Aspects herein provide for a method of manufacturing a vented insulated garment using non-woven polymer sheets and garments produced therefrom. The method generally comprises providing a non-woven polymer sheet having one or more voided portions, positioning the sheet between two textile layers, and bonding the textile layers together at areas corresponding to the voided portions in the non-woven polymer sheet to form a seam. The seam may be optionally perforated.

A protective garment comprising an outer shell, a moisture barrier, and a thermal liner. At least one of the outer shell, the moisture barrier, and the thermal liner includes one or more vents formed therein. In one embodiment, the vents may be an opening formed in at least one transferal portion of the moisture barrier and the thermal liner. A movable flap may be provided to extend over the opening to provide thermal protection to a wearer of the protective garment at a location of the vents. The protective garment may be employed as turnout gear compliant with NFPA 1971.

A heated article of clothing including a garment body, a heater coupled to the garment body, a heater supply cable configured to provide electrical power to the heater, and a battery pack configured to power to the heater by way of the heater supply cable. The garment body includes a first compartment configured to hold the battery pack, a second compartment configured to alternatively hold the battery pack, and a pass-through connecting the first compartment to the second compartment internally within the garment body such that the battery pack is movable between the first and second compartments while remaining coupled with the heater supply cable.

A method is for filling a fillable portion of a garment to be padded to obtain a padded garment, such as a garment or blanket. A cashmere fiber mass is fed towards a carding station. The cashmere fiber mass is mechanically opened and blended in the carding station by a carding machine to obtain a staple cashmere fiber. The staple cashmere fiber exiting from the carding station is fed towards a beating station. The staple cashmere fiber is cleaned in the beating station by cleaning air flow adapted to cross and inflate the staple cashmere fiber to remove residual impurities and dust from the staple cashmere fiber. The staple cashmere fiber exiting from the beating station is fed towards an injecting station and injected into the fillable portion by a pusher for introducing the staple cashmere fiber into the fillable portion to obtain the padded garment.

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.

A garment apparatus has two front panels, a rear panel, a neck section, two shoulder sections, a bust section, a waist section, two shoulder pockets, a waist pocket and a back pocket. The rear panel is connected in between the two front panels. The two shoulder pockets are mounted onto and located at the two shoulder sections. The waist pocket is mounted onto and located at and extends along the waist section. The back pocket is mounted onto and extends from the waist section, through the bust section to the neck section. Two shoulder heat exchangers are accommodated within two shoulder pocket compartments. A waist heat exchanger is accommodated within a waist pocket compartment. A back heat exchanger is accommodated within a back pocket compartment.

A bed covering system adapted to be used by a user to stay comfortable during sleep. The bed covering system includes a blanket and a pillowcase. The blanket has different heat retention zones of at least one section of heavy material and at least one section of lighter material. The heavy material is of material that retains body heat of the user. The lighter material is of a material that allows the escape of body heat of the user and allows circulation of body heat of the user. The heavy material has a higher weave count to trap and retain heat, and the lighter material is of thinner materials that permits more evaporation from a body of a user than the heavy material.

A functional fabric is formed by bonding a polyester synthetic resin film mixed with carbon black fine particles to a fabric, in which the synthetic resin film is non-porous and has a thickness of 10 μm to 20 μm. The functional fabric is produced by producing a polyester synthetic resin film mixed with carbon black fine particles and bonding the synthetic resin film to a fabric, and the produced functional fabric is entirely or partially bonded to an inner wear or an intermediate clothes to produce clothing.

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.

The present invention relates generally to therapeutic articles comprised of carbonaceous blend textile materials comprising yarns having about 25 to 100 weight % carbonaceous fiber and about 0 to 75 weight % fiber made of polyester, nylon, rayon, lyocell, cellulose, wool, silk, linen, bamboo, m-aramid, p-aramid, modacrylic, novoloid, melamine, regenerated cellulose, polyvinyl chloride, antistatic fiber, poly(p-phenylene benzobisoxazole) (PBO), polybenzimidazole (PBI), polysulphonamide (PSA), and combinations thereof, or other fibers not listed that are capable of being made into yarn and textile fabrics that are knit, woven, or nonwoven, and wherein the fabric has a weight from about 3 oz/yd.sup.2 to about 20 oz/yd.sup.2. Also encompassed within this invention is a method for using therapeutic textile articles having carbonaceous blend textile materials of the present disclosure for treatment of humans and animals with developmental neurological disorders, central nervous system disorders, autoimmune disorders, cardiovascular disease, sleep disorders, anxiety disorders, pain management, and diabetes.