A personal protective headgear is an apparatus fully enclosing a user's head, protecting not only from potential contamination of breathing air but also from potential physical damage. A facial shield is hermetically sealed around the front-facing portion of the apparatus, preventing entrance of unfiltered air. Fans direct air through a set of filters, thus cleansing air entering the apparatus. The apparatus may further be equipped with a variety of interactivity modules, including cameras, speakers, lights, displays, and more. A set of sensors may be utilized to monitor the user and the user's surroundings in different conditions. The apparatus may also include wireless capabilities that allow the wearer to transfer information to and from a remote user, thereby allowing the user to follow instructions or otherwise interact with a guide or other such remote companion. Swappable battery packs allow the user to avoid losing power, even while replenishing power supplies.

Disclosed is a size adaptive protective headgear including a protective shell including a first and a second front cut extending respectively from a first and second side edge of the protective shell, the first and second front cut enabling expansion and contraction of a front section of the protective shell, and a first and a second rear cut extending respectively from a first and second side edge of the protective shell, the first and second rear cut enabling expansion and contraction of a rear section of the protective shell.

A helmet cooling system includes a reservoir for holding a chilled medium and includes fan that that draws ambient air into the reservoir so that the air will pass over the chilled medium and exit the reservoir through a tube that is connected to a helmet. The helmet includes several channels for distributing the chilled air to the wearer's head to help keep the wearer comfortable. The reservoir can include a diverter valve to preserve the chilled medium when it is not necessary by sealing off the chilled medium and preventing air from circulating past it or otherwise contacting the chilled medium.

A helmet includes an outer shell having an interior and an exterior and an impact absorbing layer positioned on the interior of the outer shell. The impact absorbing layer includes a first impact absorbing structure having a first interface and a second impact absorbing structure having a second interface in lateral compression against the first interface.

A helmet includes an outer shell having an interior and an exterior and an impact absorbing layer positioned on the interior of the outer shell. The impact absorbing layer includes a first impact absorbing structure having a first interface and a second impact absorbing structure having a second interface in lateral compression against the first interface.

A helmet for protecting the head of a user may include at least one liner comprising an inner surface and a lower edge surrounding the inner surface at a helmet opening configured to receive a head of a helmet wearer. At least two coupling points may be located on the inner surface proximal to the lower edge. At least one flexible forehead strap may follow the lower edge of the energy management layer and may be inwardly offset from the inner surface. At least two prongs may be coupled to, and slidably extend between, the flexible forehead strap and the at least two coupling points, respectively. A continuous gap between the inner surface and the flexible forehead strap may be provided by an offset created by the at least two prongs, the at least two prongs flexibly maintaining the offset.

A helmet for protecting the head of a user may include at least one liner comprising an inner surface and a lower edge surrounding the inner surface at a helmet opening configured to receive a head of a helmet wearer. At least two coupling points may be located on the inner surface proximal to the lower edge. At least one flexible forehead strap may follow the lower edge of the energy management layer and may be inwardly offset from the inner surface. At least two prongs may be coupled to, and slidably extend between, the flexible forehead strap and the at least two coupling points, respectively. A continuous gap between the inner surface and the flexible forehead strap may be provided by an offset created by the at least two prongs, the at least two prongs flexibly maintaining the offset.

An airborne pathogen extraction system that provides for continuous airborne pathogen particle extraction from a specifically targeted area in a room or a specifically targeted area proximate to a user. The pathogenic particles are filtered and/or disinfected before the air is returned proximate to the originating location, or are directed an area away from the user(s). The airborne pathogen extraction systems and methods lower the chances of contagion or infection from airborne pathogens, such as viruses.

A helmet for a rider of an on-road or off-road vehicle protects the rider's head. The helmet also may include various features for enhancing the riding experience. For example, the helmet may include electrical connections for power various features of the helmet. Additionally, the helmet may include earmuffs which reduce road or other noises during operation of the vehicle.

A headgear apparatus having a shell, an air flow structure, a thermoelectric system, a connector, and a condensate wick. The air flow structure is coupled to the shell and the thermoelectric system is configured to produce a stream of air. The thermoelectric system has a housing having at least one air inlet, a first and a second air outlet, a least one blower and at least one thermoelectric heat pump. The first air outlet provides the stream of cooled air to the air flow structure and the second air outlet vents hot air produced by the heat pump to outside the apparatus. The connector is configured to connect the first air outlet of the thermoelectric system housing to the air flow structure and the condensate wick is configured to collect condensation formed by the heat pump and evaporate the collected condensation using the hot air produced by the heat pump.