An insulating, double-knit fabric containing a first knit layer and a second knit layer coupled with the first knit layer through a plurality of first direction spaced apart rows in a first direction and a plurality of second direction spaced apart rows in a second direction which is perpendicular to the first direction forming a plurality of air pockets in a grid pattern. The fabric also contains a plurality of intermediate fiber regions positioned in the plurality of air pockets, where each of the intermediate fiber regions contains a plurality of rows of multi-filament fibers extending parallel to at least one of the first and second knit layers. The first knit layer and the second knit layer comprise a plurality of flame resistant fibers, a plurality of cellulosic fibers, and a plurality of modacrylic fibers blended together.

Aspects herein are directed to a lightweight, recyclable, double-knit textile used to form a recyclable, apparel item having stretch properties. The double-knit textile utilizes a combination of yarns, including a recyclable, elastic thermoplastic polyurethane (TPU) polymer yarn, in a knit construction where the technical face of the textile is formed form a non-elastic yarn such as a polyamide yarn, the technical back of the textile is formed the non-elastic yarn and the TPU polymer yarn in a plated relationship, and linking yarns that extend between the technical face and the technical back include the non-elastic yarn. The knit construction as described balances the need for opacity, optimal stretch features, support, and durability to an apparel item formed from the textile while still being lightweight.

A warp-knitted spacer fabric has a first and a second planar warp-knit layer that are joined together by spacer yarns. The first warp-knit layer is formed by a first yarn system having a first pattern and a second yarn system having a second pattern. The first pattern is a modified pillar-stitch in which the yarns of the first yarn system form pillar stitches in alternating sequence in the working direction and are guided without formation of stitches, and the yarns of the second yarn system are each guided over at least two adjacent stitch wales and running in the working direction. The second warp-knit layer has openings formed by a plurality of stitches.

A heating pad includes a heat pad with an anterior and posterior side. The heat pad includes a first layer, a second layer, and a third layer. The second layer is located in between the first layer and the third layer. The first layer is located on the posterior side, while the third layer is located on the anterior side. The second layer has a wire selectively heated to increase the temperature of the heat pad. The third layer is a reflective material positioned to reflect heat from the second layer towards the first layer, decreasing heat emitted on the anterior side of the heat pad. The heating pad also includes a battery storage section for securing a battery. The battery is in electronical communication with the wire of the heat pad. The heating pad further includes an engagement mechanism to secure the heating pad to a user.

The invention related to an insulating, double-knit fabric comprising an outer knit layer and an inner knit layer coupled with the outer knit layer forming a plurality of elongated air pockets in a plurality of rows. Only the outer layer comprises a plurality of windows, where the air pockets comprise intermediate fiber regions and the intermediate fiber regions comprise fibers positioned parallel to the inner and outer knit layers.

The invention related to an insulating, double-knit fabric having a width and a length and comprising a first knit layer and a second knit layer coupled with the first knit layer forming a plurality of rows of lofted fibers separated by rows of air spaces. The air spaces extend along the length of the insulating, double-knit fabric for the entire length of the fabric and the lofted fibers extend in a direction having an orthogonal component with respect to the at least one of the first knit layer and the second knit layer.

Provided is a laminated body, said laminated body being a laminated cloth the back surface of which has excellent properties against tangling and abrasion and good separability from the skin and which has a good texture and a favorable appearance and is comfortable to wear when made into clothing. The laminated cloth includes a front surface layer, a middle layer and a back surface layer, said layers being stacked one on another, wherein: the front surface layer comprises one member selected from the group consisting of a woven fabric, a knitted fabric and a non-woven fabric; the middle layer comprises a resin film or a non-woven fabric; and the back surface layer comprises a circular knitted fabric in which filament yarn of 60 dtex or less is used at least in part thereof and which is configured from knitting stitches and tack stitches, 9 to 72 said tack stitches being disposed per area of 12 wales12 courses.

A moisture management fabric using denier differential to facilitate the movement of sweat away from the wearer's body is presented. An exemplary moisture management support garment constructed from an exemplary moisture management fabric is presented. An exemplary moisture management support garment is a moisture transporting sport bra. A denier differential is employed to provide superior moisture transporting and evaporation of perspiration from a wearer during exertion. The denier differential relies upon a facing layer and a back layer with substantially different yarn thickness and fabric porosity to achieve fluid transport.

A moisture management fabric using denier differential to facilitate the movement of sweat away from the wearer's body is presented. An exemplary moisture management support garment constructed from an exemplary moisture management fabric is presented. An exemplary moisture management support garment is a moisture transporting sport bra. A denier differential is employed to provide superior moisture transporting and evaporation of perspiration from a wearer during exertion. The denier differential relies upon a facing layer and a back layer with substantially different yarn thickness and fabric porosity to achieve fluid transport.

Provided is a laminated body, said laminated body being a laminated cloth the back surface of which has excellent properties against tangling and abrasion and good separability from the skin and which has a good texture and a favorable appearance and is comfortable to wear when made into clothing. The laminated cloth includes a front surface layer, a middle layer and a back surface layer, said layers being stacked one on another, wherein: the front surface layer comprises one member selected from the group consisting of a woven fabric, a knitted fabric and a non-woven fabric; the middle layer comprises a resin film or a non-woven fabric; and the back surface layer comprises a circular knitted fabric in which filament yarn of 60 dtex or less is used at least in part thereof and which is configured from knitting stitches and tack stitches, 9 to 72 said tack stitches being disposed per area of 12 wales12 courses.