A method for knitting a three-dimensional fabric with variable thickness through a flat knitting machine includes the following steps: moving two cam groups and driving a plurality of knitting needles to knit a first piece of knitting by a starting cam system; moving the two cam groups and driving the plurality of knitting needles to knit a second piece of knitting by a middle cam system; and moving the two cam groups and driving the plurality of knitting needles to knit a supporting yarn by two tail cam systems respectively. The tail cam systems control each of a plurality of knock-over bit cams to move according to a gap size corresponding to a knitting length of the supporting yarn, so as to promptly change a thickness of the three-dimensional fabric along the length change of the supporting yarn.

A method for knitting a three-dimensional fabric with variable thickness through a flat knitting machine includes the following steps: moving two cam groups and driving a plurality of knitting needles to knit a first piece of knitting by a starting cam system; moving the two cam groups and driving the plurality of knitting needles to knit a second piece of knitting by a middle cam system; and moving the two cam groups and driving the plurality of knitting needles to knit a supporting yarn by two tail cam systems respectively. The tail cam systems control each of a plurality of knock-over bit cams to move according to a gap size corresponding to a knitting length of the supporting yarn, so as to promptly change a thickness of the three-dimensional fabric along the length change of the supporting yarn.

A structure, comprising a multilayer fabric infused by a resin, is disclosed. There is also provided a method for manufacturing a structure, comprising, laying a multilayer fabric over a mold of the structure; and infusing a resin into the multilayer fabric. The structure can be, by way of example only, a canoe, a wind fairing, a panel for use as wall decoration, a cover of a body of a vehicle, a corn hole game surface or a pickle ball paddle face.

A structure, comprising a multilayer fabric infused by a resin, is disclosed. There is also provided a method for manufacturing a structure, comprising, laying a multilayer fabric over a mold of the structure; and infusing a resin into the multilayer fabric. The structure can be, by way of example only, a canoe, a wind fairing, a panel for use as wall decoration, a cover of a body of a vehicle, a corn hole game surface or a pickle ball paddle face.

A variable thickness knitted component including a first region having a spacer knit construction, the first region having a first thickness, and a second region having the spacer knit construction, the second region having a second thickness different than the first thickness. The knitted component may be an integral one-piece element.

A method may include knitting a first portion of a knitted component on a first region of a knitting machine, knitting a second portion of the knitted component on a second region of the knitting machine, moving the first portion of the knitted component towards the second portion of the knitted component by moving a first needle bed of the knitting machine relative to a second needle bed of the knitting machine, and knitting at least one course with the knitting machine that connects the first portion of the knitted component to the second portion of the knitted component.

A method may include knitting a first portion of a knitted component on a first region of a knitting machine, knitting a second portion of the knitted component on a second region of the knitting machine, moving the first portion of the knitted component towards the second portion of the knitted component by moving a first needle bed of the knitting machine relative to a second needle bed of the knitting machine, and knitting at least one course with the knitting machine that connects the first portion of the knitted component to the second portion of the knitted component.

A knit lower-body garment can be formed, using a flat knitting process and from knit blanks. 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 knit lower-body garment can be formed, using a flat knitting process and from knit blanks. 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 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.