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Automatic Infinite 3D Printer

The Automatic Infinite 3D Printer (i3D) gives anyone the power of a factory.

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3D printing has the potential to democratize manufacturing. Since 3D printers are easy to use and low cost, they allow anyone to make incredibly complex things. I'm confident that anyone reading this has seen something cool made on a low cost hobby grade 3D printer. The technology has opened up new doors to makers and hackers.

However the capabilities of 3D printers are limited by requirement of human operation. The need of manual part removal prevents 3D printers from being used for mass production purposes. Therefore, the purpose of this project is to build a fully autonomous 3D printer. A 3D printer that can print a continuous stream of parts without user interaction. The finished machine is capable of independently ejecting and starting print jobs. Additional, the 3D printer's conveyor belt mechanism allows it make infinitely long prints. The Automatic Infinite 3D Printer (i3D) allows any small business, organization, and person to leverage the power of a factory.

**NOTE: If you are  hoping to get a quick overview of this project, please watch the videos list under Figure 1, Figure 2, and  Figure 3.

[Figure 1: Demo of Automatic Infinite 3D Printer Mk. IV]

[Figure 2: Demo of Automatic Infinite 3D Printer Mk III]

[Figure 3: Purpose of Project with Automatic Infinite 3D Printer Mk III]

The Problem

Even though 3D printing is a newly emerging technology, it has rapidly became mainstream in education, manufacturing and many other industries. 3D printers allow anyone to easily produce complex parts.

However, these machines have one critical flaw. After a 3D printer has finished printing a part, a person must physically go to the printer and remove the part from the print bed. A 3D printer cannot start its next print job, until the previous part is removed. This constraint cripples the productivity of 3D printers. If 3D printers could automatically eject their print jobs, then they could print out a constant stream of parts. The efficiency of the machine would drastically increase.

Many businesses already use 3D printers to manufacture products. Currently, their manufacturing capabilities are constrained by the need to manually remove/start print jobs If this task was automated, it would be easier for more companies to use 3D printing for volume manufacturing.

Personally, I work in a 3D printing lab that prints hundreds of parts for my fellow university students. From my position, it is obvious that this constraint significantly limits the number of print jobs our lab can complete per day.

[Figure 4: Problem Pitch Video]

The Solution

The purpose of this project is to build a fully automated 3D Printer: The Automatic Infinite 3D Printer. The Automatic Infinite 3D Printer has a conveyor belt module that autonomously ejects finished print jobs from the printer. With this novel feature, the 3D Printer is able to print a constant stream of print jobs without human intervention. This is a breakthrough for the 3D printing industry. Automatic part ejection will improve the functionality and capability of 3D printers. Within the next decade, autonomous part ejectors will be as ubiquitous to 3D printers as paper ejectors are to paper printers. 

Furthermore, the custom conveyor belt allows users to print infinitely in the y axis. This allows users to make a much wider variety of parts. The Automatic Infinite 3D Printer monitors print jobs with a computer vision program and a series of webcams. In the unlikely event that a print jobs fails, the machine will autonomously eject the failed print and restart the job. 

I have built four successful prototypes of the Automatic Infinite 3D Printer (Mk. I, Mk. II, Mk. III, Mk. IV). The features of Mk. IV are detailed below. Mk I, Mk II, and Mk III are discussed in the Previous Prototypes section.

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MK_IV_ASS.stp

Mk IV Assembly Step File

stp - 6.32 MB - 10/22/2018 at 12:41

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WORKHORSE_MK3.stp

Mk III Assembly Step File

stp - 3.30 MB - 07/19/2018 at 23:20

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  • 6 × NEMA Stepper Motors
  • 1 × Arduino Mega
  • 1 × 24 V E3D V6 Hotend
  • 1 × 24 V PSU
  • 50 × M5 T Slot Nuts

View all 17 components

  • New Design Iteration

    Swaleh Owais10/22/2018 at 12:31 1 comment

    Here is the fourth iteration of the Automatic Infinite 3D Printer. 

    In future iterations, I hope to explore computer vision applications that automate 3D printing.

  • Testing Automatic Ejection

    Swaleh Owais05/29/2018 at 01:11 0 comments

    [3D Printer Automatically Ejecting Print Job]

  • Test Print with WorkHorse 3D Printer Mk. 3

    Swaleh Owais05/25/2018 at 05:18 0 comments

    I have managed to print quite a few parts with the integrated conveyor belt. Next up, I'll tinker with the infinite build capabilities.

  • Ejecting Parts from WorkHorse 3D Printer Mk. 3

    Swaleh Owais05/23/2018 at 05:51 0 comments

    I have finished making the belt of the WorkHorse 3D Printer and I ran a few quick 3D printing tests.

    I need to make multiple adjustments to the firmware to finalize the machine. For example, the y axis movement is not proportional. The printed object should be circular.

    I would also like to give  a shoutout to the Deltesian project. The Deltesian is an open source 3D printer designed by a crew of extremely knowledgeable and friendly hackers. I've spent a lot of time communicating with the team on advice and queries about 3D printing.

    https://github.com/bornity/deltesian-part-files

  • WorkHorse 3D Printer Mk. 3: Mechanical Construction

    Swaleh Owais05/17/2018 at 01:24 0 comments

    I have finished building most of the WorkHorse 3D Printer.

    I have a solid frame to test this design with. The last major component to build is the belt. 

    The next steps involve me making new firmware for the 3D Printer and then testing:)

  • CAD of WorkHorse 3D Printer Mk 3

    Swaleh Owais04/28/2018 at 17:39 0 comments

    I have finished a rough CAD mock up of my third prototype autonomous 3D printer.

    [Figure 1: WorkHorse 3D Printer Mk. 3 Rough CAD]

    The printer features a hybrid delta-conveyor belt design. The linkage system provides the X and Z Axes movement and the Conveyor Belt provides the Y Axes movement. The design change greatly reduces the complexity of the mechanism.

    I plan to allow the printer to print at an angle to provide infinite build volume functionality.

    A common aspiration of open source 3D printers is to be able to print all the components required for a printer. This allows the machine to be self replicating. With the new prototype 3D printer, hackers will finally be able to print long structural extrusion pieces.

    Image result for long aluminium extrusion[Figure 2: Prototype Should be Able to Print Structural Pieces as Seen Above]

    References

    [2]RoverCNC. (2017). V-Rail Aluminium. Barrier, Ontario. [Electronic]. Available: www.rovercnc.com/ 

  • Revisions for WorkHorse 3D Printer Mk3

    Swaleh Owais04/24/2018 at 20:43 0 comments

    I am currently developing a third iteration of the WorkHorse 3D Printer.

    In this revision, I am placing a special emphasis on building an industry grade machine. NO MORE DUCT TAPE! I am still working on the new design, but I am quite happy with how I simplified many of the components.

    To pay for the high quality machine, I am hoping to be able to use the Hackaday Funding.

    So if I am lucky enough to have a judge read this post, I implore them to consider the below details while selecting the top 20 candidates.

    • Is this a unique solution to a particular challenge facing the world today?
      • 3D Printers have the potential to democratize manufacturing. Currently, mass production technology is only within the reach of large factories and businesses. Most hackers/makers lack the financial means and technological aptitude to use automation machinery. 3D printers are inexpensive and easy to use. Providing 3D printers with the ability to automatically eject/start print jobs would allow anyone to setup a small scale factory. Empowering tinkerers with this ability is sure to generate exciting and innovative hacks.
    • How thoroughly documented were the design process & design decisions?
      • I understand that this project is more likely to succeed with the help of the hacker community. Therefore, I am being completely transparent during project development. I am posting all notes, designs, and software online so that others can critique and improve my work.
    • How easily can this design be implemented by other people in future projects?
      • The project is completely open source. This will make it easy for others to incorporate my automatic print job ejection mechanism into other 3D printers. Furthermore, I am committed to making my automatic print job ejection mechanism into a single modular unit that can be easily attached to any 3D printer.
    • How complete is the project?
      • At this point, I have completed two successful prototypes of the WorkHorse 3D Printer and a robust software application. Both prototypes were able eject a consistent stream of print jobs automatically. My software application provides users with a simple interface to send print jobs to the printer. By my no means is this project complete, but I am satisfied by my progress to date. I strongly believe that my next prototype will exhibit the drastic usefulness of automatic 3D print job ejectors. Being a university engineering student, I do not have the largest budget to spend on this project. I am hoping to use the Hackaday Prize money to pay for expenses. I would know exactly how to spend the prize money, since I already have a refined parts list for building Mk. 3. 

    Also, I would like to thank everyone that liked my Hackaday entry for helping support this project.

    During the robotics module contest, I will attempt to turn my mechanism into an independent module.

    My next post will be on the CAD and design changes for Mk. 3.

  • Mass Production Test with Y-Axis Conveyor Belt

    Swaleh Owais04/15/2018 at 01:44 0 comments

         I printed a queue of parts on my integrated conveyor. The parts all printed and ejected successfully, but there were still some issues.

    [Figure 1: Printing Queue of Jobs with 3D Printer]

        I am currently printing on a roll of duct tape. While the print surface is fine, duct tape cannot withstand the high temperature of the nozzle. If the hot end touches the duct tape, the tape melts and fuses with the extruded plastic. This adhesion makes it more difficult for the part to be ejected later on.

    [Figure 2: Duct Tape Belt Damaged by Hot End]

        I plan on replacing the belt with a stainless steel shim.

  • Using Conveyor Belt as Y-Axis

    Swaleh Owais04/13/2018 at 06:53 0 comments

    I am now focused on simplifyng the design of the printer.

    I have moved from a Delta Design to a Cartesian Design. I am using the motion of the conveyor belt as the y axis. This design change reduces the number of motors needed for the mechanism.

    [Figure 1: Integrating Conveyor Belt Demo]

  • Revisions and Improvements for WorkHorse 3D Printer Mk. 2

    Swaleh Owais04/08/2018 at 02:09 0 comments

    I am now working on the second iteration of the WorkHorse 3D Printer. The new prototype will have several fundamental changes that should greatly improve the effectiveness of the design.

    I will be switching from a Delta design to a Cartesian design. I will replace the y axis linear actuator with a conveyor belt. The conveyor belt will be controlled by stepper motors that will provide y movement. This modification will simplify the design and reduce the number of separate mechanisms.

    Additionally, I will improve the software application and provide a G-code tool path viewer to users. I will also add a widget that allows users to send single lines of G-code through the interface.

View all 26 project logs

  • 1
    Laser Cut and 3D Printer Specified Components

    Lasercut and 3D Print all specified components founds in the Mk. IV cad directory.

    While 3D printing, I recommend using print settings of: 0.2, 10%, and PLA.

  • 2
    Machine Specified Components

    Machine the above three components as seen in the engineering drawings out of 6061 Aluminum.

  • 3
    Assemble Base Frame

    Using M5 bolts, assemble the base frame aluminum extrusion pieces as seen below.

View all 11 instructions

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Discussions

justinrox123 wrote 05/11/2018 at 19:36 point

Amazing project! I love it, the industry really needs this type of automation, I strongly believe it will propel the 3D printing industry forward!

  Are you sure? yes | no

whoismezero wrote 05/11/2018 at 18:14 point

What did you use as the conveyor belt on the Mk 2?

  Are you sure? yes | no

sulaiman wrote 04/26/2018 at 01:00 point

Wow, this project seems very interesting. 

I know someone who uses 3D printers a lot and this type of device seems like it would be very useful to them, since it would help them by loading multiple files at a time and having them print one after another without addition input; just like a regular printer! 

Cant wait to see this in the future.

  Are you sure? yes | no

Swaleh Owais wrote 04/26/2018 at 01:17 point

Thanks!

  Are you sure? yes | no

mmiscool wrote 04/25/2018 at 21:40 point

Is this not patented by stratasys 

https://patents.google.com/patent/US8668859B2/en

  Are you sure? yes | no

Swaleh Owais wrote 04/25/2018 at 23:15 point

My first prototype probably falls within the scope of the MakerBot patent. Although, I would assert a key difference between the two is that my prototype works consistently ;). When I was making the first prototype, my focus was just to determine the optimal drum radius.

However, in my second and third prototypes the conveyor belt is the y-axis which moves it out of the scope of the patent. Also, the third prototype prints at an angle.

Moreover, I am determined to make sure that this project is completely opensource. I want to fully document the automatic ejection module, so that any hacker could incorporate that functionality into her/his printer. Because you can do so many more things with a 3D printer that operates independently :).

BTW, I think your Autodrop3D project is pretty neat!

Also BTW, I'm Canadian and everyone I've built this system for is Canadian too. This ensures that I am in no way violating the rules concerning patents outlined in the Hackaday Prize Ruleset.

  Are you sure? yes | no

mmiscool wrote 04/30/2018 at 04:30 point

Would you be interested in testing your printer with the autodrop3d system. We have a server up and running and it would be fun to hook another printer to it. All that would be required is a raspberry pi. 

  Are you sure? yes | no

Steve Pinkham wrote 07/23/2018 at 01:30 point

Y-belt as axis is explicitly listed in the patent, as well as falling under the general cases listed.

"In yet another example, the conveyer 104 may, by movement of the sheet 118 of material, control movement in one axis (e.g., the y-axis), while the extruder 106 moves in the z-axis as well as one axis in the plane of the sheet 118."

Depending on the specifics, printing at an angle probably removes it from the scope of the patent.

  Are you sure? yes | no

Reagan Susanto wrote 04/22/2018 at 14:42 point

This is great. Do you have any reason why the conveyor belt needed to be in that length? 

  Are you sure? yes | no

Swaleh Owais wrote 04/23/2018 at 03:23 point

Thanks a lot!

There's no particular need for the conveyor belt to be that long.

On Mk 3, I plan on reducing the conveyor belt length to 18 inches.

  Are you sure? yes | no

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