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Autonomous 3D Printer Farm

A 3D Printer Farm automated by a mobile robotic arm. Designed for flexible, agile, and lean manufacturing.

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Abstract
Initially used as a means for rapid prototyping, 3D printing is rapidly becoming a genuine manufacturing option for end use products. While traditional manufacturing methods are still ideal for mass production, additive manufacturing (AM) offers several significant benefits for certain applications. Injection molding, die casting, and other traditional manufacturing methods require large initial costs to setup production lines. Moreover, these facilities need excessive time and expertise to modify later on. These constraints inhibit Small Medium Enterprises (SMEs) from accessing the technology and discourages design iteration/innovation. In this project, we attempt to build an autonomous 3D printing farm; which offers a flexible, lean, and agile manufacturing solution. The proposed 3D printing farm is fully autonomous, via a mobile robot that automates each 3D printer. The 3D printing farm is intended to provide a a cheap easy-to-access, quick-to-start manufacturing option.

Project Team Members

Parth Patel, John Wang, Swaleh Owais

Latest Demo Video (Will be public at 10:45 AM)

Background

Initially used as a means for rapid prototyping, 3D printing is quickly becoming a genuine manufacturing process for end use products. While traditional manufacturing methods are still ideal for mass production, additive manufacturing (AM) offers several significant benefits for certain applications. Traditional manufacturing processes (injection molding, die casting, vacuum forming, etc) require large initial costs that can only be recouped at scale. Moreover, such processes require excessive time and expertise to make even minute changes to manufacturing lines. These constraints inhibit Small Medium Enterprises (SMEs) from accessing this technology and discourages design iteration/innovation. 

In this project, we attempt to build an autonomous 3D printer farm; which offers a flexible, lean, and agile manufacturing solution. The proposed facility features several Prusa Mk III 3D printers, each of which can independently eject and start print jobs. Unlike traditional manufacturing facilities, our 3D printer farm allows users to continuously update part design; even during production. Moreover, the farm has other potential benefits such as low lead times to start production, the ability to quickly vary capacity, mass customization, a linear costs model, and fully autonomous lights out operation.

Design

We have built a mobile robot that can autonomously swap build plates on a 3D printer. 

[Figure 1: Removing Print Job Demo]

In additional to programming the robot, we have built a cloud application for uploading and managing the print jobs.

Prior Art

Due to the many advantages of an autonomous 3D printer farm, multiple companies have attempted to build such a facility. As part of our background research, we examined two existing 3D printer farms built by Voodoo Manufacturing® and Formlabs® respectively.

In 2015, Voodoo Manufacturing® demonstrated Project Skywalker: an autonomous 3D Printing Factory. The factory features a 3x3 array of 3D printers tended to by a 6 axis industrial robot arm. This project is the first publicly documented attempt at 3D printer machine tending. While Voodoo Manufacturing® showed the utility of automating 3D printers, we felt their design solution was over engineered. This is evident by the fact their industrial robot arm costs more than the sum total of all the 3D printers used in the factory (UR-10e Robot Arm: ~$40,000; 9 Makerbot Replicator 2 3D Printers: ~$18,000). Our team believes that a much simpler and cheaper robot could be built internally and still accomplish the same task.

[Figure 1: Autonomous Printing Cell developed by Voodoo Manufacturing]

In 2017, Formlabs® released the Form Cell™: an automated 3D printing solution. The Form Cell™ contains several 3D printers, each of which are tended to by a SCARA robot mounted on a gantry system. The Form Cell™ is currently in use by many dentures and prosthetics manufacturers. The Form Cell™ is closer to the robotic solution that our team would like to build. Like Formlabs®, we will also develop a robot internally for performing 3D printer machine tending. However, we disagree with Formlabs® decision to mount the robot arm that tends to the 3D printers on a gantry system. Instead, we believe that such a robot arm should be mounted on a mobile base. This configuration would greatly reduce the footprint of the system. Moreover, a mobile base can easily transverse an entire room, while a gantry system can only move along a set 2D plane. In the latter configuration, users have less versatility in repositioning and adding 3D printers to the factory. This goes against our project’s goal of developing a flexible manufacturing facility. 

[Figure 2: Formlabs Form Cell]

While Voodoo Manufacturing® and Formlabs® succeeded in automating 3D printing...

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