3D printers: Difference between revisions

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[[File:Filaments.png|thumb]]
{{Projects infobox
|image          = Eiffel_Concept.jpg
|designers      = [[User:Tim|Timothy Schmidt]]
|date            = 2013
|vitamins        =
|materials      =
|transformations =
|lifecycles      =
|tools          = [[Wrenches]]
|parts          = [[Frames]], [[Nuts]], [[Bolts]], [[Plates]], [[End caps]]
|techniques      = [[Shelf joints]], [[Tri joints]]
|files          =
|git            =
|suppliers      =
}}
 
[[Category:Projects]]
[[Category:Manufacturing]]
 
=Introduction=
3D printing, or additive manufacturing, is the construction of a three-dimensional object from a CAD model or a digital 3D model. The term "3D printing" can refer to a variety of processes in which material is deposited, joined or solidified under computer control to create a three-dimensional object, with material being added together (such as plastics, liquids or powder grains being fused together), typically layer by layer.
 
=Challenges=
=Challenges=
Subtractive manufacturing can produce many goods - particularly with multi-step production processes and multiple parts.  But some objects can't be made that way.  Others are simpler and faster to manufacture in a single operation additively.
Subtractive manufacturing can produce many goods - particularly with multi-step production processes and multiple parts.  But some objects can't be made that way.  Others are simpler and faster to manufacture in a single operation additively.
Line 7: Line 28:


=Approaches=
=Approaches=
Use [https://wiki.replimat.org/wiki/Bearings#Linear_Bearings linear bearings], [[motors]], and a [[controller]] to build a 3D printer.  A hotend designed to consume plastic pellets instead of filament allows for direct recycling of shredded plastic goods.
==FDM==
[http://www.dpetsel.com/ Petsfang] [[Hot end mounts]]


[https://www.appropedia.org/Polymer_recycling_codes_for_distributed_manufacturing_with_3-D_printers Polymer recycling codes for distributed manufacturing with 3-D printers]
===Eiffel===
<gallery>
Eiffel_Concept.jpg|center|This is a preliminary concept sketch. (The beams should have through-holes repeating along the side.)
Eiffel_01.jpg|400px|This is 400 pixels wide, and on the left.
Eiffel_02.jpg|400px|This is 400 pixels wide, and on the left.
Eiffel_04.jpg|400px|This is 400 pixels wide, and on the left.
Eiffel_05.jpg|400px|This is 400 pixels wide, and on the left.
Eiffel_06.jpg|400px|This is 400 pixels wide, and on the left.
Filaments.png|
</gallery>
Eiffel is a proposal for a post-[[Mendel]] [[RepRap]], which will function as a 3D printer, and as a [[CNC_Router]].


[https://en.wikipedia.org/wiki/Resin_identification_code Resin Identification Codes]
The first version will have a footprint of ~1 ft x 2 ft (30 cm x 60 cm), and a workspace of
8.5 inch x 11 inch x 4 inch, or 20 cm x 30 cm x 10 cm.


=Tools=
Eiffel is made from a number of square beams bolted
toghether in [[TriLap]] joints.  These square beams are either steel tube,
aluminum tube, or solid wood, depending on availability and user
preference.  The beams are drilled for bolting together in tri-joints.
If convenient, these beams are drilled with regularly spaced
through-holes along each long side.  (See [[RBS]]).


=Parts=
We aim to supersede [[Mendel]] by being able to engrave and drill [[Automated Circuitry Making | pcbs]],
{| class="wikitable"
and also machine wood and non-ferrous metals.  Eiffel will also be
|-
useful for [[hybrid]] fabrication. This is essential for making [[RBS/Gears|Gears]].
! Quantity !! Part !! Link
|-
| 1 || [https://mahor.xyz/ Mahor pellet hot end] || [https://mahor.xyz mahor.xyz]
|}


==Structure==
===Structure===
===Beam===
====Beam====
1x1 inch, cost ~$22 per 6ft piece.
1x1 inch, cost ~$22 per 6ft piece.


Line 34: Line 68:


If possible, these are perforated and otherwise shaped using the mom-Eiffel, or a handy drill press.
If possible, these are perforated and otherwise shaped using the mom-Eiffel, or a handy drill press.
==Lots of PegBoard==
See [[LeCorb]].
==Rails==
Highly variable.
Drawer slides are easy to prototype with.
Real steel rod for when we're serious.
==Motion Control==
[[:category: DriveTrains#rotary to linear motion conversion | rotary to linear motion conversion]]:
Undecided:
Toothed [[Belt]], Threaded Rod, or Rack and Pinion


==Cross-Connectors, Fasteners==
===Cross-Connectors, Fasteners===
3D printed by the 'Mom' Eiffel or RepRap, or made by cnc router,
3D printed by the 'Mom' Eiffel or RepRap, or made by cnc router,
or laser cutter.
or laser cutter.
Line 57: Line 77:
*[[Filled_Epoxy]] (Using a CNC router and a 3D printer to make the molds
*[[Filled_Epoxy]] (Using a CNC router and a 3D printer to make the molds
for the fittings, and then using the molds to cast fittings from filled epoxy.)
for the fittings, and then using the molds to cast fittings from filled epoxy.)
===Fitness test===
* combined length of machine movements


==Spindel==
==Spindel==
Line 64: Line 86:
e.g.
e.g.
http://www.engravingmachine.com/html/router_spindles_-_kress.html
http://www.engravingmachine.com/html/router_spindles_-_kress.html
==Replimat printer==
Use [https://wiki.replimat.org/wiki/Bearings#Linear_Bearings linear bearings], [[motors]], and a [[controller]] to build a 3D printer.  A hotend designed to consume plastic pellets instead of filament allows for direct recycling of shredded plastic goods.
[https://www.appropedia.org/Polymer_recycling_codes_for_distributed_manufacturing_with_3-D_printers Polymer recycling codes for distributed manufacturing with 3-D printers]
[https://en.wikipedia.org/wiki/Resin_identification_code Resin Identification Codes]
* [https://mahor.xyz/ Mahor pellet hot end]


=Workflows=
=Workflows=
* [https://www.thingiverse.com/thing:2656594 All in one 3D printer test print]
* [https://www.thingiverse.com/thing:2656594 All in one 3D printer test print]
* [http://retractioncalibration.com/ RetractionCalibration.com]
* [https://www.thingiverse.com/thing:2729076 Smart compact temperature calibration tower]
* [https://www.thingiverse.com/thing:2729076 Smart compact temperature calibration tower]
* [https://plugins.octoprint.org/plugins/arc_welder/ Arc welder Octoprint plugin]
* [https://github.com/sn4k3/UVtools UVTools]
<youtube>8_adY2K-YIc</youtube>
<youtube>8_adY2K-YIc</youtube>
<youtube>WjxMA4CkUZc</youtube>
<youtube>WjxMA4CkUZc</youtube>
=Development targets=
=Repositories of printable parts=
* [https://www.thingiverse.com Thingiverse]
* [https://www.youmagine.com Youmagine]
* [https://www.grabcad.com Grabcad]
* [https://library.zortrax.com Zortrax]
* [https://www.3dagogo.com 3Dagogo]
=References=
* [https://reprap.org/wiki/BrickRap BrickRap] 3D printer
* [https://reprap.org/wiki/Eiffel Eiffel] 3D printer
<youtube>YcuMTrCLoJ8</youtube>
<youtube>XVoldtNpIzI</youtube>
<youtube>rp3r921DBGI</youtube>
<youtube>nRLJ4ylGTFc</youtube>
{{Development
|image = Eiffel_Concept.jpg
|description = a powder printer with a stationary bed and mobile gantry
|status = Concept
|author = Sebastien Bailard,  timschmidt
|categories = {{tag|CNC Mill}}, {{tag|CNCmachine}}, {{tag|powder}}
|reprap = Post-Mendel
}}
=Introduction=
[[File:Eiffel_01.jpg|right|400px|This is 400 pixels wide, and on the left.]]<br>
[[File:Eiffel_02.jpg|right|400px|This is 400 pixels wide, and on the left.]]<br>
[[File:Eiffel_04.jpg|right|400px|This is 400 pixels wide, and on the left.]]<br>
[[File:Eiffel_05.jpg|right|400px|This is 400 pixels wide, and on the left.]]<br>
[[File:Eiffel_06.jpg|right|400px|This is 400 pixels wide, and on the left.]]
Eiffel is a proposal for a post-[[Mendel]] [[RepRap]], which will function as a 3D printer, and as a [[CNC_Router]].
[[File:Eiffel_Concept.jpg|frame|center|This is a preliminary concept sketch. (The beams should have through-holes repeating along the side.)]]
The first version will have a footprint of ~1 ft x 2 ft (30 cm x 60 cm), and a workspace of
8.5 inch x 11 inch x 4 inch, or 20 cm x 30 cm x 10 cm.
Eiffel is made from a number of square beams bolted
toghether in [[TriLap]] joints.  These square beams are either steel tube,
aluminum tube, or solid wood, depending on availability and user
preference.  The beams are drilled for bolting together in tri-joints.
If convenient, these beams are drilled with regularly spaced
through-holes along each long side.  (See [[RBS]]).
We aim to supersede [[Mendel]] by being able to engrave and drill [[Automated Circuitry Making | pcbs]],
and also machine wood and non-ferrous metals.  Eiffel will also be
useful for [[hybrid]] fabrication.  This is essential for making [[RBS/Gears|Gears]].


=Files/Modeling=
=Files/Modeling=
Line 178: Line 158:
or other cnc router, 3D printer make fittings from [[Filled_Epoxy]].
or other cnc router, 3D printer make fittings from [[Filled_Epoxy]].


== Self-replication ==
==Self-replication==
'''Does it drill holes in the beams of it's daughter machines?'''  You
'''Does it drill holes in the beams of it's daughter machines?'''  You
can.
can.
Line 194: Line 174:


== normal CNC routing ==
== normal CNC routing ==
'''How do we generate G-Code from for cutting the outsides of
'''How do we generate G-Code from for cutting the outsides of
stuff.  You know, 80% of normal CNC routing?'''
stuff.  You know, 80% of normal CNC routing?'''
Line 202: Line 181:
to convert from SVG or DXF to G-code?
to convert from SVG or DXF to G-code?


[[Category:MillStrap]]
=References=
[[category:steel]]
* [https://reprap.org/wiki/BrickRap BrickRap] 3D printer
[[category:Multi-Material]]
* [https://reprap.org/wiki/Eiffel Eiffel] 3D printer
[[category:Non-Metric]]
* [https://railcore.org/ Railcore RepRap 3D printer]
[[category:powder]]
* [https://www.3dchameleon.com/ 3D Chameleon multi-filament loader]
[[category:RBS]]
* [https://www.myminifactory.com/users/Scan%20The%20World Scan the world]
[[category:working developments]]
* [https://sci-hub.do/10.1016/j.addma.2020.101569 Process planning for five-axis support free additive manufacturing]
[[category:CNC Mill]]
* [http://www.5axismaker.com/ 5 Axis Maker]
[[category:CNC Router]]
* [https://www.appropedia.org/Open-source_metal_3-D_printer Appropedia: Open source metal 3D printer]
 
* [https://www.villageplastics.com/ Village Plastics]
 
* [https://github.com/aligator/GoSlice Github: GoSlice - 3D model slicer]
[[Category: Projects]]
<youtube>w3i8i-9bjqI</youtube>
[[Category: Manufacturing]]
<youtube>YcuMTrCLoJ8</youtube>
<youtube>XVoldtNpIzI</youtube>
<youtube>rp3r921DBGI</youtube>
<youtube>nRLJ4ylGTFc</youtube>
<youtube>vSwumoSlZTo</youtube>
<youtube>ESSYNRm5MjI</youtube>

Latest revision as of 06:05, 23 September 2021

Project: 3D printers
Designers: Timothy Schmidt
Tools: Wrenches
Parts: Frames, Nuts, Bolts, Plates, End caps
Techniques: Shelf joints, Tri joints

Introduction

3D printing, or additive manufacturing, is the construction of a three-dimensional object from a CAD model or a digital 3D model. The term "3D printing" can refer to a variety of processes in which material is deposited, joined or solidified under computer control to create a three-dimensional object, with material being added together (such as plastics, liquids or powder grains being fused together), typically layer by layer.

Challenges

Subtractive manufacturing can produce many goods - particularly with multi-step production processes and multiple parts. But some objects can't be made that way. Others are simpler and faster to manufacture in a single operation additively.

Chatter

We need to turn this into a machine with a stationary bed and mobile gantry if we're to extend it into use as a powder printer. This is conceptually straightforward, if we can do a dropping bed and borrow candyfab's or someone else's powder mechanisms.

Approaches

FDM

Petsfang Hot end mounts

Eiffel

  • This is a preliminary concept sketch. (The beams should have through-holes repeating along the side.)

    This is a preliminary concept sketch. (The beams should have through-holes repeating along the side.)

  • This is 400 pixels wide, and on the left.

    This is 400 pixels wide, and on the left.

  • This is 400 pixels wide, and on the left.

    This is 400 pixels wide, and on the left.

  • This is 400 pixels wide, and on the left.

    This is 400 pixels wide, and on the left.

  • This is 400 pixels wide, and on the left.

    This is 400 pixels wide, and on the left.

  • This is 400 pixels wide, and on the left.

    This is 400 pixels wide, and on the left.

Eiffel is a proposal for a post-Mendel RepRap, which will function as a 3D printer, and as a CNC_Router.

The first version will have a footprint of ~1 ft x 2 ft (30 cm x 60 cm), and a workspace of 8.5 inch x 11 inch x 4 inch, or 20 cm x 30 cm x 10 cm.

Eiffel is made from a number of square beams bolted toghether in TriLap joints. These square beams are either steel tube, aluminum tube, or solid wood, depending on availability and user preference. The beams are drilled for bolting together in tri-joints. If convenient, these beams are drilled with regularly spaced through-holes along each long side. (See RBS).

We aim to supersede Mendel by being able to engrave and drill pcbs, and also machine wood and non-ferrous metals. Eiffel will also be useful for hybrid fabrication. This is essential for making Gears.

Structure

Beam

1x1 inch, cost ~$22 per 6ft piece.

The preliminary concept sketch seems to show (very roughly) about 32 feet of beam, requiring 6 of these 6 ft pieces.

The photos seem to show (very roughly) about 16 feet of beam, requiring 3 of those 6 ft pieces -- is that really all that is required, or were those photos taken halfway through construction?

square steel tubing or square wood beams.

If possible, these are perforated and otherwise shaped using the mom-Eiffel, or a handy drill press.

Cross-Connectors, Fasteners

3D printed by the 'Mom' Eiffel or RepRap, or made by cnc router, or laser cutter. Huh? Once you put the 3 bolts through the tri-lap joint, and tighten the nut against the washers, what other connector or fastener do you need?

Material

for the fittings, and then using the molds to cast fittings from filled epoxy.)

Fitness test

  • combined length of machine movements

Spindel

  • Taig Spindle

or http://www.engravingmachine.com/html/router_spindles.html e.g. http://www.engravingmachine.com/html/router_spindles_-_kress.html


Replimat printer

Use linear bearings, motors, and a controller to build a 3D printer. A hotend designed to consume plastic pellets instead of filament allows for direct recycling of shredded plastic goods.

Polymer recycling codes for distributed manufacturing with 3-D printers

Resin Identification Codes

Workflows

Files/Modeling

Eiffel is still in preliminary development. We currently have the 'napkin-sketch' above, a Blender file or two (available tomorrow), and a number of graph paper sketches.

Please use your favorite modeling program or CAD program and join in!

Applications

  • Drilling steel or aluminum beams for daughter-Eiffels. (We may have to set up in a CNC_Mill configuration to drill steel.
  • PCB routing
  • Hobby-scale Robot parts (CNC-routed and 3D printed)

User wants and needs: Journeyman (just graduated) architecture student, who will need CNC router/3D printer for modelmaking and crafting.

Also: FabLabs, RepRap users, hobbyists (RC plane folk cut a lot of balsa on medium scale CNC routers) and educators.

Design Philosophy

The RepRap project has successfully made a 3D printer using the GPL for a license. Eiffel will do the same, and will leverage and contribute to RepRap technology and community. We will use the GPL and the RepRap website to be able to freely interoperate with standard RepRap hardware and software.

There is no mature and well-publicized GPL CNC router. Eiffel will fill that space, along with being a CNC-router.

Working Notes

Everything below here is poorly organized. Sorry.

Capabilities

  • Work volume of 24" x 48" x 8".
  • Wood cutting - ~100% duty cycle.
  • Metal cutting - light aluminum and other non-ferrous cutting.
  • Steel - drilling.
  • 3D printing:

1) Thermoplastic: like a normal RepRap

2) Powder Printer: Preliminary discussion. http://dev.forums.reprap.org/read.php?1,31168,31181

Fabrication/Tooling

To make an eiffel from square tubing or beam, drilled for bolting together in tri-joints. It will _not_ require a normal machine shop.

Saw

Drill Press

???

Maybe benchtop CNC mill for fittings, but would greatly prefer having mother Eiffel or other cnc router, 3D printer make fittings from Filled_Epoxy.

Self-replication

Does it drill holes in the beams of it's daughter machines? You can.

But for the first one, it's much much faster to source pre-drilled square steel beams. McMaster-Carr down in the US has it, and local construction suppliers _everywhere_ should be able source it given 2 months forewarning. http://www.mcmaster.com/#steel-structural-tubing/=49tu63

Once you've got a machine, it's really easy to make lots of wood grid beam. And maybe you can drill holes in steel with it. It would be convenient, and a useful target benchmark. It would be hard to make this as good as a Taig Mill, but fun to try.

normal CNC routing

How do we generate G-Code from for cutting the outsides of stuff. You know, 80% of normal CNC routing?

Perhaps use one of the "2D" packages listed at Useful Software Packages, and if it doesn't directly produce G-code, use something like Builders/Replath to convert from SVG or DXF to G-code?

References

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