


<gallery perrow=6>
<gallery perrow=6>


File:filamenter_overall.png|'''Overall Build''' -  FreeCAD -[[File:filamenter_overall.fcstd]]
File:filamenter_wallmount.png|'''Overall Build''' -  FreeCAD -[[File:filamenter_overall.fcstd]]
File:filamenter_motor.png|'''Overall Build'''  - FreeCAD -[[File:filamenter_motor.fcstd]]
File:filamenter_motor.png|'''Overall Build'''  - FreeCAD -[[File:filamenter_motor.fcstd]]
File:filamenter_auger.png|'''Auger'''  - FreeCAD -[[File:filamenter_auger.fcstd]]
File:filamenter_auger.png|'''Auger'''  - FreeCAD -[[File:filamenter_auger.fcstd]]
File:filamenter_bearing.png|'''Auger'''  - FreeCAD -[[File:filamenter_bearing.fcstd]]
File:filamenter_bearing.png|'''Auger'''  - FreeCAD -[[File:filamenter_bearing.fcstd]]
File:filamenter_flowcontrol.png|'''Auger'''  - FreeCAD -[[File:filamenter_flowcontrol.fcstd]]
File:filamenter_flowcontrol.png|'''Auger'''  - FreeCAD -[[File:filamenter_flowcontrol.fcstd]]
 
File:filamenter_flowadjust.png|'''Auger'''  - FreeCAD -[[File:filamenter_flowadjust.fcstd]]


</gallery>
</gallery>
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*OD of pipe union
*OD of pipe union
*1.25" and 1.75" nozzle heaters are available easily - [https://www.ebay.com/itm/NOZZLE-HEATER-1-5-X-1-5/172592368127?hash=item282f4e89ff%3Ag%3AonQAAOSwc-tY1Y6r&_sacat=0&_nkw=1.5%22+nozzle+heater&_from=R40&rt=nc&_trksid=p2047675.m570.l1313.TR3.TRC0.A0.H0.X1.5%22+nozzle+heater.TRS0]
*1.25" and 1.75" nozzle heaters are available easily - [https://www.ebay.com/itm/NOZZLE-HEATER-1-5-X-1-5/172592368127?hash=item282f4e89ff%3Ag%3AonQAAOSwc-tY1Y6r&_sacat=0&_nkw=1.5%22+nozzle+heater&_from=R40&rt=nc&_trksid=p2047675.m570.l1313.TR3.TRC0.A0.H0.X1.5%22+nozzle+heater.TRS0]
=Links=
*[[Low-Speed Drill]]
[[Category: Precious Plastic]]

Latest revision as of 21:47, 8 April 2021


HintLightbulb.png Hint: This work builds upond the precious work of Precious Plastic. We are indebted here to Dave Hakkens. See https://preciousplastic.com/en/videos/download.html

Working Doc

edit

BOM

  • Wood bit - 1" - [1]. 7/16" shank, as in 1/2" version. Local - [2]
  • Pipe flange - Menards $5 - [3]
  • Pipe flange - pack of 10 - Amazon - $4 ea - [4]
  • 1" pipe -

OSE Version Design Rationale

  • Slow auger version powered by a Nema 17 with large auger.
  • Vertical hang to reduce auger power requirement
  • Remove flow control screw and rely on temperature and auger speed instead. PP version doesn't have speed control on motor, so motor control produces additional control required here

Heuristic Calculations

  • We want low speed equivalent to a strong corded drill such as [5].

Cordeddrilltorque.png.

Lymanmotor.png

  • About 140 in lb for motor above. This should be plenty for an extruder application.
  • If we take a 1A, 12V motor - Nema 17 - that is 1/4 the power of the above.
  • But power for steppers apparently doesn't work like this - as that indicates 600x geardown if we consider power alone. 140 in lb is 140*16 in-oz = 2240 oz in. Then we need 30 geardown for a Nema 17 motor at low speed. That is well doable for a 3D printed geardown.
  • Note that Nema motors retain good torque at 300 RPM, so we obtain 10 RPM within the good torque regime.

CAD - OSE Version


Filament Extruder

Filamenter motor.pngFilamenter auger.pngFilamenter controller.pngFilamenter bearing.pngFilamenter flowcontrol.pngFilamenter overall.pngFilamenter flowadjust.pngFilamenter final.pngFilamenter wallmount.png

Extruder Controller

File:Filementer controller.png

BOM Candidates

  • Insulator brick - [7]
  • Carbon fiber welding blanket insulation - [8]
  • Small high torque hydraulic motor - [9] $50
  • Type K Thermocouple - [10] - $7
  • SSR - [11] - $7
  • 1" flange - $4 on amazon - [12] or $5 menards - [13]
  • PID Controller - $23 - [14]
  • PID with SSR + thermocouple - $14 - [15] - got 3.
  • [3] band heaters - 35x45 mm - $4 + SH - [16]
  • [1] band heater - 1.75" for next coupler
  • 1-3/4" coupler - [17]
  • 1.75" heater - [18]

Notes

  • 1.75" is 45 mm
  • 35 mm is 1.38 in
  • 40 mm is 1.57 inches
  • OD of pipe union
  • 1.25" and 1.75" nozzle heaters are available easily - [19]

Links