A device for holding a shin guard includes a looped band, two straps attached to the band and converging to an intersection, and a first surface of a patch attached to the intersection with an adhesive attached to a second surface of the patch. The band is positioned below the knee and above the calf muscle. The adhesive attaches the patch to a shin guard positioned on the shin. A sock is donned to a height covering the shin guard and the band.

A method for forming a plate includes attaching a first strand portion to a flexible substrate to form a first layer on the substrate and positioning a second strand portion on the first layer to form a second layer on the first layer in a plurality of discrete regions on the substrate. The method also includes positioning a plurality of traction elements into corresponding cavities formed into a first mold surface and positioning the substrate on the first mold surface to change a shape of the substrate. At least one of heat and pressure is applied to the first strand portion, the second strand portion, the substrate, and the traction elements to conform the substrate to the shape of the first mold surface and form the traction elements into the substrate at each of the discrete regions. The method also includes incorporating the substrate into an article of footwear.

The present disclosure is directed to articles that include a cured coating that includes a matrix of crosslinked polymers and optionally a colorant (e.g., pigment particles or dye or both). The cured coating can include a matrix of crosslinked polymers. The cured coating is a product of crosslinking a coating composition comprising uncrosslinked polymers (e.g., a dispersion of uncrosslinked polymers in a carrier to form the matrix of crosslinked polymers), wherein the uncrosslinked polymers are crosslinked to form the matrix of crosslinked polymers. The matrix of crosslinked polymers can be elastomeric. The present disclosure is also directed to articles including these bladders, methods of forming these bladders, and methods of making articles including these bladders, where the bladders include the cured coating.

The present disclosure is directed to articles that include one or more coated fiber(s) (i.e., fiber(s) with a cured coating disposed thereon), where the coating includes a matrix of crosslinked polymers and optionally a colorant (e.g., pigment particles or dye or both). The cured coating is a product of crosslinking a coating composition including uncrosslinked polymers (e.g., a dispersion of uncrosslinked polymers in a carrier, wherein the uncrosslinked polymers are crosslinked to form the matrix of crosslinked polymers). The present disclosure is also directed to articles including the coated fibers, methods of forming the coated fibers and articles, and methods of making articles including the coated fibers.

Partial bespoke protective sports equipment to be worn by a player engaged in a sporting activity is provided. The partial bespoke sports equipment system includes methods for acquiring, storing and processing a player's unique data, namely the anatomical features of the body part against which the partial bespoke equipment is worn. The systems also includes methods of using the player's unique data to manufacture the partial bespoke protective equipment with a partially custom formed internal padding. The system and method allows for the design and manufacture of partial bespoke protective sports equipment that is purposely designed and manufactured to substantially match the anatomical specifications of the player's body part.

A method for forming a plate includes attaching a first strand portion to a flexible substrate to form a first layer on the substrate and positioning a second strand portion on the first layer to form a second layer on the first layer in a plurality of discrete regions on the substrate. The method also includes positioning a plurality of traction elements into corresponding cavities formed into a first mold surface and positioning the substrate on the first mold surface to change a shape of the substrate. At least one of heat and pressure is applied to the first strand portion, the second strand portion, the substrate, and the traction elements to conform the substrate to the shape of the first mold surface and form the traction elements into the substrate at each of the discrete regions. The method also includes incorporating the substrate into an article of footwear.

An article of apparel includes a padding system that dynamically changes configuration in response to an impending impact. The padding system may change from a state that has a high flexibility and offers low protection from impact to a state that has a low flexibility and offers increase protection from impact. The system may use a filament to constrict a plurality of padding elements together in order to increase the overall stiffness of the pad. The filament may be tightened and loosened by a spool. The spool may receive a signal regarding the impending impact from a sensor that is a part of the article of apparel, or a sensor that is separate from it.

Provided is an apparatus for managing a player with a guard including a sensor sensing a vital information of a player to calculate an injury risk of the player to thereby manage a condition of the player, the apparatus including: a communication unit receiving the vital information from the guard and transmitting the injury risk to the guard; a memory storing a program calculating the injury risk to manage the condition of the player; and a processor connected to the communication unit and the memory to execute an operation implemented by the program, in which the program may include instructions using the vital information and pre-stored vital recovering ability data of the player to calculate the injury risk of the player.

A partial bespoke protective sports equipment to be worn by a player engaged in a sporting activity is provided. The partial bespoke sports equipment system includes methods for acquiring, storing and processing a player's unique data, namely the anatomical features of the body part against which the partial bespoke equipment is worn. The systems also includes methods of using the player's unique data to manufacture the partial bespoke protective equipment with a partially custom formed internal padding. The system and method allows for the design and manufacture of partial bespoke protective sports equipment that is purposely designed and manufactured to substantially match the anatomical specifications of the player's body part.

An impact protection device includes a first shell configured to be disposed on a body portion of a user, a second shell spaced at a distance from the first shell, and a set of elastomeric members spanning the distance between the first shell and the second shell. Each elastomeric member includes a first end and an opposing second end, each first end comprises a first end portion disposed within a corresponding opening defined by the first shell and a terminal portion disposed against an inner wall of the first shell and each second end connected to the second shell. The set of elastomeric members are configured to stretch between the first shell and the second shell in response to a translation of the second shell relative to the first shell and at a location that is substantially opposite to an impact receiving location of the second shell.