▎ 摘　　要

NOVELTY - Preparation device comprises e.g. a reaction kettle, where the reaction kettle is orderly provided with the atom fountain device by production process flow of polyethylene terephthalate (PET)-graphene film coiled material, field-effect separator, atom disperser, flattening shaft, PET film, reformer, hall discharging device, weight-efficient fine device, Fermi-enhancing device, inspection device, steering shaft, the reaction kettle is further provided with the PET film chamber, and PET graphene coating bin, the atomic fountain apparatus is set in the interior of the reaction kettle, the field-effect separator is set on the lower part, the lower part of the atom fountain of the atom disperser is set on the field-effect separator, the flattening shaft is set in corresponding position of the reaction kettle of the PET film chamber, the PET film is set between the flattening shaft and the hall fine discharging device, and the recombination device is set beside the PET film. USE - The preparation device useful in polyethylene terephthalate graphene coated coil (claimed). ADVANTAGE - The preparation device: utilizes carbonaceous raw material as the carbon source i.e. acetylene; can consumes very little power and the daily power consumption is 24 degrees . DETAILED DESCRIPTION - Preparation device comprises a reaction kettle, where the reaction kettle is orderly provided with the atom fountain device by production process flow of polyethylene terephthalate (PET)-graphene film coiled material, field-effect separator, atom disperser, flattening shaft, PET film, reformer, hall discharging device, weight-efficient fine device, Fermi-enhancing device, inspection device, steering shaft, the reaction kettle is further provided with the PET film chamber, and PET graphene coating bin, the atomic fountain apparatus is set in the interior of the reaction kettle, the field-effect separator is set on the lower part, the lower part of the atom fountain of the atom disperser is set on the field-effect separator, the flattening shaft is set in corresponding position of the reaction kettle of the PET film chamber, the PET film is set between the flattening shaft and the Hall fine discharging device, the recombination device is set beside the PET film is connected with the flattening shaft, the hall bar device is set beside the recombining device, the dose-effect group is set beside the hall fine discharging device, the Fermi-enhancer is set beside the dose-effect group, the inspection device is set at the Fermi-enhancer, the steering shaft is set beside the inspection corresponding to the position of the PET graphene coating bin, the PET film chamber is set at the outside of the reaction kettle, and the PET graphene film coating chamber is set at the outside the reaction kettle. An INDEPENDENT CLAIM is also included for producing a PET graphene-coated coil, comprising (i) adding reaction kettle upper cover, sealing; (ii) feeding the nitrogen into the reaction kettle to replace the air in the kettle; (iii) placing carbon dioxide into the reaction kettle to replace the nitrogen in the kettle; (iv) sending the inert protective gas into the reaction kettle to replace the carbon dioxide in the kettle; (v) removing impurities in the reactor through the circulation of inert gas to make the reactor into an ultra-clean kettle; (vi) feeding the oxygen into a reaction kettle; (vii) adding acetylene into the atom fountain device; (viii) using atom fountain, which makes the acetylene molecule loses a hydrogen atom, and atom fountain device releasing the mixed gas of carbon elements and impurities; (ix) using field-effect separator for separating and purifying the mixed gas carbon element; (x) using atom disperser to make carbon element atoms are not agglomerated in the specific time; (xi) using reformer the pure carbon element of the guide make carbon element including graphene of point structure onto a PET film, walking structure graphene island structure graphene fine under hall fine discharging device formed on the PET film of the dot structure graphene fine island-type graphene structure; (xiii) using weight-efficient fine formed on the PET film; (xiv) using fermion reinforcer to strengthen the stray structure graphene on the PET film into a layered growth stable graphene; (xv) inspecting the quality of the laminated structure of the finished PET graphene film using quality inspector; (xvi) using the steering shaft outputs of the finished PET graphene coating to the outside of the reactor; and (xvii) using the PET graphene coating compartment to winds up the PET graphene coating outside the reaction kettle. DESCRIPTION OF DRAWING(S) - The drawing shows the schematic representation of preparation device.