A curtain barrier with an attached hem pocket using an interlocking stitch techniqueis disclosed. The agricultural membrane curtain comprises a curtain body made of a non-porous fabric material and one or more breathable hem pockets extending along the bottom edge of the curtain body. The hem pocket is sewn to the curtain body using a plurality of intersecting sew lines creating an interlocking stitch pattern to avoid unraveling due to thread damage. The sew lines may comprise thread, yarn, or filament and the interlocking stitch pattern forms multiple stop points for automatic sealing in the event of deterioration of one or more stitches.

In one embodiment, an article of footwear including an upper is described. The upper includes a braid body and at least one component. The braid body includes at least one braided layer. A reinforcement element is attached to the braid body along a connection area using a connecting stitch. The component is attached to the braid body at the connection area using a zigzag stitch including a thread that passes through the component at a first location and passes through the reinforcement element and the braid body at a second location. The second location extends beyond the connecting stitch attaching the reinforcement element to the braid body.

Compliance control stitch patterns sewn or embroidered into biotextile or medical textile substrates impart reinforcing strength, and stretch resistance and control into such substrates. Compliance control stitch patterns may be customizable to particular patients, substrate implantation sites, particular degenerative or diseased conditions, or desired time frames. Substrates having compliance control stitch patterns sewn or embroidered into them may be used in tissue repair or tissue reconstruction applications.

Compliance control stitch patterns sewn or embroidered into biotextile or medical textile substrates impart reinforcing strength, and stretch resistance and control into such substrates. Compliance control stitch patterns may be customizable to particular patients, substrate implantation sites, particular degenerative or diseased conditions, or desired time frames. Substrates having compliance control stitch patterns sewn or embroidered into them may be used in tissue repair or tissue reconstruction applications.

Stitching patterns overlap to produce a corner-locked stitch pattern. The corner-locked stitch pattern includes one or more thread interlace points, and one or more overlays of threads from overlapping patterns. A network of corner-lock stitch patterns produces a mesh, which may be embroidered into a substrate, such as a medical textile or biotextile. Corner-lock stitch patterns resist puncture-induced and tension-induced deformation of mesh pores between corner-locked stitch patterns, and may be used to modulate compliance and enhance strength properties of a substrate into which they are sewn.

Stitching patterns overlap to produce a corner-locked stitch pattern. The corner-locked stitch pattern includes one or more thread interlace points, and one or more overlays of threads from overlapping patterns. A network of corner-lock stitch patterns produces a mesh, which may be embroidered into a substrate, such as a medical textile or biotextile. Corner-lock stitch patterns resist puncture-induced and tension-induced deformation of mesh pores between corner-locked stitch patterns, and may be used to modulate compliance and enhance strength properties of a substrate into which they are sewn.

Provided is a double-needle lockstitch sewing machine that can easily sew a fabric rolled into a tubular shape by two rows of lockstitch. The double-needle lockstitch sewing machine includes: a pair of needles (9) that reciprocates in an up-down direction; a pair of loop catchers (40) that is arranged respectively corresponding to the pair of needles (9) and that catch loops of needle threads formed by the needles (9) by rotating about hook shafts (41) extending in the up-down direction; a lower shaft (20) that is disposed in front of the needles (9) and the loop catchers (40) in the cloth feeding direction and extends in the left-right direction and that rotates in conjunction with a main shaft (10) that drives the needles (9); and connecting shafts (30) that extend in the cloth feeding direction and are connected to the lower shaft (20) and the hook shafts (41) in a power transmittable manner to rotate. The loop catchers (40) are rotationally driven in conjunction with an up and down movement of the needles (9) as a rotational power of the lower shaft (20) is transmitted to the hook shafts (41) via the connecting shafts (30). Thus, it is possible to easily sew a tubular article with two rows of lockstitch seams.

Provided is a double-needle lockstitch sewing machine that can easily sew a fabric rolled into a tubular shape by two rows of lockstitch. The double-needle lockstitch sewing machine includes: a pair of needles (9) that reciprocates in an up-down direction; a pair of loop catchers (40) that is arranged respectively corresponding to the pair of needles (9) and that catch loops of needle threads formed by the needles (9) by rotating about hook shafts (41) extending in the up-down direction; a lower shaft (20) that is disposed in front of the needles (9) and the loop catchers (40) in the cloth feeding direction and extends in the left-right direction and that rotates in conjunction with a main shaft (10) that drives the needles (9); and connecting shafts (30) that extend in the cloth feeding direction and are connected to the lower shaft (20) and the hook shafts (41) in a power transmittable manner to rotate. The loop catchers (40) are rotationally driven in conjunction with an up and down movement of the needles (9) as a rotational power of the lower shaft (20) is transmitted to the hook shafts (41) via the connecting shafts (30). Thus, it is possible to easily sew a tubular article with two rows of lockstitch seams.

There is provided a skin member having an improved appearance in a state of being attached to a base material. Skin member 12 includes a plurality of base fabrics 18, primary sewing section 20 which joins terminal portions of base fabric 18 and at least a part of which is disposed in a curved shape, secondary sewing section 22 which joins sewing region 21 of the terminal portion of each of base fabrics 18 by primary sewing section 20 to a surface of each of base fabrics 18 on a base material side, and pinking section 25 which is cut out in a zigzag shape on an end edge of sewing region 21 of base fabric 18 having a large curvature of primary sewing section 20, among the base fabrics. In pinking section 25, at least zigzag tip portions 25a and 25b are formed in an arc shape.

There is provided a skin member having an improved appearance in a state of being attached to a base material. Skin member 12 includes a plurality of base fabrics 18, primary sewing section 20 which joins terminal portions of base fabric 18 and at least a part of which is disposed in a curved shape, secondary sewing section 22 which joins sewing region 21 of the terminal portion of each of base fabrics 18 by primary sewing section 20 to a surface of each of base fabrics 18 on a base material side, and pinking section 25 which is cut out in a zigzag shape on an end edge of sewing region 21 of base fabric 18 having a large curvature of primary sewing section 20, among the base fabrics. In pinking section 25, at least zigzag tip portions 25a and 25b are formed in an arc shape.