Manufacturing of a shoe is enhanced by creating 3-D models of shoe parts. For example, a laser beam may be projected onto a shoe-part surface, such that a projected laser line appears on the shoe part. An image of the projected laser line may be analyzed to determine coordinate information, which may be converted into geometric coordinate values usable to create a 3-D model of the shoe part. Once a 3-D model is known and is converted to a coordinate system recognized by shoe-manufacturing tools, certain manufacturing steps may be automated.

Articles of footwear and soles. The article of footwear may include an upper, a midsole with a midsole core and a midsole rim, and an outsole. The midsole core may be manufactured from a plurality of portions that are arranged in a particular order before being placed in a mold. The plurality of portions may be arranged so that the portions at least partially overlap each other. The plurality of portions may be arranged in longitudinal strips. The plurality of portions may be arranged in lateral portions. The plurality of portions may be adhered to each other before being placed in the mold. The mold may apply heat and pressure for a predetermined amount of time to form the midsole.

Manufacturing of a shoe is enhanced by creating 3-D models of shoe parts. For example, a laser beam may be projected onto a shoe-part surface, such that a projected laser line appears on the shoe part. An image of the projected laser line may be analyzed to determine coordinate information, which may be converted into geometric coordinate values usable to create a 3-D model of the shoe part. Once a 3-D model is known and is converted to a coordinate system recognized by shoe-manufacturing tools, certain manufacturing steps may be automated.

Manufacturing of a shoe is enhanced by creating 3-D models of shoe parts. For example, a laser beam may be projected onto a shoe-part surface, such that a projected laser line appears on the shoe part. An image of the projected laser line may be analyzed to determine coordinate information, which may be converted into geometric coordinate values usable to create a 3-D model of the shoe part. Once a 3-D model is known and is converted to a coordinate system recognized by shoe-manufacturing tools, certain manufacturing steps may be automated.

A needle assembly for a stitching machine comprises a stitching jig comprising a needle holder, a needle clamp hoop and a fixing jig. The needle holder has needle sockets to hold a plurality of needles. The needle clamp hoop is connected to the needle holder to retain needles in the sockets. The fixing jig is connected to the needle clamp hoop to couple with a reciprocating bar of the stitching machine. A method for manufacturing an article of footwear upper comprises laying out a first sheet of material; positioning a second sheet of material to overlap with the first sheet of material at an overlap; positioning a felt material adjacent the overlap so that the second sheet of material is between the first sheet of material and the felt material; and felting the felt material to draw fibers of the felt material through the first and second sheets of material.

A method of manufacturing a shoe insole includes an upper cover layer and a lower cover layer conforming in shape to the inner bottom of the shoe, and an insole body retained between the upper cover layer and the lower cover layer, taking a foot sole form to which pads are applied to selected regions of a sole taking a foot sole form; manufacturing an insole frame having a shape conforming to a three-dimensional shape of the foot sole form and applying insole pads to an upper surface of the insole frame, based on positions of marks of the test pads of the foot sole form to which the pads are applied, wherein the insole body includes the insole frame to which the insole pads are applied.

An apparatus for aligning materials in order to construct an article is provided. The apparatus may include an array of moveable pins and a solid plate having an array of holes, where the array of holes is aligned with the array of pins. Each pin may be extended and/or retracted by a programmable actuator array. When a pin is extended, at least a portion of the pin may extend through the hole with which it is aligned, such that at least a portion of the pin extends beyond the solid plate. A fraction of the total number of pins in the array of pins may be extended by the programmable actuator array. The particular pins that are to be extended may be based on a pattern for an article. A material that is to be used in constructing the article may be aligned using the extended pins.

An apparatus for aligning materials in order to construct an article is provided. The apparatus may include an array of moveable pins and a solid plate having an array of holes, where the array of holes is aligned with the array of pins. Each pin may be extended and/or retracted by a programmable actuator array. When a pin is extended, at least a portion of the pin may extend through the hole with which it is aligned, such that at least a portion of the pin extends beyond the solid plate. A fraction of the total number of pins in the array of pins may be extended by the programmable actuator array. The particular pins that are to be extended may be based on a pattern for an article. A material that is to be used in constructing the article may be aligned using the extended pins.

A system for manufacturing shoes is provided that includes two or more pieces of equipment used in the customization and manufacturing of shoes and an alignment fixture that may engage with each piece of equipment by way of an alignment mounting member. The alignment fixture may secure to it a portion of a shoe, such as an upper portion, wherein the shoe portion remains in a flat position, and in a fixed relationship to the alignment fixture, throughout the various processes performed by the pieces of equipment. These processes may include, for example, printing, laser, embroidery, forming, cutting, or the like.

A system for manufacturing shoes is provided that includes two or more pieces of equipment used in the customization and manufacturing of shoes and an alignment fixture that may engage with each piece of equipment by way of an alignment mounting member. The alignment fixture may secure to it a portion of a shoe, such as an upper portion, wherein the shoe portion remains in a flat position, and in a fixed relationship to the alignment fixture, throughout the various processes performed by the pieces of equipment. These processes may include, for example, printing, laser, embroidery, forming, cutting, or the like.