A knitted component may include a course of a first yarn type and a course of a second yarn type, a first surface at least partially formed by the course of the first yarn type, and a cavity formed within the knitted component that is recessed relative to the first surface. A first float formed by the course of the second yarn type may extend across the cavity and may be exposed, and the course of the second yarn type may include a stitch that is knitted into the knitted component adjacent the float.

An example method of manufacturing a knitted fabric that includes a non-knitted structure occurs in accordance with a programmed knit sequence for a multi-dimensional knitting machine. The method includes, providing a non-knitted structure to the multi-dimensional knitting machine at a point in time when a fabric structure has a first knit portion, wherein the first knit portion is formed based on a first type of knit pattern. The method also includes, after the providing of the non-knitted structure, following the programmed knit sequence to automatically adjust the multi-dimensional knitting machine to use a second type of knit pattern, distinct from a first type of knit pattern, to accommodate the non-knitted structure within a second knit portion that is adjacent to the first knit portion within the fabric structure.

An example wearable device that includes a conductive deformable fabric is described herein. The conductive deformable fabric has a conductive trace that has a non-extendable fixed length along a first axis, and the conductive trace is sewn into a fabric structure to produce a conductive deformable material. The fabric structure includes a stitch pattern that facilitates the conductive trace to unfold and fold in an oscillating fashion to allow the conductive trace to expand and contract, respectively, along the first axis without exceeding the fixed length of the conductive trace. The conductive deformable material is positioned within the wearable device such that when the wearable device is worn, the stitch pattern is over a joint of the user to allow the stitch pattern to expand or contract along with the movement of the joint.

A pneumatic textile system capable of transforming from a two-dimensional structure to a three-dimensional structure under pneumatic pressure is provided. The pneumatic textile system includes a seamless knit fabric having a grid configuration defining a plurality of grid areas—a first of the plurality of grid areas having a tensile strength that is different from a second of the plurality of grid areas. A pneumatic bladder member is disposed along at least a portion of a boundary between adjacent ones of the plurality of grid areas and is inflatable to exert a force on the seamless knit fabric, wherein upon inflation of the pneumatic bladder member the force is exerted on the seamless knit fabric such that the first of the plurality of grid area assumes a shape different than the second of the plurality of grid areas resulting in a three-dimensional structure transformation.

A knitted upper for an article of footwear. The knitted upper is formed essentially as a single piece in a three-dimensional knitting process. The knitted upper includes at least one activated shrink yarn.

In one aspect of the disclosure, a knitted component for use in an article of footwear may include a first layer with a multi-bed first area having a first surface and an opposite facing second surface. The knitted component may include a second layer with a second area overlapping the first area. The second area may have a first surface and an opposite facing second surface. The knitted component may include a plurality of interlayer knit stitches interlooping at least one yarn of the first layer with at least one yarn of the second layer at an interface between the second surfaces of the first and second areas. The interior surfaces of the first area and the second area may define at least part of a freely separable area between the first and second areas.

An upper for an article of footwear may include a knitted component that includes a first knitted zone, a second knitted zone, and a third knitted zone. Each of the first knitted zone, the second knitted zone, and the third knitted zone may extend from a collar area of the upper to a biteline of the upper, where the first knitted zone, the second knitted zone, and the third knitted zone are each located at least partially in a heel area of the upper, and where the second knitted zone is located between the first knitted zone and the third knitted zone such that the second knitted zone is located in a central portion of the heel area. The second knitted zone may include an elasticity that is greater than an elasticity of the first knitted zone and also greater than an elasticity of the third knitted zone.

A knit sock is integrally formed of a body yarn in circumferential courses and axial wales, and includes a foot portion having a heel and a toe, and an ankle portion joined to the foot portion and defining an open leg end of the sock. A first targeted compression zone is formed with the foot portion between the heel and the toe, and includes spaced-apart axial compression ridges extending axially outward from the heel at a first end of the first compression zone to a second end of the first compression zone. A second targeted compression zone is formed with the ankle portion between the heel and the open leg end of the sock, and includes spaced-apart axial compression ridges extending axially outward from the heel at a first end of the second compression zone to a second end of the second compression zone.

The invention relates generally to a method for combining multiple knit constructions in a single fabric using a double selection circular knitting machine. It is in particular directed of seamlessly combining in a single fabric an air circulating construction with a double-knit construction. It further provides a fabric obtained using the method of the present invention.

A garment includes: a first garment-region, that is formed of a knitted material, and that is knitted in accordance with a first knitting pattern, wherein the first garment region has a first value of horizontal stretching capacity; and a second garment-region, that is formed of the same knitted material, and that is knitted in accordance with a second, different, knitting pattern; wherein the second garment region has a second value of unidirectional stretching capacity that is smaller than the first value of unidirectional stretching capacity of the first garment-region. The second garment-region is immediately adjacent to and is bordering with the first garment-region, and together they are a continuous and seamless garment zone.