Abstract: An impact-absorbing compressible member includes a thin-walled enclosure defining an inner chamber containing a volume of fluid such as air. The enclosure includes one or more orifices which as sized and positioned to allow air to vent from the inner chamber in response to an impact on the member and to refill the inner chamber in response to an impact on the member and to refill the inner chamber after the impact is released. The enclosure is formed of a blow-molded thermoplastic elastomer (TPE) material which is economical to make and durable in use. The compressible members can be used as building blocks for impact-absorbing shell structures for a wide variety of applications such as helmets, protective pads for body parts, sports arena wall padding, vehicular bumpers, dashboards and the like. The compressible member has impact-absorbing advantages over conventional foams currently used in those applications.

Abstract: An impact-absorbing compressible member includes a thin-walled enclosure defining an inner chamber containing a volume of fluid such as air. The enclosure includes one or more orifices which as sized and positioned to allow air to vent from the inner chamber in response to an impact on the member and to refill the inner chamber in response to an impact on the member and to refill the inner chamber after the impact is released. The enclosure is formed of a blow-molded thermoplastic elastomer (TPE) material which is economical to make and durable in use. The compressible members can be used as building blocks for impact-absorbing shell structures for a wide variety of application such helmets, protective pads for body parts, sports arena wall padding, vehicular bumpers, dashboards and the like. The compressible member has impact-absorbing advantages over conventional foams currently used in those applications.

Abstract: An impact-absorbing protective structure comprises one or more compressible cells. Each cell is in the form of a thin-walled plastic enclosure defining an inner, fluid-filled chamber with at least one small orifice through which fluid resistively flows. Each cell includes an initially resistive mechanism that resists collapse during an initial phase of an impact and that then yields to allow the remainder of the impact to be managed by the venting of fluid through the orifice. The initially resistive mechanism may be implemented by providing the cell with semi-vertical side walls of an appropriate thickness or by combining a resiliently collapsible ring with the cell. After the initially resistive mechanism yields to the impact, the remainder of the impact is managed by the fluid venting through the orifice. The cell properties can be readily engineered to optimize the impact-absorbing response of the cell to a wide range of impact energies.

Abstract: A hydration container includes a bottle having a selected volume and a bottle cap which includes a drinking nozzle. An indicator bearing a sequence of numbers is moveably mounted to the cap so that any one of the numbers in the sequence may be positioned opposite an index on the cap. Preferably, the numbers on the indicator are coordinated with numbers in a recommended daily fluid intake table present on the bottle. Thus when the user increments or decrements the indicator each time the bottle is refilled with fluid, the container will indicate in real time the user's approximate actual fluid consumption versus the intake goal indicated by the table.

Abstract: Headgear of the type having an outer layer and a relatively flexible inner layer includes a belt which extends around the inner layer within the outer layer, and a tensioning device which can tension the belt causing the belt to urge the inner layer inward away from the outer layer and against the helmet wearer's head. Preferably, the tensioning device includes a chinstrap assembly releasably fastened to the front of the helmet.

Abstract: An impact-absorbing protective structure comprises one or more compressible cells. Each cell is in the form of a thin-walled plastic enclosure defining an inner, fluid-filled chamber with at least one small orifice through which fluid resistively flows. Each cell includes an initially resistive mechanism that resists collapse during an initial phase of an impact and that then yields to allow the remainder of the impact to be managed by the venting of fluid through the orifice. The initially resistive mechanism may be implemented by providing the cell with semi-vertical side walls of an appropriate thickness or by combining a resiliently collapsible ring with the cell. After the initially resistive mechanism yields to the impact, the remainder of the impact is managed by the fluid venting through the orifice. The cell properties can be readily engineered to optimize the impact-absorbing response of the cell to a wide range of impact energies.

Abstract: A protective structure for protecting a body from impact includes an inner layer of relatively flexible material, and which has a plurality of spaced-apart openings extending between opposite faces thereof and a corresponding plurality of protective units. Each protective unit includes a thin-wall, collapsible, fluid-tight enclosure with a volume of fluid filling the enclosure and at least one orifice in an enclosure wall that resistively vents fluid from the enclosure at a selected rate in response to an impact on the structure. The plurality of protective units are received in the plurality of openings so that corresponding first segments of the enclosures projecting form one face of the first layer together form a middle layer. Cooperating surfaces on the inner layer and each protective unit retain each protective unit in the corresponding opening in the inner layer. A method of making the protective units is also disclosed.

Abstract: An impact-absorbing protective structure comprises one or more compressible cells. Each cell is in the form of a thin-walled plastic enclosure defining an inner, fluid-filled chamber with at least one small orifice through which fluid resistively flows. Each cell includes an initially resistive mechanism that resists collapse during an initial phase of an impact and that then yields to allow the remainder of the impact to be managed by the venting of fluid through the orifice. The initially resistive mechanism may be implemented by providing the cell with semi-vertical side walls of an appropriate thickness or by combining a resiliently collapsible ring with the cell. After the initially resistive mechanism yields to the impact, the remainder of the impact is managed by the fluid venting through the orifice. The cell properties can be readily engineered to optimize the impact-absorbing response of the cell to a wide range of impact energies.

Abstract: A protective headgear compression member includes a hollow compression cell having a top wall, a bowed side wall and a bottom wall and a liner element secured to that bottom wall coaxially to said cell. The liner element is composed of a flexible envelope substantially filled with resilient material and the envelope is secured to the bottom wall via an axially flexible connection to prevent the bottoming out of the liner element against the bottom wall of the cell.

Abstract: A hydration container includes a bottle having a selected volume and a bottle cap which includes a drinking nozzle. An indicator bearing a sequence of numbers is moveably mounted to the cap so that any one of the numbers in the sequence may be positioned opposite an index on the cap. Preferably, the numbers on the indicator are coordinated with numbers in a recommended daily fluid intake table present on the bottle. Thus when the user increments or decrements the indicator each time the bottle is refilled with fluid, the container will indicate in real time the user's approximate actual fluid consumption versus the intake goal indicated by the table.

Abstract: A chinstrap assembly for a helmet having opposite sides and a face opening includes a chin protector and first and second straps extending from the opposite sides of the helmet to opposite ends of the chin protector. A cinching device at each end of the chin protector receives an outgoing segment of the corresponding strap, grips the strap and redirects an incoming segment thereof so that by applying a lateral/rearward tensile force to that incoming segment, the length of the outgoing segment may be set to a selected value which is maintained when the tensile force is relieved.

Abstract: Headgear of the type having an outer layer and a relatively flexible inner layer includes a belt which extends around the inner layer within the outer layer, and a tensioning device which can tension the belt causing the belt to urge the inner layer inward away from the outer layer and against the helmet wearer's head. Preferably, the tensioning device includes a chinstrap assembly releasably fastened to the front of the helmet.

Abstract: An impact-absorbing compressible member includes a thin-walled enclosure defining an inner chamber containing a volume of fluid such as air. The enclosure includes one or more orifices which as sized and positioned to allow air to vent from the inner chamber in response to an impact on the member and to refill the inner chamber in response to an impact on the member and to refill the inner chamber after the impact is released. The enclosure is formed of a blow-molded thermoplastic elastomer (TPE) material which is economical to make and durable in use. The compressible members can be used as building blocks for impact-absorbing shell structures for a wide variety of application such helmets, protective pads for body parts, sports arena wall padding, vehicular bumpers, dashboards and the like. The compressible member has impact-absorbing advantages over conventional foams currently used in those applications.

Abstract: A multilayer shell for use in the construction of protective headgear, the shell including an outer layer, an inner layer, a middle layer disposed between the outer and inner layer which resiliently compresses in response to an impact to the outer layer, and an internal liner disposed inwardly of the inner layer. The middle layer includes a plurality of compressible members, which resiliently compress to absorb the energy of a direct impact to the outer layer and resiliently shear with respect to the inner layer in response to a tangential impact to the outer layer. The inner layer includes an open configuration, which reduces the weight of the shell, provides for greater heat ventilation from the head of the user, and permits for visualization of the compressible elements. The internal liner is formed from contourable materials which enhance user fit and comfort and reduce the weight of the protective headgear without compromising user safety.

Abstract: An impact-absorbing protective structure comprises one or more compressible cells. Each cell is in the form of a thin-walled plastic enclosure defining an inner, fluid-filled chamber with at least one small orifice through which fluid resistively flows. Each cell includes an initially resistive mechanism that resists collapse during an initial phase of an impact and that then yields to allow the remainder of the impact to be managed by the venting of fluid through the orifice. The initially resistive mechanism may be implemented by providing the cell with semi-vertical side walls of an appropriate thickness or by combining a resiliently collapsible ring with the cell. After the initially resistive mechanism yields to the impact, the remainder of the impact is managed by the fluid venting through the orifice. The cell properties can be readily engineered to optimize the impact-absorbing response of the cell to a wide range of impact energies.