The Future for Helmets is Now - Introducing Fluid Displacement Technology

Votes: 68
Views: 4539

Patented Fluid Displacement LinerTM (FDL) technology is a revolutionary impact technology advancement in terms of performance, comfort, and style in comparison to stagnant safety helmet technology (e.g. compression foam), now prevalent for 6+ decades.

The inaugural application for FDL technology is the CHM-1 Half-Shell Motorcycle Helmet, which is the FDL’s Proof of Concept, and now commercialized. Our supporting videos and documentation showcase the CHM-1 as just one example of how FDL technology works.

From a performance perspective, the FDL allows kinetic energy to travel laterally throughout the liner, distributing the energy before it is transmitted to the skull. The FDL’s material and structure responds and absorbs within any energy range – enabled by multiple absorbing mechanisms (each designed to operate in a specific energy range and yet overlap to provide greater kinetic energy response efficiency).

The result is a more effective system for the distribution and conversion of the kinetic energy created from impacts – at any speed, and at any angle, leading to a significant reduction in energy transmitted to the head, thus reducing rotational force exposure. Rotational forces are the root cause for concussions, skull fractures, and other types of traumatic brain damage (TBI) to include Chronic Traumatic Encephalopathy (CTE).

From a comfort perspective, the FDL introduces “never seen before benefits” provided by a helmet liner. FDL benefits derive from the highly elastic and durable silicone casing material coupled with a nontoxic silicone fluid fill.

By using fluid (vs. rigid foam), the FDL naturally conforms to the wearer’s head and provides maximal comfort – as compared to “stuffing and squeezing” the head into rigid foam padding and manually tightening with suspension banding. Of additional uniqueness, the FDL offers cooling benefits (which can mitigate wearer exposure to heat hazards). While the FDL is safely secured during helmet use, it is easy to remove for sanitizing and cooling purposes (via refrigeration) and can be re-inserted back into the helmet with same levels of ease and safety.

From a style perspective: The FDL is very slim (½” -1” inch thick), in contrast to compression foam (2” + inches). By reducing liner thickness, the FDL enables an ultra-low helmet shell profile. Lower profile shells reduce wind drag (reducing neck tiring from constant “jerking” because of aerodynamic qualities and promotes wearer alertness), reduce head strike risks, and reduce torque during impacts (rotational force) because of its lower center of mass.

Low production costs: The necessary manufacturing systems are “CAPEX light”, repeatable, and modular. A single robot automates production by repeatedly pouring liners into molds, creating output efficiency and quality consistency. Minimal manpower is needed to operate the robot, load/remove molds into & from the robot, and progress the FDL thru remaining curing stages. Because of our manufacturing process efficiencies, KIRSH can invest in highest-grade materials, and yet offer our unique technology into already established price ranges with attractive margins.

Huge market potential and reach: Beyond motorcycles - KIRSH has identified 27 helmet applications across Sports & Athletics, Workplace Safety, and Motor Vehicles “kingdoms."

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  • ABOUT THE ENTRANT

  • Name:
    Jason Kirshon
  • Type of entry:
    team
    Team members:
    Jason E. Kirshon
    Donald A. DeVito II
  • Profession:
    Inventor, Entrepreneur, and Business Owner
  • Jason is inspired by:
    I decided to develop better safety helmet technology after attending Laconia Motorcycle Week in New Hampshire in 2008. I was struck by the fact that out of 200,000 attending bikers, I only saw one wearing a helmet, and that guy was riding a moped.

    Being an avid motorcyclist, I know why helmets are so unpopular. It all comes down to the rider’s desire for style and performance without sacrificing comfort. The same paradigm is true across where helmets are worn within Motor Vehicles, Sports & Athletics and Workplace Safety applications.

    As a prime example to this point, let’s start with the Motorcycle Half-Shell helmet – of which there are two types. The first type are those that are DOT (Department of Transportation) approved. These helmets are extremely big and bulky because they have 2.5 to 3 inches thick of Styrofoam on the inside. When worn, they make you look like a mushroom head. They are very uncomfortable and they catch a lot of wind, wind drag is very uncomfortable on a long ride.

    The second type is often referred to as a “novelty helmet”. These helmets do not meet DOT safety standards and offer little to no protection. They are illegal to wear in New York and in other states that have helmet laws. Because it is highly unlikely for the police to stop a rider to do a helmet check, many bikers wear novelty helmets to avoid getting tickets. As a result, hundreds of thousands of novelty helmets are sold each year.

    What is scary to me is that a good majority of bikers wear novelty helmets. And just as scary to me is the fact that DOT-approved helmets do not provide adequate protection in many crash scenarios. That is because they are designed to provide protection in cases where crashes are caused by linear acceleration—straight-on impacts.

    The engineering of a helmet should be to protect the wearer’s head, including the safety of the brain. Over time, as head trauma (and specifically Traumatic Brain Injuries “TBIs”), have become better understood, it has been discovered that the root cause for TBIs is exposure of the brain to rotational forces created by angular acceleration during impacts. TBIs, as we know, are taking an incalculable toll socially, financially, and emotionally to so many people and their families – it literally is an epidemic.

    The helmet industry has been regulated by DOT since 1974 and the testing parameters were established at that time. They have never developed a more sophisticated line of testing. To this day, helmets are tested purely on linear acceleration. While in reality, over 80 percent of head injuries are greatly affected by angular acceleration. These are creating rotational injuries to the brain. Net/Net - the helmet industry does not address this via testing and thus its manufacturers are not engineering helmets to address the root causes of head trauma (including TBIs).

    After leaving Laconia (2008), I couldn’t stop thinking about developing a better motorcycle helmet. It became my passion to bring safety helmet technology to the table that would provide the style, performance, and comfort riders so desperately wanted, and more importantly needed.

    I feel that when you have a passion, you have an obsession - and an obsession never leaves your mind, it is always there. Although I am not an engineer by trade, I’ve always had an aptitude for math and science. So when my passion (obsession) for fixing the problems with current safety helmet technology was ignited, I became very academic.

    Post Laconia, I conducted years of research on current safety helmet technology and its customary engineering approach to kinetic energy response, and rotational force impacts to the wearer. I finally had an epiphany – the safety helmet engineering gap that is driving the gaps in style, performance, and comfort for helmet wearers could be solved by FLUID.
    Fluid is the most natural medium to respond to, convert, and displace kinetic energy – at any speed or angle. From a physics perspective it can further reduce helmet profile size. From a comfort perspective, a helmet’s interior can more naturally conform to the human head all while providing natural cooling benefits.

    Borne from the obsession, and ultimately the FLUID epiphany, is my work to develop, design, patent, and deploy Fluid Displacement LinerTM (FDL) technology which becomes the enabling advancement for new revolutionary impact technology systems. These systems will deliver style, performance, and comfort to those who have historically worn helmets, as well as to those who haven’t worn helmets but now “will”.
  • Software used for this entry:
    SolidWorks, ANSYS
  • Patent status:
    patented