A rigid and aerodynamic device for external protection for motorcycle and bicycle vehicles with 2 to 4 wheels. This removable dome type device is formed by multiple overlapping panels that form an oval shell type structure, which protects both the vehicle and the pilot from external weather conditions and physical damage in the event of a collision.

A catcher's mask comprises a two-piece plastic shell composed of a rigid front shell and a rigid rear shell. The front and rear shells are connected by a strap harness attached to the front shell and have padding assemblies. The front shell has ventilation holes including ear holes positioned over the wearer's ears and a full jaw protector integrally formed as part of front shell. A wire faceguard is removably attached to the front shell extending over the ear holes. A top upper member of the faceguard comprises a center bar part, a left side bar part bent upwardly with respect to the center bar part to form a left eyebrow area, and a right side bar part bent upwardly with respect to the center bar part to form a right eyebrow area.

A catcher's mask comprises a two-piece plastic shell composed of a rigid front shell and a rigid rear shell. The front and rear shells are connected by a strap harness attached to the front shell and have padding assemblies. The front shell has ventilation holes including ear holes positioned over the wearer's ears and a full jaw protector integrally formed as part of front shell. A wire faceguard is removably attached to the front shell extending over the ear holes. A top upper member of the faceguard comprises a center bar part, a left side bar part bent upwardly with respect to the center bar part to form a left eyebrow area, and a right side bar part bent upwardly with respect to the center bar part to form a right eyebrow area.

A helmet can comprise an upper-body and a lower-body nested within the upper-body. An opening can be formed within a front portion of the helmet and disposed between an outer surface of the upper-body and an inner surface of the lower-body. A first magnet can be encased within the upper-body or the lower-body and adjacent the opening. A shield can comprise a shield mount and a second magnet coupled to the shield mount that is sized to fit within the opening and to be releasably coupled to the first magnet. The first magnet and the second magnet can be self-aligned in direct alignment with eyes of a user. A third magnet can be disposed above the first magnet and aligned with the second magnet on an outer surface of the helmet out of sight from eyes of the user.

The present invention is a deployable segmented sport equipment for reducing the impact force on sport equipment worn by a user by using deployable panels. The invention has a body defining a recess, and a panel movable within the recess. The panel includes a panel magnetic element capable of being acted upon by a magnetic force. An electromagnet is provided producing an attractive or repulsive magnetic force on the panel magnetic element. A proximity sensing device capable of sensing an object at a distance from the deployable segmented sport equipment is provided with the body. An electronic controller unit receives signals from the proximity sensing device and controls operation of the controllable magnetic element so as to deploy or retract the panel from or into the recess. The panel being deployed prior to impact with the object, with the repulsive force being controlled to absorb the impact force after impact.

The present invention is a deployable segmented sport equipment for reducing the impact force on sport equipment worn by a user by using deployable panels. The invention has a body defining a recess, and a panel movable within the recess. The panel includes a panel magnetic element capable of being acted upon by a magnetic force. An electromagnet is provided producing an attractive or repulsive magnetic force on the panel magnetic element. A proximity sensing device capable of sensing an object at a distance from the deployable segmented sport equipment is provided with the body. An electronic controller unit receives signals from the proximity sensing device and controls operation of the controllable magnetic element so as to deploy or retract the panel from or into the recess. The panel being deployed prior to impact with the object, with the repulsive force being controlled to absorb the impact force after impact.

A sport helmet for protecting a head of a wearer, such as a hockey, lacrosse or football player. The sport helmet includes an outer shell with an internal side and an external side and an inner pad mounted to the internal side of the outer shell for absorbing shocks when the sport helmet is impacted. The inner pad includes a core of polymeric cellular material with a body of expanded polymeric microspheres and a molded covering being molded onto the core of polymeric cellular material.

A pressure attenuating helmet is provided including separate plates having a plate thickness, an outer surface, under surface, and adjacent edges. The plates joined along the adjacent edges to the other ones of the plurality of plates, forming a helmet shell. Perforated flanges formed along the under surface at the adjacent edges of the plates, the flanges formed inwardly along a line from the adjacent edge of each of the plates extending in the direction of the thickness of the plates. Perforation in the flanges spaced equidistantly in an array along a long direction of the flanges, enabled to accept sutures and aligned flange-to-flange. A network of elastomer splines shaped and positioned to separate the adjacent plates both along the adjacent edges and the perforated flanges. Sutures through the perforations securing the plates together along the adjacent edges and foam cushions are provided between the plates and a wearers head.

A pressure attenuating helmet is provided including separate plates having a plate thickness, an outer surface, under surface, and adjacent edges. The plates joined along the adjacent edges to the other ones of the plurality of plates, forming a helmet shell. Perforated flanges formed along the under surface at the adjacent edges of the plates, the flanges formed inwardly along a line from the adjacent edge of each of the plates extending in the direction of the thickness of the plates. Perforation in the flanges spaced equidistantly in an array along a long direction of the flanges, enabled to accept sutures and aligned flange-to-flange. A network of elastomer splines shaped and positioned to separate the adjacent plates both along the adjacent edges and the perforated flanges. Sutures through the perforations securing the plates together along the adjacent edges and foam cushions are provided between the plates and a wearers head.

A type variable helmet includes a half face unit formed to cover an upper part of a user's head, and an under face unit detachably attached to a lower part of the half face unit and configured to cover a lower part of the head of the user.