▎ 摘　　要

NOVELTY - Graphene-coated wire coil preparation device comprises reaction kettle is provided with atomic fountain, field effect separator, atomic disperser, wire feeder, wire, reorganizer, fermion stubborn device and quality inspection device. The wire tank and finished wire plating tank are also provided outside reaction kettle and atomic fountain is set in reaction kettle. The field effect separator is disposed below atomic fountain and atomic disperser is disposed below field effect separator. The wire conveyer is arranged in position corresponding to wire warehouse in kettle. The wire is disposed between wire feeder and recombiner. The recombiner is arranged below atomic disperser and beside wire feeder. The fermion reinforcer is arranged beside recombiner. The quality inspection device is arranged at position corresponding to finished product plating silo beside fermion tenacity. The wire warehouse is arranged outside reaction kettle. USE - Used as graphene-coated wire coil preparation device. ADVANTAGE - The device: consumes less power of 48 degrees . DETAILED DESCRIPTION - Graphene-coated wire coil preparation device comprises reaction kettle is provided with atomic fountain, field effect separator, atomic disperser, wire feeder, wire, reorganizer, fermion stubborn device and quality inspection device. The wire tank and finished wire plating tank are also provided outside reaction kettle and atomic fountain is set in reaction kettle. The field effect separator is disposed below atomic fountain and atomic disperser is disposed below field effect separator. The wire conveyer is arranged in position corresponding to wire warehouse in kettle. The wire is disposed between wire feeder and recombiner. The recombiner is arranged below atomic disperser and beside wire feeder. The fermion reinforcer is arranged beside recombiner. The quality inspection device is arranged at position corresponding to finished product plating silo beside fermion tenacity. The wire warehouse is arranged outside reaction kettle. The finished plating wire silo is disposed outside reaction kettle. An INDEPENDENT CLAIM is also included for producing graphene-coated wire coil, comprising (i) adding a lid into the reactor and sealing it; (ii) sending nitrogen into the reaction kettle to replace the air in the kettle; (iii) sending carbon dioxide into the reaction kettle to replace the nitrogen in the kettle; (iv) sending inert protective gas into the reaction kettle to replace the carbon dioxide in the kettle; (v) removing impurities in the reaction kettle by inert gas circulation, so that the reaction kettle becomes an ultra-clean kettle; (vi) sending oxygen into the reaction kettle; (vii) sending acetylene into the atomic fountain; (viii) losing hydrogen atoms from acetylene molecule in atomic fountain, where atomic fountain releases a mixed gas of carbon elements and impurities; (ix) separating and purifying the carbon element from the mixed gas by field effect separator; (x) preventing the carbon atoms of the purified carbon elements from agglomerating within a specific time in atomic disperser; (xi) sending the wire into the reaction kettle by wire feeder; (xii) guiding the carbon element by reorganizer to wrap the wire material, wrapping wire material into a graphene film by recombined carbon element and growing graphene film by the carbon element package to obtain graphene plated wire;(xiii) adding fermion reinforcer works, and the tensile strength of the graphene plated wire; (xiv) inspecting the quality of graphene plated wire by quality inspection device; and (xv) winding up the graphene plating wire outside the reaction kettle by finished plating wire silo. DESCRIPTION OF DRAWING(S) - The diagram shows the schematic representation of graphene-coated wire coil preparation device.