An article of footwear includes an upper defining apertures spaced apart from one another in a first arrangement. A footwear element has pegs spaced apart from one another in the first arrangement and extending through the apertures in the upper. The pegs are secured at a surface of the upper. A method of manufacturing an article of footwear includes placing a footwear element between an inner layer of an upper and an outer layer of the upper. The footwear element includes at least one peg extending outward toward the outer layer. The method includes inserting the peg through the outer layer so that the peg extends through the outer layer and is exposed at an exterior surface of the outer layer. After inserting the peg of the footwear element through the outer layer of the upper, the peg is secured at the exterior surface of the outer layer.

An article of footwear includes an upper defining apertures spaced apart from one another in a first arrangement. A footwear element has pegs spaced apart from one another in the first arrangement and extending through the apertures in the upper. The pegs are secured at a surface of the upper. A method of manufacturing an article of footwear includes placing a footwear element between an inner layer of an upper and an outer layer of the upper. The footwear element includes at least one peg extending outward toward the outer layer. The method includes inserting the peg through the outer layer so that the peg extends through the outer layer and is exposed at an exterior surface of the outer layer. After inserting the peg of the footwear element through the outer layer of the upper, the peg is secured at the exterior surface of the outer layer.

The present invention is intended for use in the high/superhigh-heel shoes. The support surface (6) of the suggested high-heel shoe comprises a practically horizontal portion (7), the distance of which to the lowest point of the support surface is at least 5 mm. This portion is located in the zone of the maximum distance of the external part of a foot from the longitudinal axis (12) of a foot passing between the second and the third toes through the most remote from them point (A) of a heel. Such shape of the foot bearing surface of the suggested shoe improves wearing comfort of the high/superhigh-heel shoes.

The present invention is intended for use in the high/superhigh-heel shoes. The support surface (6) of the suggested high-heel shoe comprises a practically horizontal portion (7), the distance of which to the lowest point of the support surface is at least 5 mm. This portion is located in the zone of the maximum distance of the external part of a foot from the longitudinal axis (12) of a foot passing between the second and the third toes through the most remote from them point (A) of a heel. Such shape of the foot bearing surface of the suggested shoe improves wearing comfort of the high/superhigh-heel shoes.

The present invention relates to a high-heeled shoe comprising an insert (E) and a base body (G), wherein the base body (G) is produced as a single part via a 3D printing process. The insert (E) comprises a surface (EF) that has an upper side (EO) and a lower side (EU), wherein a heel (A) is formed on the lower side (EU). The base body (G) comprises a base surface (F) and an inner flap (I), wherein the base surface (F) has an upper side (FO), a lower side (FU) and a first cavity (H1), and the inner flap (I) has an upper side (IO) and a lower side (IU), wherein the lower side (IU) of the inner flap (I) is joined with the upper side (FO) of the base surface (F) of the base body (G) such that, between the lower side (IU), the upper side (FO) and the first cavity (H1), a second cavity (H2) is formed which forms an overall cavity (HG) with the first cavity (H1), wherein the overall cavity (HG) essentially corresponds to the shape of the insert (E). The insert (E) is positioned in the overall cavity (HG) such that the lower side (EU) of the surface (EF) of the insert (E) is completely contacted with the upper side (FO) of the base surface (F) of the base body (G), and the lower side (IU) of the inner flap (I) completely covers the upper side (EO) of the surface (EF) of the insert (E). The present invention furthermore relates to a process for producing the high-heeled shoe and to the use of an inner flap (I) for completely covering the upper side (EO) of the surface (EF) of an insert (E) in a high-heeled shoe.

The present invention relates to a high-heeled shoe comprising an insert (E) and a base body (G), wherein the base body (G) is produced as a single part via a 3D printing process. The insert (E) comprises a surface (EF) that has an upper side (EO) and a lower side (EU), wherein a heel (A) is formed on the lower side (EU). The base body (G) comprises a base surface (F) and an inner flap (I), wherein the base surface (F) has an upper side (FO), a lower side (FU) and a first cavity (H1), and the inner flap (I) has an upper side (IO) and a lower side (IU), wherein the lower side (IU) of the inner flap (I) is joined with the upper side (FO) of the base surface (F) of the base body (G) such that, between the lower side (IU), the upper side (FO) and the first cavity (H1), a second cavity (H2) is formed which forms an overall cavity (HG) with the first cavity (H1), wherein the overall cavity (HG) essentially corresponds to the shape of the insert (E). The insert (E) is positioned in the overall cavity (HG) such that the lower side (EU) of the surface (EF) of the insert (E) is completely contacted with the upper side (FO) of the base surface (F) of the base body (G), and the lower side (IU) of the inner flap (I) completely covers the upper side (EO) of the surface (EF) of the insert (E). The present invention furthermore relates to a process for producing the high-heeled shoe and to the use of an inner flap (I) for completely covering the upper side (EO) of the surface (EF) of an insert (E) in a high-heeled shoe.

A plate for an article of footwear includes a substrate, a first strand portion attached to the substrate via first stitching, and a second strand portion disposed on the first layer. The first strand portion includes first segments that each extend between two different locations along the substrate to form a first layer on the substrate. The second strand portion includes second segments that each extend between two different locations along the substrate to form a second layer on the first layer.

A plate for an article of footwear includes a substrate, a first strand portion attached to the substrate via first stitching, and a second strand portion disposed on the first layer. The first strand portion includes first segments that each extend between two different locations along the substrate to form a first layer on the substrate. The second strand portion includes second segments that each extend between two different locations along the substrate to form a second layer on the first layer.

A shoe with a sole, upper, and shaft, whose upper and shaft contain a number of modifications to increase flexibility of the shoe but maintain protection for the wearer of the shoe. These modifications fall into the general categories of notch and aperture. The upper also has a number of protrusions into the shaft to increase protection in the protrusion areas. The location, shape, and size of these notches, apertures, and protrusions are important for optimizing the flexibility and protective qualities of the shoe.

A shoe with a sole, upper, and shaft, whose upper and shaft contain a number of modifications to increase flexibility of the shoe but maintain protection for the wearer of the shoe. These modifications fall into the general categories of notch and aperture. The upper also has a number of protrusions into the shaft to increase protection in the protrusion areas. The location, shape, and size of these notches, apertures, and protrusions are important for optimizing the flexibility and protective qualities of the shoe.