Embodiments are disclosed for a clasp including a top loop having a catch end, a bottom loop coupled to the top loop, the catch end positioned above the bottom loop at a first side of the clasp, and a depression at a second side of the clasp, opposite the first side, a thinnest part of the second side of the clasp being formed by the depression.

The invention is directed to a headwear piece with a body to engage a wearer's head with the headwear in an operative state. First and second accessories are provided and are interchangeably placeable in an opening in a wall on the body to be exposed for viewing in conjunction with another part of the body. The interchangeable accessories may have different appearances and/or functions. The invention is also directed to a method of configuring a headwear piece including the step of directing an accessory into an opening in the body wall, removing the same, and replacing it with another accessory.

An adjustable hat has a first attachment member and a strap connection member that cooperate to allow a strap to be easily connected and removed from the adjustable hat. The two elements may also be reversed with regard to construction and attachment to parts of the hat. The two members can be disengaged from one another without having to access them in the space formed by the hat and the band.

An adjustable hat has a first attachment member and a strap connection member that cooperate to allow a strap to be easily connected and removed from the adjustable hat. The two elements may also be reversed with regard to construction and attachment to parts of the hat. The two members can be disengaged from one another without having to access them in the space formed by the hat and the band.

It is common for the organizers of endurance sports to provide aid stations along the route where participants may receive water to prevent dehydration. To reduce waste at these events, organizers encourage cupless races that requiring participants to carry their own vessels. The present invention comprises a hat with a visor, such as a baseball style cap, with a collapsible drinking vessel integrated into the visor. During the course of the race, a runner may encounter a water stop and require a vessel to contain the liquid for immediate consumption. At such time the runner can simply remove their hat and configure the vessel to the open position to receive the liquid. Post-consumption the vessel is configured back to the closed position and becomes seamlessly integrated into the visor with no negative effects upon the runner.

It is common for the organizers of endurance sports to provide aid stations along the route where participants may receive water to prevent dehydration. To reduce waste at these events, organizers encourage cupless races that requiring participants to carry their own vessels. The present invention comprises a hat with a visor, such as a baseball style cap, with a collapsible drinking vessel integrated into the visor. During the course of the race, a runner may encounter a water stop and require a vessel to contain the liquid for immediate consumption. At such time the runner can simply remove their hat and configure the vessel to the open position to receive the liquid. Post-consumption the vessel is configured back to the closed position and becomes seamlessly integrated into the visor with no negative effects upon the runner.

Helmet (1) comprising: a shell (2); a head receiving system (3); at least one cellular energy-absorbing structure (4) comprising a plurality of interconnected open-cells (9) configured to absorb energy by deforming during an impact on the shell (2); at least one clamping device (5) comprising a base (6) and a counter-base (7) connected to each other via a collapsible body (8) sized so as to enter one or more open-cells (9) of the cellular energy-absorbing structure (4); wherein the base (6) or the counter-base (7) of the clamping device (5) comprises a low friction part (26) configured to enable a relative movement of the cellular energy-absorbing structure (4) and the clamping device (5) with respect to the shell (2).

Helmet (1) comprising: a shell (2); a head receiving system (3); at least one cellular energy-absorbing structure (4) comprising a plurality of interconnected open-cells (9) configured to absorb energy by deforming during an impact on the shell (2); at least one clamping device (5) comprising a base (6) and a counter-base (7) connected to each other via a collapsible body (8) sized so as to enter one or more open-cells (9) of the cellular energy-absorbing structure (4); wherein the base (6) or the counter-base (7) of the clamping device (5) comprises a low friction part (26) configured to enable a relative movement of the cellular energy-absorbing structure (4) and the clamping device (5) with respect to the shell (2).

A cushion assembly for a wearable electronic device includes a polymer structure and foam. The polymer structure can include a laminar portion defining a first aperture and a second aperture, a first tube structure extending from a peripheral edge of the first aperture, and a second tube structure extending from a peripheral edge of the second aperture. The foam can be disposed between the first tube structure and the second tube structure.

A cushion assembly for a wearable electronic device includes a polymer structure and foam. The polymer structure can include a laminar portion defining a first aperture and a second aperture, a first tube structure extending from a peripheral edge of the first aperture, and a second tube structure extending from a peripheral edge of the second aperture. The foam can be disposed between the first tube structure and the second tube structure.