A skate or other footwear, comprising a skate boot or other foot-receiving structure for receiving a user's foot and possibly one or more other components, such as a skating device below the skate boot to engage a skating surface. At least part of the skate 5 boot or other foot-receiving structure and optionally at least part of one or more other components (e.g., the skating device) may be constructed from one or more materials (e.g., foams) molded by flowing during a molding process (e.g., injection molding or casting). This may allow useful performance characteristics (e.g., reduced weight, better comfort, etc.) and cost-effective manufacturing. One or more parts of the skate 0 boot or other foot-receiving structure (e.g., a toe cap, a tendon guard, etc.) may be reinforced to enhance impact resistance, durability, and/or other aspects thereof. The skate boot or other foot-receiving structure may be customized by being thermoformed on the user's foot more efficiently.

In one aspect, the present disclosure provides a knitted component. The knitted component may have a forefoot portion with a top layer and a bottom layer, where a void is formed between the top layer and the bottom layer, and where the top layer is secured to the bottom layer via at least one common knit structure. A heel area may extend from the bottom layer of the forefoot portion in a longitudinal direction and may be secured to the bottom layer of the forefoot portion via at least one common knit structure. At least one extension may extend from the heel area in a second direction, the second direction being different than the longitudinal direction.

Disclosed is a waterproof shoe with an improved ventilation mechanism, designed to circulate air from the outside environment through the shoe in order to provide convective cooling to a wearer's foot. In a desired embodiment, the shoe may incorporate a pump-ventilation mechanism which, coupled with airflow channels incorporated in the upper, acts to establish continuous substantially one-way airflow through the shoe in a heel-to-toe direction while a user walks.

The present invention relates to safety shoes worn on the feet of a wearer. In particular, the present invention relates to safety shoes in which space for the little toe to move is secured through the inner space of a protrusion portion, and which can thus prevent foot pain and injury and increase the comfort of a wearer.

A protective device, in particular a safety toe cap, for use with an article of footwear is provided. A safety toe cap of the present technology includes one or more strain hardened portions configured to strengthen or reinforce sections of the safety toe cap against impact, particularly from above. The one or more strain hardened portions have increased strength in relation to adjacent non-strain hardened portions and therefore may maintain adequate protection of a user's toes and foot, while simultaneously allowing for lowered material use and a device with a lightweight, streamlined profile.

A ballet pointe shoe prior to first use by a dancer is disclosed that comprises a toebox, a platform, a heel, an upper, a shank, a sole, a curve on the shank between the heel and the toebox positioned to include a preferred break point. The first curve follows an arch of the dancer's foot when the dancer is wearing the ballet pointe shoe. The ballet pointe shoe also comprises a flexible support member positioned at the curve that elastically sets the shank in the curve at the time of manufacturing of the ballet pointe shoe. The flexible support member enables the ballet pointe shoe to flatten when weight is applied and elastically return to the curve.