A system and method for a protection helmet which has exterior moveable tiles to move upon impact and then retract to their original placements. The system prolongs the impact time by de-accelerating it and minimizing its damaging effects by spreading out the impact force over a larger surface area. A system and method for a helmet's face mask to absorb impact and return back to its original state whether impacted on its bars, interior/exterior assembly, or any part of the face mask. A system and method for a football helmet's padding to be multi-layered and have multiple ancillary cavities that compress and retract back to their original state.

A helmet that includes a subliner shell comprised of a hard impact resistant material. The shell has inner and outer surfaces. A subliner element having a first foam pad having a top surface and a bottom surface. The top surface is attached to the inner surface of the shell. A second foam pad is constructed of an energy absorbing viscoelastic foam material that is radially partitioned into individual segments. The segments are nested with respect to each other such that the nested segments have side surfaces in slidable direct contacting engagement with side surfaces of adjacent nested segments. The second foam pad has a top surface attached to the bottom surface of the first foam pad. A third foam pad has a top surface and a bottom surface, with the top surface of the third foam pad being attached to the bottom surface of the second foam pad.

The present invention provides an apparatus to dissipate and attenuate mechanical waves which travel through a human brain upon blunt trauma. The apparatus comprises a pressurizable and ventable outer balloon shell encasing an inner hard shell. The pressurizable and ventable outer balloon shell is configured to release a pressurized gas to the atmosphere upon an impact to said pressurizable and ventable outer balloon shell. The apparatus is configured to enhance efficiency in reduction of an amplitude of the mechanical waves of the blunt trauma delivered to the human brain and to disrupt doubling-up of mechanical waves in a pressure zone inside the pressurizable and ventable outer balloon shell. The apparatus is configured to ventilate the pressurizable and ventable outer balloon shell and the inner hard shell.

A helmet comprising a first protective layer, the first protective layer comprising at least one accessory mount portion for receiving an accessory mount or an accessory, the at least one accessory mount portion being arranged integrally as a part of the first protective layer and configured to disintegrate from the rest of the first protective layer in response to a mechanical impact to the at least one accessory mount portion for preventing the accessory mount portion and/or the accessory from penetrating through the helmet.

A plate for an article of footwear includes a substrate, a first strand portion attached to the substrate via first stitching, and a second strand portion disposed on the first layer. The first strand portion includes first segments that each extend between two different locations along the substrate to form a first layer on the substrate. The second strand portion includes second segments that each extend between two different locations along the substrate to form a second layer on the first layer.

There is described a protective helmet for sporting use, in particular for use while skiing, comprising an external cap-like structure (2) of a resiliently flexible material, an internal cap-like structure (3) which is received in the external cap-like structure (2) and which comprises a plurality of cap portions (5a, 5b) of expanded material which are structurally independent of each other and which are mutually interconnected with limited relative mobility between contiguous portions, the internal cap-like structure (3) delimiting a cavity (4) which is open towards the outer side and which is capable of receiving the head of the user, and at least one device (6) for absorbing energy as a result of forces of impacts on the helmet, which device is interposed between the internal cap-like structure (3) and external cap-like structure (2). The device comprises at least one flexible member (12) which includes a plate-like portion (12a) having a transverse thickness (13) which is defined between a pair of opposing surfaces (13a, 13b) and a plurality of reliefs (14) which project in the same direction from one of the surfaces (13a, 13b), the reliefs (14) extending with a tapering formation in the direction of the free end (14a) thereof, in the direction away from the portion (12a), and the at least one member (12) being fixedly joined to the external cap-like structure (12) in the region of the respective free ends (14a) of the reliefs (14) and the internal cap-like structure (3) in the region of the surface (13a) of the opposite portion (12a) to the portion which has the reliefs.

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.

An impact-absorbing coating may provide an impact-absorbing material and an outer skin. The impact-absorbing coating may be applied to an object and may reduce injuries that may be sustained by a user of the object to which the coating is applied. The impact-absorbing material may have a thickness of approximately ⅜″. The outer skin may be provided over the impact-absorbing material and may provide a paintable and decoratable finish.

A helmet, has a shell that includes a first portion and a second portion. The first portion has first, second and third layers. The second layer is positioned between the first layer and the third layer. The second layer is less dense than the first layer and the third layer. The second portion has a plurality of enemy dissipaters. Each of the energy dissipaters has a rod that extends in a spiraling manner from a fixed end to a free end. The rod tapers continuously along its length from the fixed end to the free end so that the fixed end exhibits a larger internal cross sectional area than the free end. The free end is capable of vibrating when the helmet is impacted by an object in order to dissipate impact energy.

A compressible liner for a helmet or other apparatus subject to shock loading comprises three substantially co-extensive layers mutually engaged by respective cone-like protuberances and cone-like recesses. The intermediate layer is of a different compressibility and provides for de-coupling of the layers in an oblique impact.