▎ 摘　　要

NOVELTY - The machine comprises bracket (1), which has upper part provided with a nozzle driving mechanism (2), which drives a nozzle (3) to move up and down and left and right The lower part of the bracket is provided with a bottom plate component (4), which is driven to move back and forth by the front and back driving mechanism (5). The nozzle comprises a shell, which is provided with a first nozzle and second nozzle, and has outside lower end installed with UV tube. The first nozzle has upper end provided with a feeding port, lower end provided with a discharging port, and side wall tangentially provided with air flow hole. When the graphene composite particles are emitted, the input rotating air flow disperses the graphene composite particles. The lower end of the second nozzle is provided with nozzle holes. The ceramic slurry is sprayed out through the nozzle hole. USE - Used as co-printing forming machine based on graphene composite particle injection and photocuring. ADVANTAGE - The machine can improve the printing precision. The graphene has large specific surface area and easy agglomeration, and is difficult to realize uniform dispersion, where the graphene and matrix material are prepared into composite particles of graphene-matrix, and spraying printing and forming the composite particles are conducted to realize controllable composite molding of graphene and matrix. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a method for printing based on graphene composite particle injection and photocuring co-printing forming machine. DESCRIPTION OF DRAWING(S) - The drawing shows a perspective view of co-printing forming machine based on graphene composite particle injection and photocuring. Bracket (1) Nozzle driving mechanism (2) Nozzle (3) Bottom plate component (4) Front and back driving mechanism (5)