3D Printing

3D Printed Puffer Fish

Posted on by Lauren

We designed a puffer fish (bio-inspired robot) for egg drop challenge. The system is based on Hoberman's sphere (a popular kids toy) that will have parachute on the upper half sphere and elastic legs for landing. In the middle of it is a plane that will be holding the payload and actuators. And the purpose of this project is to be able to successfully drop the egg (payload) from the tallest building at UConn (so Humpty dumpty doesn't break his head :-D). Innovate Labs helped us to 3D print most of the joints and the links needed to create a Hoberman's sphere, as well as the midplane for supporting the components. We are wery grateful for you guys since you have better quality prints than Library (we did submit a couple requests to the Maker studio as well). Although we still don't have a picture, we will upload it later. You are awesome, thank you

Submitted by Nina Stefanovic

expandable ball

3D Printed Wear Tester

Posted on by Lauren

For our MSE Senior Design Project, we decided to create a wear tester, since we did not have the equipment in the lab. The wear tester allows us to attach a sample to the bottom of the flat end and have it grind against a sheet of aluminum to evaluate the amount of wear that the sample experiences over a period of time. Innovate Labs was able to help us print out our initial and final iterations of the wear tester in a quick manner, so that if any changes were needed, we could get it printed easily. Overall, we are happy with how the wear tester came out to be, and big thanks to Innovate Labs for assisting us!

Submitted by Wilson Li

 

3D Printed Computer Mouse Holder

Posted on by Lauren

The lab helped me with printing out an adaptive computer mouse holder with the printing material of my choice. The students at the lab also cleaned out the excess printing material and created a smooth fine surface to avoid skin injuries since this product requires continuous contact with my hand.

Submitted by Arpita Kurdekar

3D Printed Spider-Man Face Shell

Posted on by Lauren

I created a Spider-Man face shell as a personal project for an upcoming Halloween. The purpose of the face shell is to provide a comic- or screen-accurate silhouette for the Spider-Man mask, while also distributing the pressure from the tight mask evenly, making it more comfortable to wear. Face shells are commonly used in live-action adaptations of Spider-Man, so I wanted to use one for my own costume to make it as accurate as possible. Innovative Lab helped me achieve this by allowing me to print my design using one of their 3D printers. Initially, I encountered difficulties with the print being too large, but with their assistance, I was able to adjust the size by cutting the print into several smaller pieces.

Submitted by: Ian OnDobo

3D Printed Playdoh Remover Prototype

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Liam is a 5th grader attending Mansfield Middle School. He was one of the winners in the Connecticut Invention Convention and will move on to Nationals. His prototype is made of metal and rusts if Playdoh is not cleaned off for an extended period of time, a common scenario for 3-years old's playing with Playdoh. Also, the metal can be sharp for little kids to use. He wanted to 3-D print his prototype to see if it would help these issues and it does! Thanks to the OPIM Innovate lab, Liam was able to create a more sustainable and safer prototype for children to test out. Seeing as Liam and his parents have no experience with 3-D printing, this could not have happened without you!

Learn About Octoprint Installation at the OPIM Innovate Lab

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What started out as a simple way to monitor our 3D prints turned into a full blown remote control system for our Prusa i3 MK3s! This setup produces stunning timelapses that make the print look like it is rising from the print bed on its own.

So how does it work? One of our lab assistants, Jason Tyler, who spearheaded the project, explains, “It all starts with the Raspberry Pi, which is a mini computer that serves as the brains of the system. This computer is connected to both the printer and the camera that we have watching the prints. It runs a special operating system that connects to our network and has a bunch of special features that makes this project possible.”

In essence, after each layer printed the software talks to the printer and tells it to move the extruder (the big printer head that does the ‘printing’) out of the way, then tells the camera to take a picture. This is done using the GCode language, which is the universal programming language of most 3D printers. When compiled at the end, the pictures are stitched together into a seamless video.

Videos aren’t the only thing that Octoprint can do, Jason says. “The Octopi software allows us to start new prints, monitor current print status, and view prints layer by layer from anywhere!. There is a plugin store where the community has uploaded a bunch of add ons for Octoprint that give this project an extensive amount of possibilities.”

Having a system like this fits in perfectly at OPIM Innovate: It provides a glimpse into some real world skills and projects students might not encounter elsewhere. Octoprint essentially acts as a load/supply management system that increases operational efficiency; similar to examples in the manufacturing industry. Students can view real-time analytics and optimize their print settings from the cloud!

If you are following us on Tiktok or Instagram you may have seen some of these videos before. Come by the lab from 9-4 Monday to Friday to see Octoprint in action!

3D Printed Marceline’s Bass Ax from Adventure Time

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With the resources provided to me through the OPIM Innovate Lab, I created two versions of the bass guitar used by the character Marceline in the show Adventure Time. Innovate provided me with skills related to 3d printing, slicing, modeling, and building which all helped me to create props that were very show authentic. Additionally, the tech tracks offered to me through the Innovate Lab were transferable to other softwares such as SolidWorks and Creality5.0. Their multiple 3d printers also helped me get the parts necessary for this project fast and efficiently, which was a huge help. Overall, the Innovate Lab has helped me learn a great deal about 3d modeling and helped me build extremely intricate props.

Reinvent PT

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The REINVENT-PT (REhabilitation INnoVations & Emerging Novel Technologies in Physical Therapy) lab (PI: Srinivasan) is interested in understanding developmental trajectories of individuals with neuro-developmental disabilities such as Autism, Cerebral Palsy, Down syndrome, and Intellectual Disability across the lifespan.

The study we are currently working on explores the feasibility and efficacy of a home-based training program that uses joystick-operated ride-on-toys to improve arm function in children with cerebral palsy. In this study, we have lots of fun activities that involve children driving the ride-on-toys to complete playful challenges based on themes such as sports, children’s animated movies, favorite holidays, and other exciting themes.

The contribution of OPIM Innovate has been instrumental in supporting the activities of the children, by means of creating, modeling, and printing 3-D printed toys. These toys will significantly aid in motivating the children to participate, providing them with novel textures and shapes to interact with, and facilitating hand movements that are crucial to the study. OPIM Innovate has demonstrated its generosity by creating a diverse range of 3-D printed toys, including fidget, moveable, puzzle, and interactive toys, all of which are thematically aligned with popular children's characters such as Minions, Mickey Mouse, Scooby Doo and many more. OPIM Innovate's valuable contribution to the study will enable us to provide a more engaging and effective learning experience for the children. We extend our sincerest gratitude and appreciation to OPIM Innovate for their support and generosity. We hope to continue working with you all in the future. Thank you again!

reinventpt 3D printed toys

AIAA Rocketry: Propulsive Landing Project

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For this project, our goal is to successfully drop and land a model rocket on a landing pad using propulsion along with various guidance systems. The OPIM Innovate lab provided super helpful insight regarding 3D printing practices such modifying prototype parts and 3D tech specificities. They also put an emphasis on on getting our prints to us as soon as possible. 

Submitted by Patrick Iannetta, Mechanical Engineering, Rocketry Team

Rocket Engineering Team

Fish Tank Livewell

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3D Printed Fish Tank Livewell parts

I designed and built a fish tank livewell for fishing. What these three different parts do are they attach onto the side of the tank. The lightweight plastics are extremely good for this, as it’s lightweight and doesn’t add a lot to the tank when moving it around, but allows for the higher well, aerating pump, and battery to be held there with constant pressure and not get splashed.
The employees at OPIM Innovate were extremely nice and helpful to help me slice my project and 3D print on the printer. I am currently at the process of 3D printing it which will help me assemble it to make the final project.
Submitted by: Liam Wilson