Provided is a footwear knitting method for knitting footwear that partially has a two-layer structure. The footwear knitting method is a method for knitting footwear (1) provided with a base knitted fabric portion (2) that has a foot insertion opening (5), and is shape of an item of footwear, using a flat knitting machine. The footwear knitting method includes: starting knitting of the base knitted fabric portion (2) from a toe side or a heel side of the base knitted fabric portion (2) to complete the base knitted fabric portion (2) with a left side part and a right side part of the base knitted fabric portion (2) facing each other in a front-back direction of needle beds; knitting an additional knitted fabric portion (3) that is separate from the base knitted fabric portion (2), and is bag-shaped with one end open and the other end closed, before or during the knitting of the base knitted fabric portion (2); and joining, using double stitches, a part of an opening edge of the additional knitted fabric portion (3) with a toe-side edge part or a heel-side edge part of an edge of the foot insertion opening (5) of the base knitted fabric portion (2).

Provided is a footwear knitting method for knitting footwear that partially has a two-layer structure. The footwear knitting method is a method for knitting footwear (1) provided with a base knitted fabric portion (2) that has a foot insertion opening (5), and is shape of an item of footwear, using a flat knitting machine. The footwear knitting method includes: starting knitting of the base knitted fabric portion (2) from a toe side or a heel side of the base knitted fabric portion (2) to complete the base knitted fabric portion (2) with a left side part and a right side part of the base knitted fabric portion (2) facing each other in a front-back direction of needle beds; knitting an additional knitted fabric portion (3) that is separate from the base knitted fabric portion (2), and is bag-shaped with one end open and the other end closed, before or during the knitting of the base knitted fabric portion (2); and joining, using double stitches, a part of an opening edge of the additional knitted fabric portion (3) with a toe-side edge part or a heel-side edge part of an edge of the foot insertion opening (5) of the base knitted fabric portion (2).

One aspect of the present disclosure provides a knitted component forming an overfoot portion and an underfoot portion of an article of footwear. The knitted component may include a first layer defining a void and a second layer second layer at least partially surrounding the first layer. The second layer may form an outer surface on the overfoot portion and the underfoot portion, and a portion of the first layer may be continuous with a portion of the second layer in an ankle region of the knitted component. An interstitial space may be formed between the first layer and the second layer, and a component may be disposed between the first layer and the second layer.

A knitting machine may include a sinker configured to move between an open position and a closed position. The knitting machine may have a sinker actuator system having a first configuration and a second configuration. The sinker actuator system, in the first configuration, may be configured to actuate the sinker from the open position toward the closed position. The sinker may be configured to change the sinker actuator system from the first configuration to the second configuration when the sinker receives an input force above a predetermined threshold in the movement from the open position toward the closed position. The sinker actuator system, in the second configuration, may allow the sinker to move away from the closed position toward the open position.

A flat knitting machine structure with an adjustable gap between two knock-over bits includes two needle beds and two cam systems. Each needle bed comprises a plurality of needles and a plurality of knock-over bits. Each needle comprises a butt. Each of the knock-over bits comprises a control butt. The two needle beds are disposed at interval so that the knock-over bits face each other to define a gap. The distance of the gap is equal to a space between two knock-over bits facing each other. Each cam system comprises a needle cam to provide the plurality of butts being placed and guide each needle to make a knitting stroke towards the gap, and a knock-over bit cam provides the control butts being placed. The knock-over bit cam is controlled to define a displacement stroke for driving the plurality of knock-over bits to change the size of the gap.

A tubular knitted stent or stent graft for placement in a lumen or body passage is compressible, thus presenting a compressed outer diameter and a non-compressed outer diameter. The stent or stent graft has knitted loops each having a loop width, wherein the loop width to non-compressed outer diameter ratio is larger than 0.2 for at least one knitted loop.

A tubular knitted stent or stent graft for placement in a lumen or body passage is compressible, thus presenting a compressed outer diameter and a non-compressed outer diameter. The stent or stent graft has knitted loops each having a loop width, wherein the loop width to non-compressed outer diameter ratio is larger than 0.2 for at least one knitted loop.

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.

The invention relates to a textile machine tool part (11) that is used in textile processing in a textile machine and to a method for producing same. The textile machine tool part (11) has a tool core (16) made of a core material and is coated, at least in part, with a wear-resistant coating. The wear-resistant coating (17) is applied to a core surface (18) that has a first microstructure (19). The first microstructure (19) is preferably created using electrochemical etching in the core surface (18). The wear-resistant coating (17) applied thereto is preferably applied directly to at least a section of the core surface (18) having the first microstructure (19) using electrochemical deposition and has a layer thickness of a maximum of 20 μm.

The invention relates to a textile machine tool part (11) that is used in textile processing in a textile machine and to a method for producing same. The textile machine tool part (11) has a tool core (16) made of a core material and is coated, at least in part, with a wear-resistant coating. The wear-resistant coating (17) is applied to a core surface (18) that has a first microstructure (19). The first microstructure (19) is preferably created using electrochemical etching in the core surface (18). The wear-resistant coating (17) applied thereto is preferably applied directly to at least a section of the core surface (18) having the first microstructure (19) using electrochemical deposition and has a layer thickness of a maximum of 20 μm.