A headgear for a head safety product such as a face shield, hardhat or welding helmet includes a headband with hangers extending therefrom to engage the head safety product being worn, at least one crown strap engaged with the headband to support the headgear over the wearer's head and a self-adjusting elastomeric nape belt configured to extend over the occipital portions of the wearer's head. The elastomeric nape belt depends from symmetric rear strap extensions of the headband and is configured to elastically self-adjust to the occipital area of the wearer's head.

The disclosure provides a ballistic helmet and a method of assembling a ballistic helmet that includes a helmet shell and a harness connected to the helmet shell. The helmet shell includes a front portion and a rear portion. The harness includes a nape pad, a tensioner disposed on the nape pad, a plurality of securement straps, and a tension cable. The plurality of securement straps are connected to the nape pad and are configured to fasten to the rear portion of the helmet shell. The tension cable is selectively adjustable by the tensioner and is configured to fasten to the front portion of the helmet shell.

A nape pad for use with a helmet, the nape pad comprising: a base comprised of a rigid material and having an outer surface and an inner surface, a left side and a right side, and a top edge and a bottom edge, the outer surface being generally convex from the left side to the right side and having an upper portion proximate the top edge and a lower portion proximate the bottom edge, the upper portion being generally smooth and configured to extend into and slide along an inner surface of the helmet, the inner surface of the base being generally concave from the left side to the right side; a fastener coupled to the lower portion of the base and configured to releasably couple to a retention system of the helmet; and at least one compressible comfort pad coupled to the inner surface of the base.

A protective helmet includes a plurality of fluid filled bladders, impact sensors, valves, and pumps wherein the helmet absorbs energy from an impact to protect a person wearing the helmet from traumatic brain injury. The bladders expel fluid in response to a triggering event such as energy from an impact detected as a pressure spike event and/or detected as an acceleration event. A selected bladder may expel fluid to other bladders, to a reservoir, to the environment outside of the protective helmet, or combinations thereof. In embodiments where the bladders need additional fluid after an impact, one or more pumps may refill selected deflated bladders. When a bladder is underinflated, an indicator light may emit light on an outer surface of the protective helmet to warn that the bladder is not yet ready to be placed in operation to absorb another impact.

An integrated fit and retention system is provided that includes a first rigid strap and a second rigid strap, each having a first end and a second end. The first end of each rigid strap is coupled to a helmet body proximate a front of the helmet body, and the second end of each rigid strap is coupled to the helmet body proximate a rear of the helmet body. The integrated fit and retention system also includes a chin strap operable to couple the first and second rigid straps beneath a chin of a wearer. In particular embodiments, the integrated fit and retention system may further include a fit strap coupling the first and second rigid straps, that may be configured to sit below an occipital lobe of the wearer.

It is a typical harness conformed by a hard outer shell (1) that usually projects a front visor (2), and an optional crown with ventilation ports (3), enclosed in an inner harness (A) that lays on the wearer's head, keeping a considerable clearance in respect of the inner face of the shell (1). The helmet is put on the wearer's head and is positioned using an adjustable annular headband (4). The harness is a crowned thin structure conformed by curved portions of different width and equal thickness, which form stretching deformation portions based on the energy transferred during an impact. Thanks to the sizing of the curved portions that form the crowned structure, stretching deformation occurs at temperatures ranging from −18° C. to 50° C. The crowned structure is shaped from an upper elliptic portion (5) that delimits a vast upper and central opening (6) that is substantially elliptic, from which radial portions extend (7 and 8) until reaching a lower adjustable annular headband. This upper elliptic portion (5) presents two diametrically opposed stretched openings (9 and 10), through which it is subdivided in two internal curved portions of lesser width (11 and 12), opposed to the respective external curved portions, which are wider (13) and (14).

The present invention provides a helmet comprising a main body having a concave interior for receiving a user's head, a head strap coupled to the body, and an adjustment mechanism coupled to the head strap. The head strap is positioned in a loop that spans at least 1.5 wraps around the interior of the main body. Preferably, the head strap is fully recessed into the concave interior of the main body. The head strap can include an occipital pad and a flexible belt (e.g., two flexible belts) secured to the occipital pad and engaged with the adjustment mechanism. Preferably, at least a portion of the flexible belt is spaced rearward from the occipital pad. The helmet can further include a belt guide (e.g., two side belt guides and a front belt guide) secured to the main body and adapted to allow the head strap to slide through the belt guide.

The disclosure provides a ballistic helmet and a method of assembling a ballistic helmet that includes a helmet shell and a harness connected to the helmet shell. The helmet shell includes a front portion and a rear portion. The harness includes a nape pad, a tensioner disposed on the nape pad, a plurality of securement straps, and a tension cable. The plurality of securement straps are connected to the nape pad and are configured to fasten to the rear portion of the helmet shell. The tension cable is selectively adjustable by the tensioner and is configured to fasten to the front portion of the helmet shell.

A protective helmet includes a head support fixed to a crown. The head support forms a U shape with a frontal part fixed to the frontal part of the crown. The two ends of the head support are fixed to the side walls of the crown via two attachment points. First adjustment parts adjust the length of the head support between the two attachment points and the distance separating it from the frontal part of the crown. A neckband is fixed to the occipital part of the crown and is fitted in movable manner. Second adjustment parts of the neckband adjust the distance between the neckband and the frontal part of the head support.

A cycling helmet includes an outer shell and a closed cell foam layer adjacent to the outer shell. The cycling helmet also includes an inner liner adjacent to the closed cell foam layer. The cycling helmet further includes an insert of energy absorbing material adjacent to the inner liner. The insert is configured to move in multiple directions in response to an impact to the cycling helmet.