Zachary Trippodo, a student at Fairfield Ludlowe High School in Fairfield, Connecticut, knows a lot more than I do about underwater hotels. He knows so much, in fact, that he designed his own, and it won him first place in the Art & Architecture category of the Stratasys 2016 Extreme Redesign 3D Printing Challenge. The competition, which challenged students to use 3D printing to improve upon or redesign existing items or processes, revealed its finalists early this month and now has announced winners today, and I must say that they’re pretty ingenious.
Trippodo’s hotel design expands – quite literally – on existing underwater hotels, with a total of 20 floors extending down beneath the sea. He makes it easy to access regardless of your preferred mode of transportation, with two helicopter pads plus a boat dock connected to the above-the-surface entrance and check-in point. He’s also included handicap ramps to make the hotel fully accessible to everyone.
“My sea anemone locket is a design meant to be both lovely and useful, holding little trinkets on your neck,” says Lee. “You can remove the hole that would be used to string it on your neck, and instead use the anemone locket as a container. It snaps shut, so it can hold your possessions safely. When you use it, you will be reminded to help stop carbon pollution.”
In the Secondary Education Engineering category, first prize went to Li Cheng Yu of Etobicoke Collegiate Institute in Toronto. He focused his design on a common household item that just about all of us have used, and probably been frustrated by at some point: the outlet extension.
“A well designed and efficient outlet extension should be compact and contain a high quantity of outlets,” he explains. “However, the extension bars that are on the market today do not meet consumer standards and have many architectural flaws. The compact extension bars have very few outlets and the extension bars with lots of outlets are bulky and awkward.”
Second place in the category went to Joseph Busch from Benilde-St. Margaret’s School in Minnesota, who designed a CNC attachment for a drill press. CNC mills are too expensive for high schools, Busch explains; however, most high schools have drill presses for multiple class applications. His design uses simple tools to convert a drill press into a CNC mill so that students can gain experience in computer-aided design in manufacturing without extra cost.
First place in the Post-Secondary Engineering category was a team effort from Aris Pecci and Remi Carreiro from Toronto’s Ryerson University. Their Hypershot is a smartphone camera lens attachment that consists of three different lenses on a rotating mechanism. The small device can be attached to any smartphone via suction cups and doesn’t scratch the phone’s surface or built-in lens.
In second place was another team from Ryerson: Alborz Razavitousi and Arman Ghafouri-Azar with sketcHold, an ergonomic 3D printed tool that can attach to most sketchbooks and some bags. The adjustable device can securely hold a variety of sketching tools, and it also doubles as a grip, allowing the artist to comfortably hold a sketch pad aloft while drawing.
The NCATC award, which goes to a student from a school in the National Coalition of Advanced Technology Centers, went to Jason Fontaine of San Jacinto College in Texas. His Intelligent Waterbots expand on the underwater robotics research that San Jacinto’s Artificial Intelligence Technology Lab is currently undertaking in cooperation with NASA’s Aerospace Academy.
“Current kits direct wire to motors, making sensor data and wireless communication not possible while boasting costs of several hundred dollars,” Fontaine says. “Here, we propose a simple containment chamber for intelligent technology along with open-source and openly available materials to construct superior bots at a fraction of the cost.”
Fontaine’s design consists of a 3D printed containment chamber and propellers, along with inexpensive motors and Arduino controllers. The underwater robots, which can be controlled via remote control, are much less expensive than existing models and will, according to Fontaine, allow many more students from local universities and summer camps to participate in important research alongside NASA.
Finally, there was the Make a Difference Award, whose purpose is self-explanatory. The recipient was Marcus Magaña from ITESM Puebla in Mexico, who designed a 3D printed Braille alphabet for computer keyboards. Current Braille keyboards are expensive and difficult to obtain, he explains, and the Braille stickers that can be placed on keys don’t tend to hold up very well. His 3D printed pieces are ultra-thin and can be glued securely to computer keys – they’re also easily replaceable.
The challenge’s first place winners will each receive $2,500 scholarships, while second place winners will receive $1,000 scholarships. The Make a Difference winner will receive $1,500 in scholarship money. In addition, the instructors who mentored each of the first place winners will be given a demo 3D printer to use in the classroom for a limited time.
The 2016 challenge was the 12th held by Stratasys on a yearly basis; the 2017 competition will open this September. For more information on the winners and their designs, including full PDF and video presentations, look here. Discuss in the Stratasys 3D Printing Challenge forum over at 3DPB.com.