A helmet may include a helmet body, a fit system, a bezel, and a hardware retainer. The helmet body may have an outer shell and an energy management layer. The bezel may be separate from the outer shell and coupled to the helmet body at the vent opening of the helmet, encircle the vent opening, and have a hardware opening extending through the bezel and an anchor opening in the bezel adjacent the hardware opening. The hardware retainer may be positioned behind and coupled to the bezel. The hardware retainer may include a hardware receiving aperture aligned with the hardware opening and a hardware retainer cover coupled to a rear side of the hardware retainer. The hardware retainer may further include an anchor recess aligned with the anchor opening. The bezel may be in-molded into the energy management layer.

A helmet may include a helmet body, a fit system, a bezel, and a hardware retainer. The helmet body may have an outer shell and an energy management layer. The bezel may be separate from the outer shell and coupled to the helmet body at the vent opening of the helmet, encircle the vent opening, and have a hardware opening extending through the bezel and an anchor opening in the bezel adjacent the hardware opening. The hardware retainer may be positioned behind and coupled to the bezel. The hardware retainer may include a hardware receiving aperture aligned with the hardware opening and a hardware retainer cover coupled to a rear side of the hardware retainer. The hardware retainer may further include an anchor recess aligned with the anchor opening. The bezel may be in-molded into the energy management layer.

In one embodiment, a zero impact head gear is provided including an outer helmet and an inner helmet. The outer helmet has forward and rear retaining stops protruding from the interior of the outer helmet. The inner helmet has a forward and rear retaining stops protruding from the inner helmet to allow movement of the inner helmet within the outer helmet, but capable of limiting a forward displacement the inner helmet with respect to the outer helmet.

A remotely controllable wireless camera system that may be mounted on an emergency worker or on the emergency worker's helmet. The system includes a digital camera and an infrared camera. The system is connected to a network and live-streams video via the network and a server in real-time.

A neck protection device (10) includes a ring (14) that is configured to extend around a wearer's neck and that includes a plurality of elements (12) each defining a passage (16). A tether (18) extends along the passages (16) and a tension device (38) is configured to grip the tether (18) releasably and hold it under tension. The elements (12) are free to move relative to one another, when the tether (18) is not under tension, so that the ring (14) is flexile and can be fitted around the neck, but the elements (12) are drawn into abutting relationship to form a stiff ring (14), when the tether (18) is under tension.

A modular vision system, particularly for helmets and the like, which comprises a central portion adapted to support a video camera, a rear portion adapted to be coupled to a first end of the central portion and to support an electronic unit, and a front portion) adapted to be coupled to a second end of the central portion, the central portion and the rear portion being configured to conform to a profile of a shell of a helmet.

Intrapersonal communication systems and methods that provide an optical digital signal link between two or more local devices are disclosed. In some embodiments, the system includes a first signal converter disposed at a first end of the optical digital signal link and configured to convert between electrical digital signals from a first local device and optical digital signals from the optical digital signal link. The system can include an optical connector having a non-contact portion configured to couple optical digital signals between the first signal converter and the optical digital signal link across a gap. The system can include a second signal converter disposed at a second end of the optical digital signal link and configured to convert between electrical digital signals from the second local device and optical digital signals from the optical digital signal link.

The disclosed device, system, and method may comprise one or more devices for digital personal protective equipment. These devices may be network enabled wearables. A plurality of sensors, data transmission mechanisms, self-illuminating LEDs, and communication mechanisms may be embedded in a suspension or harness in various embodiments. A number of sensors may likewise be provided in a glove or earbud (ear plug). The device may measure various aspects of a wearer's movement and transmit that data over a data connection (such as a wifi or mobile connection) to a server. The server may house project and human resources data, worker and condition information, and materials and supplies data, according to various examples of embodiments. The system may further comprise one or more applications which may interpret the data provided.

A headset apparatus configured to be worn by a user operating outdoor power equipment. The headset may include a noise cancelling system and/or enhanced glasses.

A bespoke protective sports equipment to be worn by a player engaged in a sporting activity is provided. The bespoke sports equipment system includes methods for acquiring, storing and processing a player's unique data, namely the anatomical features of the body part against which the bespoke equipment is worn. The systems also includes methods of using the player's unique data to manufacture the bespoke protective equipment with a custom formed internal padding assembly that substantially corresponds to the player's unique data. The system and method allows for the design and manufacture of bespoke protective sports equipment that is purposely designed and manufactured to match the anatomical specifications of the player's body part.