▎ 摘 要
NOVELTY - The intelligent integrated sensing fabric with integrated electronic circuit function, includes fabric which is comprised with smart fiber (I), smart fiber (II), smart fiber (III) and wire fibers which interlaced in warp and weft. The polystyrene sulfonate (PSS) material layer is coated with conductive paint layer between the sensing functional material layer and poly(3,4-ethylenedioxythiophene) (PEDOT):PSS material layer and on the fiber substrate at the outer end of sensing functional material layer and PEDOT:PSS material layer. The sensing functional material layer of smart fiber (I) and the conductive coating at the other end of smart fiber (II) are connected to form interweaving node (IV), and the interweaving node (III) and the interweaving node (IV) are interwoven with power supply fabric that is configured to provide electrical energy for sensing fabric. USE - Intelligent integrated sensing fabric used for monitoring wearer's movement condition, sweat pH, and ambient humidity, and used for detecting wearer's movement condition. ADVANTAGE - The pH of sweat is detected and the dehydration of the human body during exercise is predicted. The material monitors ambient humidity, and has characteristics of high fit, high comfort, low cost, and real-time monitoring without the need for external sensor function modules. DETAILED DESCRIPTION - The intelligent integrated sensing fabric with integrated electronic circuit function, includes fabric which is comprised with smart fiber (I), smart fiber (II), smart fiber (III) and wire fibers which interlaced in warp and weft. The PSS material layer is coated with conductive paint layer between the sensing functional material layer and PEDOT:PSS material layer and on the fiber substrate at the outer end of sensing functional material layer and PEDOT:PSS material layer. The functional material layer is connected with PEDOT:PSS material layer. The smart fiber (II) is comprised with fiber substrate, and section of PEDOT:PSS material layer is coated on fiber substrate. A conductive paint layer is coated on the fiber substrate at both ends of PEDOT:PSS material layer. The smart fiber (III) is comprised with fiber base, and a layer of activated carbon is coated on fiber base. A conductive paint layer is coated on the fiber base at both ends of activated carbon layer, and during weaving, the PEDOT:PSS material layer of smart fiber (I) and the PEDOT:PSS material layer of smart fiber (II) are configured to form interweaving node (I), and are packaged after dripping electrolyte at interweaving node (I). The conductive paint layer at one end of smart fiber (III) is configured form an interweaving node II with conductive paint layer between the sensing functional material layer and PEDOT:PSS material layer in smart fiber (I). The conductive paint layer at the other end of smart fiber (III) and the conductive paint layer at one end of smart fiber (II) are configured to form interweaving node (III). The sensing functional material layer of smart fiber (I) and the conductive coating at the other end of smart fiber (II) are connected to form interweaving node (IV), and the interweaving node (III) and the interweaving node (IV) are interwoven with power supply fabric that is configured to provide electrical energy for sensing fabric. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic view of the three different intelligent fibers. (Drawing includes non-English language text). Sensing functional material layer (1) Material layer (2) Conductive coating layer (3) Active carbon layer (4)