The utility model provides a pair of carpet cleaning shoes. Each carpet cleaning shoe comprises a shoe body and a sole pad, wherein a sole and an upper are combined together through a matching structure provided with mutually matched parts; the sole pad has a cleaning layer, which is composed of a plurality of single-sided adhesive sheets and has an adhesive surface and a non-adhesive surface; the sole is connected to the non-adhesive surface through a connector; and a non-adhesive area is arranged on each single-sided adhesive sheet. According to the utility model, the sole pad is connected to the shoe body and has the cleaning layer including the, plurality of single-sided adhesive sheets, so that dirt on the surface and deep in a carpet is adsorbed onto the adhesive surface when a user walks on the carpet; the non-adhesive area is arranged on each single-sided adhesive sheet to make sure that the single-sided adhesive sheet at the bottom can be conveniently torn off to be replaced; and the shoe body is connected to the sole pad through the detachable matching structure, so that the sole pad with the cleaning layer can be disconnected from the shoe body when the single-sided adhesive sheet is replaced, thus further lowering the replacement difficulty.

A protective covering device for the bottom of an athletic shoe having cleats, spikes, studs, or other traction and stability-enhancing protrusions is disclosed. The covering protects against damageto both cleats and hard surfaces underfootwhile at the same time being aesthetically pleasing and durable, fitting the profile of the shoe, and being easy to use. The protective covering also helps to avoid grass, dirt, mud and other foreign objects becoming stuck in the cleats. The protective covering may attach to the shoe in a variety of manners, including by cage or teeth-like gripping mechanisms, by side grips, by elastic band, by drawstring, adhesion, vacuum, or another mechanism.

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.

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 footwear construction includes a sole assembly including a first midsole platform, a second midsole platform below the first midsole platform, a spring plate disposed between the first and second midsole platforms, and an outsole layer disposed below and joined directly with at least one of the plate, the first and the second midsole platforms. The outsole layer can be substantially the only layer below the plate in the forefoot region of the footwear so an underfoot force engaging the outsole layer is transmitted directly to the plate, which also can have an upward curving, multi-radii transition portion extending from a lowermost portion to a forward most portion of the plate so as to roll a wearer's foot forward into a next stride in a gait cycle of the wearer. The plate can define an aperture. A mounting cap can extend through the aperture and can receive a traction spike.

A footwear construction includes a sole assembly including a first midsole platform, a second midsole platform below the first midsole platform, a spring plate disposed between the first and second midsole platforms, and an outsole layer disposed below and joined directly with at least one of the plate, the first and the second midsole platforms. The outsole layer can be substantially the only layer below the plate in the forefoot region of the footwear so an underfoot force engaging the outsole layer is transmitted directly to the plate, which also can have an upward curving, multi-radii transition portion extending from a lowermost portion to a forward most portion of the plate so as to roll a wearer's foot forward into a next stride in a gait cycle of the wearer. The plate can define an aperture. A mounting cap can extend through the aperture and can receive a traction spike.

An article of footwear including a compression molded upper is disclosed. A composite structure including several layers is placed under heat and pressure to form a laminate. One layer of the composite is an optical effect layer possessing an aesthetic that differs from one or more of the other layers of the composite structure. A plurality of holes are cut through one or more of the layers of the laminate to expose the optical effect layer.

An article of footwear including a compression molded upper is disclosed. A composite structure including several layers is placed under heat and pressure to form a laminate. One layer of the composite is an optical effect layer possessing an aesthetic that differs from one or more of the other layers of the composite structure. A plurality of holes are cut through one or more of the layers of the laminate to expose the optical effect layer.

An intermediate sole structure for an article of footwear includes a foamed thermoplastic sole component. The foamed thermoplastic sole component has a foamed thermoplastic base layer and a foamed thermoplastic outer layer that is integrally formed with the foamed thermoplastic base layer. The outer layer includes a plurality of sipes extending through the outer layer and terminating at the base layer. The thermoplastic sole component has an inner surface defined by the base layer, an opposite, outer surface defined by the outer layer, and a thickness defined between the inner surface and the outer surface. The inner surface is substantially planar and is operative to be adhered to a ground-facing surface of an upper. Additionally, the thickness is smaller at a peripheral edge of the sole component than within a central region.

An intermediate sole structure for an article of footwear includes a foamed thermoplastic sole component. The foamed thermoplastic sole component has a foamed thermoplastic base layer and a foamed thermoplastic outer layer that is integrally formed with the foamed thermoplastic base layer. The outer layer includes a plurality of sipes extending through the outer layer and terminating at the base layer. The thermoplastic sole component has an inner surface defined by the base layer, an opposite, outer surface defined by the outer layer, and a thickness defined between the inner surface and the outer surface. The inner surface is substantially planar and is operative to be adhered to a ground-facing surface of an upper. Additionally, the thickness is smaller at a peripheral edge of the sole component than within a central region.