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[[Category:Tools]]
[[Category:Tools]]
AllHandsActive has two Makerbot Industries Cupcake series 3D Printers. The printers are both heavily modified from their original state so aside from the chasis saying Cupcake, refer to documentation shown below.
[[Category:Electronics Tools]]
[[Category:Requires Maintenance]]
{{Incomplete}}


AHA currently has four 3D printers.


'''Creamcheese'''
Ender 3 printers -
This bots history:
*[[Ender 3 - Bert]]
This machine started as a Cupcake with Gen3 electronics and Gen3 Extruder. The extruder never worked right and became a hacked version of the DC extruder and a makergear hot end.
*[[Ender 3 - Ernie]]
The X and Y axis were changed to be quieter and more accurate.
*[[Ender 3 v2 - Oscar]]
The DC extruder died during a 3D printing talk at Penguicon 2012. We discovered that we cannot easily source many of the parts we originally used and decided to build something that we could repair in the future. We decided on a Stepper extruder with 3MM filament feed as we had many pounds of it sitting around. We use Rob G's 5D firmware with a cable hack (similar to just using the 5D shield). The below settings may work for you if your bot took a similar upgrade path.


Things this bot has:
Ender 5 printer
Gen3 Electronics (V2.x Steppers x 3, Motherboard RepRap v1.2, Extruder controller 2.2)
*[[Ender 5 Plus - Big Bird]]
[http://store.makerbot.com/nema-17-cork-gasket-pack.html NEMA 17 Cork Gaskets] - Cuts down on noise
 
Extra Stepper driver for extruder (Makerbot V2.x)
All of the printers except Oscar are set up to print via [https://octoprint.org/ OctoPrint]. The links to access OctoPrint are available on each of the printers webpages. The Ender 3 printers all use the same [https://www.prusa3d.com/prusaslicer/ PrusaSlicer] config - [[:File:PrusaSlicer config bundle.ini]] (Current as of {{#dateformat: 2023-12-13}}). The Ender 5 uses the profile [[:File:Ender 5.ini]]. These profiles are installed on the dedicated 3D printing computer (located to the left of the 3D printers), but you may download these profiles and access OctoPrint from your own computer while in the space.
Ugly cable hack [http://store.makerbot.com/3g-5d-shield-for-cupcake.html does this], looks like [http://www.thingiverse.com/derivative:13984]
 
[http://www.thingiverse.com/thing:11837 RobG's 5D firmware]
As of {{#dateformat: 2024-09-03}}, only [[Ender 3 - Bert|Bert]] and [[Ender 3 - Ernie|Ernie]] are in service.
[http://thingiverse.com/thing:7129 MiseryPusher Extruder]
 
Custom designed [http://www.thingiverse.com/thing:23000 toolhead holder]
==Operation==
[http://thingiverse.com/derivative:9549 Mendel X and Y low rider Axis]
 
[http://store.makerbot.com/relay-board-mount-kit.html Relay mount kit]
==== Prerequisites ====
[http://store.makerbot.com/relay-board-kit-v1-0.html Relay board kit]
You will need:
  [http://store.makerbot.com/makerbot-cupcake-heated-build-platform-v2-0.html MB Heated Build Platform]
 
  Makergear Groovemount insulator
* An STI file of what you'd like to print, or pre-sliced GCODE file using the proper printer profile on a slicer such as [https://www.prusa3d.com/prusaslicer PrusaSlicer]
  Modular thermistor
* Filament, or use one of our own.
  Modular heater core
 
  36MM Brass barrel
=== Check printer is not in use ===
  .35MM nozzle.
Ensure that nothing is currently being printed, and that the bed is clear.
  Kysan 13.6:1 Stepper Motor (the same that Makergear.com sells)
 
 
=== Clean the bed ===
 
If the bed is not clean, you'll want to clear it off. If there is an existing print, carefully remove a print. This is likely another member's print, so please set it carefully aside and take note of where you put it so they can find it when they come to pick it up.
 
=== Remove existing filament from the printer===
 
If you're content with the existing filament, you can skip the next two steps.
 
=== Pick a filament ===
 
We can print PLA and PETG filament types in our shop. We cannot print ABS as we do not have enclosures on our printers.  
 
=== Load the filament ===
 
to be expanded
 
==== Level the bed ====
 
==== Begin the print ====
 
==== Watch the first few layers ====
 
==== Wait. And wait. And Wait. ====
 
==== Remove the print from the print bed ====
 
==== Remove and repackage the filament ====
 
 
 
== Historical Content ==
 
'''NOTE: most of this information is out of date. I dumped class notes in here for the time being -- they are rough guidelines for how to run the machines, but they are missing a lot of details.''' 
 
Notes from the 3D printer class: 
 
History:
*Not a new technology -- early 3d printers existed in the '80s.
 
Types of printing:
*FDM (Fused Deposition Modeling) / FFF (Fused Filament Fabrication) -- "typical" 3d printers
*SLA (stereolithography) / DLP (Digital Light Processing) -- i.e. resin printers
*SLS (Selective Laser Sintering) / SLM (Selective Laser Melting) -- powdered materials melted with a laser.  Can be used for metal parts;  not consumer-level tech yet.
 
Software:
*3D models are saved in STL
*Machines are controlled with GCODE
*Slicers translate STL models into lines of GCODE
*Cura, PrusaSlicer, Slic3r, Simplify3d are a few slicers
* Lots of parameters you can tune or adjust. Most are beyond the scope of this class, or open to experimentation.  However, some parameters will frequently be changed to fit your needs, such as brims/skirts/rafts, layer height, shell thickness, infill %, infill type, support materials, bed and nozzle temperatures, and feed rates.
 
Machine anatomy: go over the major parts
 
Filament types: go over some common materials
 
Machine operation:
*Always clean the UNHEATED print bed of old filament bits and dust using a sturdy paper towel or clean, lint-free cloth with 90% isopropyl alcohol on it. Try to avoid touching the bed after you clean it.
 
*Leveling the bed:
**You will want to do this before every print.
**Make sure bed is heated to printing temperature before leveling
**One printer has a auto-leveling probe (untested), and the other one you will need to use the "paper method".  (Demonstrate the paper method using the octoprint bed leveling helper plugin)
 
* Loading filament:
**Move print head a fair distance from the bed
**Remove from the desiccant zipper bag.  After removing the spool, always re-seal the bag to keep the desiccant packet as dry as possible.
** Check the end of the filament when you pull it out of the bag.  Make sure it's secured in the side of the spool. If it's not, you will need to try your best to ensure it isn't crossing under another loop to prevent a print failure.
** Feed filament in from the top, push on the spring lever to allow it to be inserted easily. Continue to push the filament in until the color changes to the new filament's color, or you get a decent flow from the nozzle.
 
* Printing:
**Load the model you want, slice it, and send it to the printer
**Carefully monitor the first layer or two to make sure it has good adhesion
**First layer nozzle height should be close enough to slightly squish the extruded filament into an "oval" profile. It should not be too far away so as to drop it onto the bed, or so close that it flattens the filament entirely.
**When the print is finished, wait until the bed has cooled completely before trying to remove it -- it should come off more easily when cool. Try to avoid scraping it off, which can gouge the bed.
 
*Unloading filament:
**Always unload and store filament in its desiccant zipper bag when you're done printing for the day. If left out, it will begin to absorb moisture from the air, which will cause it to become unusable over time.
**Make sure the print head is heated to the working temperature.
**Push the spring lever in and pull the filament out.  If you encounter any resistance, make sure the nozzle is at the right temperature.
** When unloading the filament, be sure to capture and tuck the loose end securely into the edge of the spool. If you let it flop loose, it's very likely that it will end up crossing under an adjacent loop, which will cause filament feed issues during its next use!
 
*Finishing up:
**Always ensure the nozzle heater, bed heater, and print cooling fan is turned off before leaving! The hot-end fan will always remain on.
 
Questions? Reach out to board@allhandsactive.org, #3dprinting or #Operations on Matrix.
   
   
How Do I run Creamcheese?
  Get ReplicatorG 0029 R2 (MUST BE THIS VERSION NOT NEWER!) - [http://code.google.com/p/replicatorg/downloads/list Google Code Listing]
  Get the Creamcheese config files from here: [http://novaslp.net/ Tyler's repository of cool stuff!]
  Put the 5D Creamcheese Cupcake.xml file in your replicatorg machines directory
  Put the SF40-Cupcake-3mm-.35 folder in your sf_40_profiles folder. On linux this is in a hidden home folder directory (ex: /home/worman/.replicatorg/sf_40_profiles
  Start up replicatorg and pick machine type of Creamcheese Cupcake 3G 5D (RPM)
  In Replicatorg: GCode->GCode Generator pick Skeinforge 40 (Experimental)
  Use the following settings when you generate GCode...
  Base Profile: SF40-Cupcake-3mm-.35 (if you put the config in the right place this will show up).
  Raft: Your choice, on or off.
  Support Material: Your choice, on or off
  Use Print-O-Matic: YES!
  POM-Settings-Object Infill: 30% (Less and you get a hollower object, more and it is more solid.)
  POM-Settings-Layer Height (mm): 0.25 (Smaller and bot moves faster stretching the plastic, larger and it will tell you can it can't print thick layers because of nozzle size)
  POM-Settings-Number of shells: 2 (How many solid outer layers you get)
  POM-Settings-Feedrate (mm/s): 35 (Slower and prints take longer, faster and steppers can't keep up or jitter throws off your X and Y, feel free to experiment, tested with 35!)
  POM-Plastic-Material type: ABS
  POM-Plastic-Filament Diameter (mm): 2.94 (This should be an average thickness of the filament you feed in. It does vary by color and over lengths of filament. You might want to play with this when changing colors. Measure every 6 inches to a foot and average..)
  POM-Extruder-Nozzle Diameter(mm) - .35
  POM-Extruder-Drive Gear Diameter(mm) - 10.58
 
PRINT!


[[3D_Printer:Creamcheese:Config How we configured it, calculations included]]
As of 8/24/18:
*[[Ender 3 - Bert]] is available to print
*[[Ender 3 - Ernie]] is available to print
 
 
Older/obsolete information follows, safe to ignore for the most part:
 
==Creating a 3D Model ==
Lots of software exists to create models. As long as the software can export to STL file format, you can print your model. Check out the following software packages that we recommend.
 
* Trimble (previously Google) Sketchup Make - [http://www.sketchup.com/products/sketchup-make]
**Skethcup STL Plugin - [http://extensions.sketchup.com/en/content/sketchup-stl]
*OpenSCAD - [http://openscad.org]
*Blender - [http://blender.org]
*Rhino3D - [https://www.rhino3d.com/6]
*OnShape - [https://www.onshape.com]
*FreeCAD - [https://www.freecadweb.org]
*Fusion360 - [https://www.autodesk.com/products/fusion-360/personal]
3D model database
*Yobi3D - [http://www.yobi3d.com Free 3D model search engine]
*Thingiverse - [http://www.thingiverse.com]
 
==File Types==
==='''''STL'''''===
The slicing software needs your 3D model as an STL file before it can slice it. Slicing produces a file that has GCODE to describe the tool head movements for each layer. It is important that your STL file only includes one solid water-tight object. Missing faces, open vertices, and improper normal calculations will cause the slicer software to produce errors. You can fix some of these issues in an automated fashion by using NetFabb Basic, Blender (recalculate normals), and MeshLab's repair mode.
====How to fix an STL====
You've got holes or inverted normals? You can fix this by hand, try Blender or Meshlab. For a quick fix either try netfabb basic on client or NetFabb cloud [http://cloud.netfabb.com/]. These can fix basic problems and possibly produce a better file. You need 1 shell, non-inverted normals, and no holes to get a good print.
 
The newest versions of Slic3r will automatically try to fix holes and other errors in your stl files. This can work, but make sure that your model hasn't changed dramatically before printing. Take a look at it in the 3d view.


'''Ox's bot'''
You can also try these awesome pieces of software:
Gen4 Electronics
*MeshMixer
Extra Stepper driver for Mk6 Extruder
*MeshLab
Mk6 Extruder
*NetFabb Basic
Acrylic Platform
*blender
.50MM Nozzle
MBI firmware.


==='''''GCODE'''''===
This is a description of the tool path that is generated by a slicer. The file includes commands which instruct the printer on how to move to produce the final object
==='''''S3G/X3G''''' ===
Replicatorg converts a GCODE file into this reduced and compressed file type. This is equivalent to the GCODE but the smaller and easier to parse file type can be read off an SD card with less work. Use the build to SD card function in Replicatorg to produce this file. It can also be created with Makerbot's software


'''Software:''' <br/>
==Jargon== 
Creamcheese - ReplicatorG Version 0029 R2. The bots will not work with anything later than 0029.<br/>
*Layer Height - The size of each layer the printer produces. This is limited at its maximum by the size of the nozzle and at its minimum by the amount of plastic produced and how much stretching occurs.
Ox's bot - Any version of ReplicatorG
*Infill - The pattern and amount of plastic put inside the model to support it.
*Shells - The number of solid outer layers the model has
*Raft - A piece of plastic generated to stick to the print bed. This also includes support material for the object
*Filament - The plastic fed into the printer
*Extruder - The part responsible for filament melting and forming it into a continuous profile.
*Slic3r - Produces a GCODE file from an STL file
* Skeinforge - Produces a GCODE file from an STL file, built into Replicatorg
*Replicatorg - Produces a S3G file from GCODE and controls the printer
* OpenSCAD - 3D Solid Modeling software

Latest revision as of 05:35, 3 September 2024


Caution
Caution
This page is incomplete.

The content of this page is poor. Please expand the article to include additional information. If this page seems complete, consider removing this notice.


AHA currently has four 3D printers.

Ender 3 printers -

Ender 5 printer

All of the printers except Oscar are set up to print via OctoPrint. The links to access OctoPrint are available on each of the printers webpages. The Ender 3 printers all use the same PrusaSlicer config - File:PrusaSlicer config bundle.ini (Current as of 2023-12-13). The Ender 5 uses the profile File:Ender 5.ini. These profiles are installed on the dedicated 3D printing computer (located to the left of the 3D printers), but you may download these profiles and access OctoPrint from your own computer while in the space.

As of 2024-09-03, only Bert and Ernie are in service.

Operation

Prerequisites

You will need:

  • An STI file of what you'd like to print, or pre-sliced GCODE file using the proper printer profile on a slicer such as PrusaSlicer
  • Filament, or use one of our own.

Check printer is not in use

Ensure that nothing is currently being printed, and that the bed is clear.


Clean the bed

If the bed is not clean, you'll want to clear it off. If there is an existing print, carefully remove a print. This is likely another member's print, so please set it carefully aside and take note of where you put it so they can find it when they come to pick it up.

Remove existing filament from the printer

If you're content with the existing filament, you can skip the next two steps.

Pick a filament

We can print PLA and PETG filament types in our shop. We cannot print ABS as we do not have enclosures on our printers.

Load the filament

to be expanded

Level the bed

Begin the print

Watch the first few layers

Wait. And wait. And Wait.

Remove the print from the print bed

Remove and repackage the filament

Historical Content

NOTE: most of this information is out of date. I dumped class notes in here for the time being -- they are rough guidelines for how to run the machines, but they are missing a lot of details.

Notes from the 3D printer class:

History:

  • Not a new technology -- early 3d printers existed in the '80s.

Types of printing:

  • FDM (Fused Deposition Modeling) / FFF (Fused Filament Fabrication) -- "typical" 3d printers
  • SLA (stereolithography) / DLP (Digital Light Processing) -- i.e. resin printers
  • SLS (Selective Laser Sintering) / SLM (Selective Laser Melting) -- powdered materials melted with a laser. Can be used for metal parts; not consumer-level tech yet.

Software:

  • 3D models are saved in STL
  • Machines are controlled with GCODE
  • Slicers translate STL models into lines of GCODE
  • Cura, PrusaSlicer, Slic3r, Simplify3d are a few slicers
  • Lots of parameters you can tune or adjust. Most are beyond the scope of this class, or open to experimentation. However, some parameters will frequently be changed to fit your needs, such as brims/skirts/rafts, layer height, shell thickness, infill %, infill type, support materials, bed and nozzle temperatures, and feed rates.

Machine anatomy: go over the major parts

Filament types: go over some common materials

Machine operation:

  • Always clean the UNHEATED print bed of old filament bits and dust using a sturdy paper towel or clean, lint-free cloth with 90% isopropyl alcohol on it. Try to avoid touching the bed after you clean it.
  • Leveling the bed:
    • You will want to do this before every print.
    • Make sure bed is heated to printing temperature before leveling
    • One printer has a auto-leveling probe (untested), and the other one you will need to use the "paper method". (Demonstrate the paper method using the octoprint bed leveling helper plugin)
  • Loading filament:
    • Move print head a fair distance from the bed
    • Remove from the desiccant zipper bag. After removing the spool, always re-seal the bag to keep the desiccant packet as dry as possible.
    • Check the end of the filament when you pull it out of the bag. Make sure it's secured in the side of the spool. If it's not, you will need to try your best to ensure it isn't crossing under another loop to prevent a print failure.
    • Feed filament in from the top, push on the spring lever to allow it to be inserted easily. Continue to push the filament in until the color changes to the new filament's color, or you get a decent flow from the nozzle.
  • Printing:
    • Load the model you want, slice it, and send it to the printer
    • Carefully monitor the first layer or two to make sure it has good adhesion
    • First layer nozzle height should be close enough to slightly squish the extruded filament into an "oval" profile. It should not be too far away so as to drop it onto the bed, or so close that it flattens the filament entirely.
    • When the print is finished, wait until the bed has cooled completely before trying to remove it -- it should come off more easily when cool. Try to avoid scraping it off, which can gouge the bed.
  • Unloading filament:
    • Always unload and store filament in its desiccant zipper bag when you're done printing for the day. If left out, it will begin to absorb moisture from the air, which will cause it to become unusable over time.
    • Make sure the print head is heated to the working temperature.
    • Push the spring lever in and pull the filament out. If you encounter any resistance, make sure the nozzle is at the right temperature.
    • When unloading the filament, be sure to capture and tuck the loose end securely into the edge of the spool. If you let it flop loose, it's very likely that it will end up crossing under an adjacent loop, which will cause filament feed issues during its next use!
  • Finishing up:
    • Always ensure the nozzle heater, bed heater, and print cooling fan is turned off before leaving! The hot-end fan will always remain on.

Questions? Reach out to board@allhandsactive.org, #3dprinting or #Operations on Matrix.


As of 8/24/18:


Older/obsolete information follows, safe to ignore for the most part:

Creating a 3D Model

Lots of software exists to create models. As long as the software can export to STL file format, you can print your model. Check out the following software packages that we recommend.

  • Trimble (previously Google) Sketchup Make - [1]
    • Skethcup STL Plugin - [2]
  • OpenSCAD - [3]
  • Blender - [4]
  • Rhino3D - [5]
  • OnShape - [6]
  • FreeCAD - [7]
  • Fusion360 - [8]

3D model database

File Types

STL

The slicing software needs your 3D model as an STL file before it can slice it. Slicing produces a file that has GCODE to describe the tool head movements for each layer. It is important that your STL file only includes one solid water-tight object. Missing faces, open vertices, and improper normal calculations will cause the slicer software to produce errors. You can fix some of these issues in an automated fashion by using NetFabb Basic, Blender (recalculate normals), and MeshLab's repair mode.

How to fix an STL

You've got holes or inverted normals? You can fix this by hand, try Blender or Meshlab. For a quick fix either try netfabb basic on client or NetFabb cloud [10]. These can fix basic problems and possibly produce a better file. You need 1 shell, non-inverted normals, and no holes to get a good print.

The newest versions of Slic3r will automatically try to fix holes and other errors in your stl files. This can work, but make sure that your model hasn't changed dramatically before printing. Take a look at it in the 3d view.

You can also try these awesome pieces of software:

  • MeshMixer
  • MeshLab
  • NetFabb Basic
  • blender

GCODE

This is a description of the tool path that is generated by a slicer. The file includes commands which instruct the printer on how to move to produce the final object

S3G/X3G

Replicatorg converts a GCODE file into this reduced and compressed file type. This is equivalent to the GCODE but the smaller and easier to parse file type can be read off an SD card with less work. Use the build to SD card function in Replicatorg to produce this file. It can also be created with Makerbot's software

Jargon

  • Layer Height - The size of each layer the printer produces. This is limited at its maximum by the size of the nozzle and at its minimum by the amount of plastic produced and how much stretching occurs.
  • Infill - The pattern and amount of plastic put inside the model to support it.
  • Shells - The number of solid outer layers the model has
  • Raft - A piece of plastic generated to stick to the print bed. This also includes support material for the object
  • Filament - The plastic fed into the printer
  • Extruder - The part responsible for filament melting and forming it into a continuous profile.
  • Slic3r - Produces a GCODE file from an STL file
  • Skeinforge - Produces a GCODE file from an STL file, built into Replicatorg
  • Replicatorg - Produces a S3G file from GCODE and controls the printer
  • OpenSCAD - 3D Solid Modeling software