A knitted component may include a loft zone having at least one first loft portion that is integrally knit. The loft portion may include a first knitted layer, a second knitted layer having an elasticated first material, a void between the first knitted layer and the second knitted layer, and at least one course of a second material that is knitted within the void and causes the first knitted layer to extend away from the second knitted layer by a first distance of about 2-5 mm. Each loft portion has a width of about 4-10 mm between connection points between the first and second knitted layers.

A method for producing a trim part includes the following steps: generating a surface covering, wherein a knitted semi-finished product is generated on a flat knitting machine; the knitted semi-finished product is washed; the washed knitted semi-finished product is heat set; and laminating, in particular press-laminating or compression-laminating, the generated surface covering onto a carrier part.

A method for producing a trim part includes the following steps: generating a surface covering, wherein a knitted semi-finished product is generated on a flat knitting machine; the knitted semi-finished product is washed; the washed knitted semi-finished product is heat set; and laminating, in particular press-laminating or compression-laminating, the generated surface covering onto a carrier part.

A knitted component may include a loft zone having at least one first loft portion that is integrally knit. The loft portion may include a first knitted layer having an elasticated first material, a second knitted layer, a void between the first knitted layer and the second knitted layer, and at least one course of a second material that is knitted within the void and causes the second knitted layer to extend away from the first knitted layer by a first distance. The at least one course of the second material may include at least one float and may project into the void. The second material may have a greater resistance to bending than the elasticated first material.

A knitted component may include a loft zone having at least one first loft portion that is integrally knit. The loft portion may include a first knitted layer having an elasticated first material, a second knitted layer, a void between the first knitted layer and the second knitted layer, and at least one course of a second material that is knitted within the void and causes the second knitted layer to extend away from the first knitted layer by a first distance. The at least one course of the second material may include at least one float and may project into the void. The second material may have a greater resistance to bending than the elasticated first material.

A customized, flat-knit multi-zonal element for a shoe upper and a method of producing such an element that allows for continuous knitting while controlling positioning of individual threads. One or more carriages may move continuously along the needle bed while threads are provided to the needles for a complete stroke. Knit elements may include multiple zones with differing properties. Threads may alter positions within knit structures from zone to zone. A knit element may include a first zone in a first plane that includes at least two merged threads to form a merged knit structure and a second zone in a second plane connected to the first zone seamlessly. Some knit structures may be positioned throughout the knit element such that they control a position of zones relative to each other.

Disclosed is a method and apparatus for knitting a fabric using a knitting machine. The knitting machine is arranged to knit with a plurality of yarns using a corresponding plurality of knitting needles, each knitting needle being arranged during knitting of a stitch to connect with and knit with one of the plurality of yarns. The method controllably varies the stitch length for each stitch in dependence on the pattern to be knitted.

Aspects herein are directed to a knit lower-body garment, methods of manufacturing and/or forming the knit lower-body garment using a flat knitting process, and knit blanks used to form the knit lower-body garment. In example aspects, the knit lower-body garment is formed from a one-piece knit textile blank that includes partial-length knit courses in select locations to provide three-dimensional shaping to the resulting lower-body garment.

Aspects herein are directed to a knit lower-body garment, methods of manufacturing and/or forming the knit lower-body garment using a flat knitting process, and knit blanks used to form the knit lower-body garment. In example aspects, the knit lower-body garment is formed from a one-piece knit textile blank that includes partial-length knit courses in select locations to provide three-dimensional shaping to the resulting lower-body garment.

A knitted fabric having a heat generating function has a four-layer structure and can be knitted by a flat knitting machine. Knit stitching is used to knit first and second layers such that the second layer is fully covered under the first layer. Tuck stitching is used to knit the third layer such that one stitch is made to the third layer per a preset number of stitches made to each of first and second layers. Knit stitching is used to knit the fourth layer. After knitting, the fabric is soaked with water and spin-dried to form protrusions, spatially distributed as a centered rectangular lattice, on fabric surface. The second layer is electrically conductive for generating heat and is hidden inside the fabric. This layer is not easily hooked by a user during use and cleaning. The fabric is elastic and soft, and provides a comfortable feeling to the user.