▎ 摘　　要

NOVELTY - The manufacturing process of the composite spunlace non-woven fabric involves: blending wood fibers, graphene fibers and graphite fibers using fiber blending device, immersing the fibers into antistatic liquid, putting nano water-absorbing particles into the antistatic liquid, adsorbing the antistatic liquid and the nano water-absorbing particles using the fibers, putting the fibers into a cotton opener for opening after centrifugal drying, sending the fibers into a cotton box, and sending the fibers into a carding machine for carding after the fibers are discharged; blending super-adsorption fibers and Tencha tea fibers using fiber blending device, immersing the fibers into antistatic liquid, putting nano water-absorbing particles into the antistatic liquid, adsorbing the antistatic liquid and the nano water-absorbing particles using the fibers, throwing the fibers into a cotton opener, sending the fibers into a cotton box, and sending the fibers into a carding machine. USE - Manufacturing process of the composite spunlace non-woven fabric. ADVANTAGE - The dispersion-compensating fiber exposed moisture-proof cotton is formed by grafting a high-efficiency hydrophilic polymer chain segment on a cotton-shaped substance substrate. Air humidity in the device can be sensed, moist gas can be automatically adsorbed, and water can be automatically discharged after saturated water absorption is achieved, so that the compound spunlace non-woven fabric has the functions of automatic water absorption and automatic water discharge. DETAILED DESCRIPTION - The manufacturing process of the composite spunlace non-woven fabric involves: blending wood fibers, graphene fibers and graphite fibers using fiber blending device, immersing the fibers into antistatic liquid, putting nano water-absorbing particles into the antistatic liquid, adsorbing the antistatic liquid and the nano water-absorbing particles using the fibers, putting the fibers into a cotton opener for opening after centrifugal drying, sending the fibers into a cotton box, and sending the fibers into a carding machine for carding after the fibers are discharged; blending super-adsorption fibers and Tencha tea fibers using fiber blending device, immersing the fibers into antistatic liquid, putting nano water-absorbing particles into the antistatic liquid, adsorbing the antistatic liquid and the nano water-absorbing particles using the fibers, throwing the fibers into a cotton opener for opening after centrifugal drying, sending the fibers into a cotton box, and sending the fibers into a carding machine for carding after the fibers are discharged; immersing dispersion-compensating fiber exposed cotton into fiber immersed in antistatic liquid, putting nano water-absorbing particles into the antistatic liquid, adsorbing the antistatic liquid and the nano water-absorbing particles using the fiber, then throwing the fiber into a cotton opener for opening after centrifugal drying, sending the fiber into a cotton box, and sending the fiber into a carding machine for carding after the fiber is discharged; and laminating and compounding the dispersion-compensating fiber exposed cotton between an upper cotton net and a lower cotton net by a lapping machine, arranging spunlace mechanisms at the upper and lower positions of a support net belt, and feeding the composite cotton nets into a double-layer spunlace net to be subjected to high-pressure spunlace entanglement and shaping at the upper and lower positions. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic flow chart of a manufacturing process of a composite spunlace non-woven fabric. (Drawing includes non-English language text).