Systems, methods, and devices for protecting a user head are provided.

In one example, a computer-implemented method can comprise receiving, by a processor operatively coupled to a helmet device, helmet data comprising at least one of statistical data, statistical models, or natural intelligence algorithms. The computer-implemented method can also comprise inflating, by a gas delivery system of the helmet device, a pressure chamber element of the helmet device based on the helmet data. Furthermore, the computer-implemented method can comprise scanning, by a sensor system of the helmet device, surrounding environments of the helmet device for object data.

An airbag-helmet having a protective main body (10) having an inner surface pointing towards the head of the user when the helmet is worn, and an outer surface pointing away from the head of the user when the helmet is worn. Further, an inflator (40) and an airbag (30) being attached to the protective main body (10) at least indirectly and being in fluid communication to the inflator (40) are provided. The airbag (30) includes at least one tubular protection section (30a, 30b, 30c) extending from the outer surface of the protective main body (10) when the airbag (30) is filled with gas by the inflator (40).

A helmet may be worn on a head of a wearer having a shape and a contour. The helmet may have a plurality of layers coupled together including an energy management layer and an outer shell layer disposed over the energy management layer. The plurality of layers are integrally formed with one another, and the energy management layer is configured to absorb and dissipate energy received by the helmet during an impact by an external force. The outer shell layer is configured to disperse and dissipate impact energy from the external force. Each of the plurality of layers has a density and a geometry, and the density or geometry of at least one layer differs from the density or geometry of at least another layer.

There is disclosed a neck support apparatus for a contact sports helmet. In an embodiment, the neck support apparatus comprises an inflatable neck support comprises at least one air bladder normally in a deflated state, the inflatable neck support adapted to attach to the contact sports helmet; a first air supply; and at least one impact sensor adapted to trigger airflow from the first air supply into the at least one air bladder upon detection of an impact force exceeding a predetermined limit. The inflatable neck support is adapted to attach to a base portion of the contact sports helmet normally adjacent to a player's neck when worn, and inflate the at least one air bladder in a manner to deploy the inflatable neck support and help brace the player's neck immediately after an impact.

An inflatable component for a protective headgear according to various embodiments can include an inner surface facing an outer shell of the protective headgear. One or more inflatable structures may be provided between the inner surface and an outer surface of the inflatable component. A structure of the inflatable structure is designed having a pre-determined cross-sectional profile. The pre-determined cross-sectional profile of the inflatable structure is configured based on a head injury criteria. In various embodiments, the system and method can include an energy absorption component. In other embodiments, the system and method can include a reactive component.

An airbag deployment system includes a helmet, a torso protection assembly, and an airbag assembly. The airbag assembly is coupled to one of the helmet and the torso protection assembly and includes an airbag, an inflation device configured to inflate the airbag, and a first coupling device. The first coupling device is configured to couple to a second coupling device provided on the other of the helmet and the torso protection assembly upon inflation of the airbag. The coupling resists relative movement between the helmet and the torso protection assembly.

A helmet (10) comprising: an airbag (1) having an airbag wall surrounding an internal cavity; and one or more tensional reinforcements (2) extending through the internal cavity between different points on the airbag wall.

A protective helmet (1) comprises a cap (10) adapted to be fitted on and around the head of a user, wherein the cap (10) comprises an external shell (101) and at least one housing seat (102) for an airbag (2). At the at least one housing seat (102), the external shell (101) comprises at least a movable portion (103; 103a, 103b, 103c), which is permanently connected to a remaining fixed portion of the external shell (101) and is movable between a closed position, in which it covers the at least one housing seat (102) and an airbag (2) housed therein in a deflated condition, and an open position, in which it releases at least partially the at least one housing seat (102) allowing the airbag (2) to expand outside the cap (10) in an inflated condition.

A protective suit comprising: a head portion comprising a fluid-filled head portion chamber; a neck portion releasably secured to the head portion and comprising a neck portion chamber, wherein the fluid-filled head portion chamber is in fluid communication with the neck portion chamber; and a torso portion releasably secured to the neck portion and comprising a fluid-filled torso portion chamber, wherein the fluid-filled torso portion chamber is in fluid communication with the neck portion chamber; and wherein the head portion is configured to be disposed on a head of the wearer, the neck portion is configured to be disposed in an arcuate manner around a neck of the wearer, and the torso portion is configured to be disposed on a torso of the wearer, such that when a force of an impact is received on the head portion, fluid from the fluid-filled head portion chamber is transferred into the neck portion chamber to support the neck of the wearer against translational and rotational forces imparted to the wearer, and when a force of an impact is received on the torso portion, fluid from the fluid-filled torso portion chamber is transferred to the neck portion chamber to support the neck of the wearer against translational and rotational forces imparted to the wearer.

Systems, methods, and devices for protecting a user head are provided. In one example, a computer-implemented method can comprise receiving, by a processor operatively coupled to a helmet device, helmet data comprising at least one of statistical data, statistical models, or natural intelligence algorithms. The computer-implemented method can also comprise inflating, by a gas delivery system of the helmet device, a pressure chamber element of the helmet device based on the helmet data. Furthermore, the computer-implemented method can comprise scanning, by a sensor system of the helmet device, surrounding environments of the helmet device for object data.