An insole (10) includes a body portion (11) having a recess (16) therein. The recess (16) is configured to receive a medically treated insert (18) which is removably attached to the body portion (11).

A method for making a wadding strip element, in particular to be used for making paddings of clothing articles such windcheaters and/or shoes, the wadding material being adapted for depositing thereon at least an auxiliary material, comprises at least the further step of subjecting the wadding strip element to a combined chemical, mechanical and thermal treatment process adapted to increase the mechanical strength of the wadding strip element and reduce its porosity, thereby allowing the deposit on at least a surface of at least a printing material or an auxiliary material thereby the deposited material only slightly penetrates the wadding material to create on the surface a predetermined printed pattern configuration adapted to withstand washing operations and inevitable wear, without decomposing.

An article of footwear includes an upper and a midsole coupled with the upper. The midsole includes at least a portion of a solid resilin material comprising a cross-linked recombinant resilin and a polar nonaqueous solvent.

An article of footwear includes an outsole that has a bottom portion and a medial arch portion extending upward from the bottom portion. The medial arch portion of the outsole has a base and a plurality of protrusions extending outward from the base. The plurality of protrusions are arranged in vertical alignments. In each one of the vertical alignments, at least one protrusion of the plurality of protrusions is closer to the bottom portion and has a larger effective diameter than at least one other protrusion of the plurality of protrusions that is further from the bottom portion.

The present disclosure provides an intelligent insole module. The intelligent insole module is placed inside an insole for tracking a user's exercise behavior. The intelligent insole module comprises a sensing unit, a wireless unit, a control unit and a power supply unit. The sensing unit detects an exercise information. The wireless unit transmits the exercise information. The control unit is connected to the sensing unit and the wireless unit, and controls the sensing unit and the wireless unit. The power supply unit is connected to the control unit, and supplies electricity to the intelligent insole module. The power supply unit comprises a magnetic charging structure.

A method of forming a castless orthotic for a patient's foot in need thereof. The method comprises preparing an orthotic template for the foot wherein the template extends between a heel end and a toe end. In preparing the template the steps of attaching a three-quarter length or full length upper thermoplastic material to a or three-quarter length lower thermoplastic material, or providing a thermoplastic material having a variable thickness such that said thickness decreases from said heel end to said toe end is provided. Then attaching an outer lower layer to the lower thermoplastic material and attaching an outer upper layer to the upper thermoplastic material, or attaching an outer layer to each face of the variable thickness thermoplastic material and heating the prepared orthotic template for a predetermined period of time at a predetermined temperature to soften the orthotic template. A wrap is then placed on top of the foot foam and the foot of the patient is placed on top of the wrap and foot foam. The patient's foot is lifted and the heated orthotic template is placed on top of the wrap and then placing the patient's foot on top of the heated orthotic template. The wrap is placed about the longitudinal axis of the foot to retain the heated orthotic template intermediate the sole of the foot and the foot foam whereby the sides of the orthotic template are particularly supported by the wrap. The method further includes ensuring the foot is positioned over a cuboid support and a medial longitudinal arch support wherein the cuboid support is disposed on the outside of the bottom of the foot and the cuboid support is moved to push the foot upwardly until a resistance is felt, and where the foot is also positioned over the medial longitudinal arch support which is then pushed and pulled upwardly until the foot is moved into a neutral position or if it is unable to be translated or rotated due to until it reaches its end range of motion. At this time, the heel of the patient's foot is lifted to place their weight substantially on the front of their foot and a coolant is applied to at least the heel end of the orthotic template.

An insole of an embodiment of the disclosed technology is formed by way of taking an insole of an existing shoe (or footwear), tracing the existing insole on to a flat sheet of material, and cutting out a new insole in the same shape (side edge dimensions) as the original or substantially there-so. The material is resilient but can be made malleable at a higher temperature using such materials known in the art. It is raised to a higher temperature, then placed into the existing shoe on top of or in place of the existing insole. A person then wears the shoe with the new (hot) insole causing the insole to compress. Upon cooling and while still wearing same, the insole retains a new compressed shape formed to bottom contours of the foot of the wearer.

Provided herein are embodiments of a shoe component. The shoe component may include a toebox, an insole, an adhesive membrane, a thermal-resistant insert, a midsole, and an outsole. The insert may further include a footbed. The footbed may include an upper surface and a bottom surface. The insert may further include an upper laminate on the upper surface of the footbed and a lower laminate on the bottom surface of the footbed.

A foot presence sensor system for an active article of footwear can include a sensor housing configured to be disposed at or in an insole of the article, and a controller circuit, disposed within the sensor housing, configured to trigger one or more automated functions of the footwear based on a foot presence indication. In an example, the sensor system includes a capacitive sensor, and the sensor is configured to sense changes in a foot proximity to the sensor in footwear. Information about the sensed proximity can be used to determine a foot velocity characteristic, which in turn can be used to update an automated footwear function, such as an automatic lacing function, or can be used to determine a step count, foot strike force, a rate of travel, or other information about a foot, about an activity, or about the footwear.

The present invention is for open cellular polyurethane foam comprising virgin foam and previously cured foam, methods of making the same, as well as inner soles for footwear made therefrom.