The development of optimal sporting gear is a very particular science. The equipment must not hinder its wearer through discomfort, or by causing him or her to sacrifice any speed or range of motion. The Aiguille Headgear concept is a prime example of a very well-designed helmet.
Intended for athletes who are engaged in short track speed skating, the product is compact, lightweight and comprised of many protective layers to reduce injury during falls and collisions at high velocities. Flexible silicone and memory foam can be found inside, absorbing shock while maintaining a sufficiently firm shape.
A carbon nano-tube cloth is made into a neckband with a connection around the collarbone to steer clear of the awkward chinstrap. Mathias Hintermann's Aiguille Headgear is even outfitted with e-ink panels over the ears to display numbers, logos and flags.
Superior Speed Skater Helmets
Aiguille Headgear Offers Aerodynamics, Protection and Comfort
Trend Themes
1. Optimal Sporting Gear - Developing gear that maximizes performance without compromising comfort or range of motion presents an opportunity for disruptive innovation.
2. Protective Layering - Creating helmets with multiple protective layers to reduce injuries during high-velocity falls and collisions can be a disruptive innovation in the sports equipment industry.
3. Advanced Display Technology - Incorporating e-ink panels in sports gear to display information such as numbers, logos, and flags can lead to disruptive innovation in the field of athletic wearables.
Industry Implications
1. Sports Equipment - Developing superior speed skater helmets with optimal design and protective features can disrupt the sports equipment industry.
2. Athletic Wearables - Integrating advanced display technologies like e-ink panels in sports helmets opens up disruptive innovation opportunities in the athletic wearables industry.
3. Material Science - The use of carbon nano-tube cloth and flexible silicone with memory foam in speed skater helmets presents disruptive innovation opportunities in the material science industry.