▎ 摘 要
NOVELTY - Skin-friendly waterproof and moisture-permeable nanofiber fabric comprises a hydrophobic fabric layer of the surface layer, a super-hydrophilic fabric layer of the inner layer and a water-conducting layer arranged between the hydrophobic fabric layer and the super-hydrophilic fabric layer, a water-repellent layer is arranged between the water-conducting layer and the super-hydrophilic fabric layer. The hydrophobic fabric layer comprises 1-5 pts. wt. graphene fluoride, 1-5 pts. wt. insect cuticle extract, 40-60 pts. wt. silicone modified polyurethane and 50-90 pts. wt. polyethylene terephthalate, 1-5 pts. wt. aziridine crosslinking agent and 1-5 pts. wt. six-carbon fluorine-containing waterproofing agent. The super-hydrophilic fabric layer comprises 60-100 pts. wt. polyester chips, 1-10 pts. wt. β-D-glucose, and 5-10 pts. wt. nano silver, 20-30 pts. wt. modified bamboo fiber, 10-20 pts. wt. polypeptide solution and 1-5 pts. wt. ethanol. USE - Skin-friendly waterproof and moisture-permeable nanofiber fabric used as a functional fabric with the water drop or liquid drop not infiltrated into the fabric. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a method for preparing a skin-friendly waterproof and moisture-permeable nanofiber fabric, which involves: a. introducing aziridine cross-linking agent into silicone-modified polyurethane and polyethylene terephthalate, dopping water-based six-carbon fluorine-containing waterproofing agent and inserting cutin into spinning solution film extracts and fluorinated graphene; b. placing polyester slices in sodium hydroxide solution, taking out after 1-2 hours, and placing in a mixed solution of β-D-glucose, nano-silver, polypeptide solution and ethanol to prepare modified polyester fiber, preparing super-hydrophilic fabric layer by mixing modified polyester fiber and modified bamboo fiber; c. attaching a layer of water-proof layer on the super-hydrophilic fabric layer; and d. connecting hydrophobic fabric layer and the superhydrophilic fabric layer by hollow fibers to form a product.