• 专利标题:   Fabric-based breathable, washable and wear-resistant sensor useful for e.g. yoga clothes, swimming trousers, body-building and swimming sport equipment, electronic skin, bionic robot smart products and detecting the human motion signals, comprises elastic fabric and nano-conductive layer.
  • 专利号:   CN115323768-A
  • 发明人:   XU G, XU B, JIANG H, CHENG B, XU Z, LIU Y
  • 专利权人:   UNIV TIANJIN SCI TECHNOLOGY, SHENZHEN CHANGSHUO NEW TEXTILE MATERIAL CO LTD, JIANGXI CHANGSHUO OUTDOORS LEISURE PROD
  • 国际专利分类:   B05D001/02, B05D001/18, B05D001/26, B05D001/28, B05D005/12, B05D007/24, D06M010/02, D06M010/06, D06M101/06, D06M101/32, D06M101/38, D06M011/74, D06M011/83, D06M015/564
  • 专利详细信息:   CN115323768-A 11 Nov 2022 D06M-011/74 202308 Chinese
  • 申请详细信息:   CN115323768-A CN11139041 19 Sep 2022
  • 优先权号:   CN11139041

▎ 摘  要

NOVELTY - Fabric-based breathable, washable and wear-resistant sensor, comprises a elastic fabric and a nano-conductive layer, where the elastic fabric used as base material with nano-conductive active layer and surface hydrophobic layer attached on it. USE - The fabric-based breathable, washable and wear-resistant sensor is useful for yoga clothes, swimming trousers, body-building and swimming sport equipment, electronic skin, bionic robot smart products and detecting the human motion signals e.g. strain signals and finger or knee bending (all claimed). ADVANTAGE - The fabric sensor: has high washing resistance of ≮ 25 times, working range is ≮ 100%, service life ≮ 500 times under the strain greater than 40%, and air permeability is ≮ 100 µm/s; and ensure the contact angle of hydrophobic layer is greater than 90°. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for preparing the fabric-based breathable, washable and wear-resistant sensor, comprising (1) preparing a conductive material dispersion liquid, and adsorbing a conductive material on the surface of the elastic fabric material by using a printing or suction filtration method to form a conductive film to obtain a conductive fabric, and (2) carrying out hydrophobic modification on the surface of the conductive fabric material obtained in the resultant step to obtain the final product.