EcoHelmet wins 2016 James Dyson Award
Bike share schemes are used by millions of people around the world. But bike share users rarely wear helmets – a potentially fatal decision. According to the Bicycle Helmet Safety Institute, more than 800 cyclists were killed on US roads in 2015.
Isis Shiffer, a recent graduate from the Pratt Institute of Design in New York City, set out to address this problem. Her solution: EcoHelmet, a folding, recyclable helmet for bike share users.
EcoHelmet uses a unique honeycomb configuration to protect the head from impact, and folds flat when not in use. A biodegradable coating makes it resistant to rain for up to three hours. The lightweight, durable design of EcoHelmet empowers cyclists to ride safely and confidently.
The cell structure of EcoHelmet distributes any impact evenly around the head as effectively as a traditional polystyrene helmet. Due to the radial nature of the cells, it will protect the user from a blow coming from any direction. The simplicity of EcoHelmet’s construction, coupled with its inexpensive materials, will keep the manufacturing costs low – meaning they can be sold for $5 at bike share stations.
“I was lucky enough to be studying at Royal College of Art and the Imperial College of London for a semester, and was granted access to Imperial’s crash lab,” says Isis. “They had a European standard helmet crash setup that allowed me to gather enough data on Ecohelmet’s proprietary honeycomb configuration to know it was viable and worth developing.”
As international winner of the James Dyson Award 2016, Isis will be awarded $45,000 to further develop her invention.
“EcoHelmet solves an obvious problem in an incredibly elegant way. But its simplicity belies an impressive amount of research and development,” says James Dyson. “I look forward to seeing EcoHelmets used in bike shares across the world.”
There are also two international runners up in the James Dyson Award 2016: Smart Contact Len Platform and Respia.
Smart Contact Lens Platform is uses state-of-the-art engineering and nanotechnology to create a contact lens with a sensor that can continuously monitor its user’s glucose levels. After analysing the concentration of glucose in the user’s tear film, the sensor transmits its readings to the user’s mobile phone so they can better manage their diabetes treatment. It was designed by a team of students from the University of Waterloo, Canada.
Respia is an asthma management system that tracks and records the user’s respiratory health and medication use. It is a complete redesign of existing aerosol inhalers, coupled with the world’s first wearable patch that tracks respiratory health. It was designed by Katherine Kawecki, a student of industrial design from the University of New South Wales, Australia.