On Saturday, October 13,2018, The design hub collaborated with the several students from San Juan High School. Bryan and Stephen and their instructor James participated in this Rocketcar event.
It was located in the football fields behind the pool and gymnasium area.
The participants from San Juan High school collaborated with the individuals from the Design Hub including Randy Schuster, Gavin, Kai, Kevin, and Jason. Also Participating in the competition are three ARC Design Hub interns: Justin, Marlo, and Muhammed. They worked on 3D printed designs and Melissa did the soldering.
Since one of our interns Jason who is skilled as a drone pilot, Helped filmed the event aerial style. Jason’s Company , J&S Drone Solutions, was also involved in the event, he flew his own drone!
The physics Department ordered this project from Randy, Due to the concern about the the limited aerial flying. Since the airspace around ARC is located so closely to a hospital. Instead, of hosting a drone flying competition. They decided to host a rocketcar competition. Where the main action would be taking place on the ground and not the air. Sean Franklin developed the first rocketcar over the summer. Competition was hosted to unite the high school and college communities.
The participants received 3D printed trophies to honor their victories!
Here are the results:
1st – Steven … Representing San Juan High School … 50 mph 2nd – Bryan … Representing San Juan High School … 48 mph 3rd – Kai … Representing the Design Hub … 20 mph HM – Gavin … Representing the Design Hub … Well over 50 mph but too low to register on our timer
Katrina is an anthropology professor here at ARC. Is doing all 3D printing.
A femur bone, Known from our website if you saw the header.
So we the design hub have built a 3D printer for Prof. Katrina . She is responsible for the Anthropology of printing bones and studying the bones from dig sites.
According to the Encyclopedia Britannica, ” Tarsier is a primate found in various of islands in Southeast Asia. They look like a lemur and a monkey combined. ” Picture from the site is displayed on the left.
In the Design Hub we have amazing 3D modeling students that can help fix any model that the clients need fixing.
Unlike Engineers who work with numbers, the artists can visualize and make decisions on what something looks like. they are able to look at many references in need if they do struggle in dire situations.
Anthropologists give really good data, which they are able to access a certain software. This certain type of software is called “Mesh Lab” . Which allows us to access the data we need. Prof. Matt Stoehr and some modeling students were able to arrange the data for the 3D printer. Which she can go ahead and print what ever she needs.
If there was any mess ups in the scanning process, the artists are able to clean up any screw ups that were left behind.
When Traiser was scanned it came out all pixelated squares. Which was the interesting part of it. But our artists were able to smooth and make the scan look what it should look like.
ARC Intern Chris Porter, A 3D modeler and animation student had worked with her on stuff like this right now.
Engineers built a long beds so that she was able to print larger scaled bones such as the femurs.
From there she will be able to print any bone, or even huge human femurs. It can even print the entire skeleton!
A project currently in progress in the Design Hub of American River College is called the “Dieselzilla vs. Drones” Project. We start with interns Kevin and Sean, who are collaborating along with James Mullerleile on this project in the Design Hub. Kevin is the programmer, and Sean is the 3D Designer behind this project. When we first hear the word, “Dieselzilla,” of course we are left wondering “what in the world is this, and what does it do?”
Well, Dieselzilla is the huge metal sculpture in the front of the Student Services and Cafeteria area (the huge glass building behind the American River College Library).
Every day on the way to class, students who walk past it are seen doing double takes. Most can’t take their eyes off of it- as mesmerizing as a well-crafted, fantastically massive Godzilla sculpture can be. Most students on campus pass Dieselzilla every day and have no clue as to how or why it got there. Even our photography intern, Angelique, told us “Ever since I started attending, I wondered what it was and why it was there- and now I had the chance to find out,” before she captured some pictures of the magnificent metal beast.
The Design Hub interns discussed the structure of the sculpture. It actually moves around with the use of a hydraulic system within the Dieselzilla! To the right, we can take a look at what goes inside of the massive metal body.
These are the parts that were designed and put together by our interns, and this is what makes the magic happen. With everything in place, Dieselzilla comes to life!
This is a very cool, collaborative project, as well as an impressive and intriguing presence everyday on our campus.
Design Hub interns Sean and Jason gave a demonstration to three groups of students from Encina High School. They explained the advantages and opportunities that are available to them here at ARC as well as the Design Hub.
Sean spoke to the Design Hub’s ability to offer students the opportunity to not only learn how to fly drones, but to create them through 3D printing. He advocated that the students would also be able to bring their own ideas and passions and turn them into reality here at ARC.
Jason gave a talk about the business aspect of obtaining a drone pilot license and how to start up a business flying drones. The two of them then gave a demo to the students, showing them how to fly the 3-D printed drones, the DJI spark, and a mini drone that allowed the students to have a first-person goggle view.
Here we meet our Design Hub interns, Dave and Melissa, to explore their new project titled, “Constant Monitor Backflow.” Dave and Melissa, as well as our Design Hub team lead Randy are involved in the fulfillment of the project. Randy was asked by a former co-worker, Bernie Clark, who does field research for Watts, Aims, Fab Co, and most of the back flow companies.
This project has to do with our water systems, where the industry today is faced with a challenge. From time to time, our potable water sources can come in contact with contaminants, and the problem our population is faced with is detecting when exactly this happens. Currently, there are annual tests that detect problems, but this is a cause of concern because they are not only costly, but we have to wait a year to see a problem. By the time any problems are detected from these annual tests, damage could already be done, and even more time and money would have to be spent in order to fix these problems.
Of course, our interns saw a challenge, and came up with a solution: blackflow prevention monitors! What the Constant Monitor Backflow project is setting out to do is to eliminate this scenario by implementing a new system where we monitor the backflow prevention to detect problems before they happen. These backflow monitors detect the contamination of the pure water with the sewer lines quickly, providing data that is easily accessed. Now it can be constantly monitored, which will help to detect problems sooner so that they can be fixed in a timely manner. This will increase productivity, and they do not need to turn off the water for the constant monitoring, unlike the annual tests, where the water has to be shut off.
Without the hard work of our dedicated interns, this project would not have been made possible. It began about two years ago, and as this project has unfolded, Design Hub intern Dave has been responsible for the many hours behind the creation of these backflow prevention monitors. He tells us that everything that lies in place now within the confines of these little boxes, all started in his head. He coded the device in our Design Hub lab, making sure it would properly collect and display data, and hand-crafted the circuitboard, complete with all of the wiring and placement within the device.
Alongside Dave we have intern Melissa, who has been learning the ropes of this project and training as she assists in implementing these monitors. She will one day have the torch passed on to her as this project continues to evolve. Our interns predict that this project won’t end anytime soon, as it is constantly growing and they continue to brainstorm new ways to improve its productivity.
We are hoping that by the end of the summer, there will be monitors set up all over the entire campus. Currently, we have one monitor backflow. By the end of the summer, the interns’ goal is to have one monitor per backflow all over the campus. By increasing the number of monitors, this will help increase the prevention of problems.
In the long run, we are seeking to collect enough data to prove that these devices, though small, are actually quite mighty. As our interns work to fine-tune these monitors, our hope is to have the opportunity to impact an important industry in a vastly positive way. Few things are as important as safe drinking water, and we are setting out to keep it safe in a clean, efficient, and budget-friendly way.