The present invention relates to a device that stabilizes and/or protects the head and spine from injuries. An immobilization device includes one or more pillars with multiple segments that protect the head and spine of a user. The pillars typically run along the part of the head and spine and pelvis that the device protects. A cable or wire runs through these segments in the pillars. By design, when the pillars of the invented system are not activated and the system is in normal use, the pillars are designed to be as flexible as possible and allow full physiologic motion of the protected body part. Activation of the system confers rigidity to the system and prevents or lessens harmful, non-physiologic motion of the body part intended to be protected. The present invention also encompasses a immobilization device with cables used to guide the deployment of rigid tubes to stabilize and protect the head of the user. The present invention further includes segments with flat guide protrusions for increased stability of the pillars. The immobilization device can further include rigid tubes that extent to receivers when they are activated, and which can also be used to stabilize and protect the head or neck of the user.

A protective device and method of use includes a collar portion for positioning behind the neck of a wear and a right leg and a left leg connected to the collar portion that extend over the chest of a wearer. The collar portion and legs may be constructed of a single piece. An upwardly extending portion extends upwardly behind the head of a wearer and is movably affixed to the collar portion. A shock absorber has a first end attached to the collar portion and a second end attached to the upwardly extending portion to resist forward motion of the upwardly extending portion. A connector, such as a strap, communicates the upwardly extending portion to a helmet. Therefore, deceleration of the upwardly extending portion and a connected helmet is affected by the shock absorber, thereby mitigating the effects of a sudden deceleration as is often experienced during an auto accident.

A head guard is provided. The head guard includes one or more sensors as part of an sensory input and communications system. The head guard wirelessly communicates data to remote computing devices for intelligent data collection.

The present disclosure includes a retrofit sensor module for use with a protective head top with a helmet and a visor. The sensor module includes a sensor housing and an attachment mechanism. The sensor housing encloses a head presence sensor to sense when the protective head top is being worn. The sensor housing also encloses a position sensor to sense the position of the visor relative to the helmet. The retrofit sensor module further comprises an attachment mechanism secured to the housing. The attachment mechanism mates with a first hinge component of a hinge assembly in the protective head top to removably install the sensor module into the protective head top, wherein the hinge assembly allows the visor to move relative to the helmet.

A protective impact-absorbing headgear liner and impact sensing system for use with various types of helmets and protective gear or clothing. The lining material has unique impact absorbing properties to additionally protect a wearer from impact related injuries. The headgear liner has a band and crown which are variously shaped and positioned to received impact-absorbing pads. The position of the pockets depends on the helmet style. In one example the liner is a stretchable material. Impact absorbing pads as described herein may be used in a variety of clothing and protective gear to protect from impact injury. Examples are football shoulder ads, thigh pads, bicycle helmets and the like. The liner may also be an expanded foam. A preferred pad material is a gel containing a thermoplastic elastomer. The impact sensing system utilizes an impact sensor assembly to sense the force of impact received and transmit the data to a personal electronics device running an application program to process and display sensor data. Other data such as temperature or the like provided by other ancillary sensors may also be processed by the application program.

A protective helmet is provided having an upper section and a lower section, each having an inside and an outside surface. A gap is formed between the upper section and the lower section. Resilient members in the form of a plurality of spaced apart compression struts are provided for connecting the upper section to the lower section. The upper section is movable with respect to the lower section whereby a portion of the force of an impact to the upper section will be absorbed and will not be transmitted to the lower section. A suspension harness is attached to the inside surface of the lower section. The suspension harness is adapted to receive a portion of the helmet user's head and to keep the helmet user's head from contacting the inside surface of the upper section.

Embodiments include a protective helmet including a protective shell having an interior surface and an exterior surface. A padding layer is affixed to the interior surface. The padding layer includes a compliant material and a frangible material, such as glass foam. At least the frangible material is enclosed in a container. A detection circuit detects compromise of the frangible material, and outputs an indicator in the event the compromise is detected. The detection circuit may include a frangible wire configured to break in the event the frangible material is compromised. The indicator may include an LED, and/or radio-frequency signals. The radio-frequency signal may include an identifier for the helmet. The padding layer may include a plurality of pads each containing compliant material and frangible material. The plurality of pads may include one or more fasteners for releaseably affixing the pads to the interior surface of the protective shell.

A system to assess risk of changes to brain white matter includes a sensor system adapted to measure an energy of each impact to an individual belonging to a sub-population that causes a repetitive head impact (RHI). A head impact dose equivalent number (HIDEN) process calculates a HIDEN for a most recent RHI event based on the energy of the most recent RHI event, a time of the most recent RHI, and all previously recorded RHI events available in a non-volatile memory. A sub-population function process calculates a risk assessment number based on the sub-population and the HIDEN. A risk assessment notification means provides a notification of the risk assessment number. A method to assess risk of changes to brain white matter based on a head impact dose equivalent number and a method to define a sub-population function to convert a HIDEN to a risk assessment value is also described.

A configurable site safety system includes a plurality of wearable signaling devices, each with an array of independently addressable lighting elements, a location receiver and one or more communication interfaces. The system may also include a site safety server to track location information received from at least each of the signaling devices, and to cause, based on a subset of the plurality of signaling devices satisfying defined geographical, event-based or other defined criteria, the lighting array of each of the subset of signaling devices to display a defined lighting scheme.

An apparatus is presented for improving the noticeability of a hat. The apparatus includes a light source configured to produce light upon receiving electrical energy. The apparatus also includes a mount coupled to the light source and configured to selectively attach to and detach from the hat. The mount, when attached to the hat, orients the light source to project light away from an exterior surface of the hat into an ambient environment of the hat. The exterior surface includes at least one of a left-side exterior surface and a right-side exterior surface. The apparatus additionally includes a battery receptacle electrically-coupled to the light source and having electrical contacts for coupling to one or more batteries. Hats having improved noticeability and methods for improving the noticeability of a hat are also presented.