▎ 摘　　要

NOVELTY - The device has a movable plate that is slidably provided in a chute. The right end of the electric push rod is fixedly connected with a graphene heating box. The graphene heating box is fixedly installed at the bottom of the movable plate. The top of the graphene heating box is provided with a feed port. The top of the feed inlet extends to the top of the movable plate and the outer wall is provided with a sealing cover. A horizontal screw feeder (9) is installed at the bottom outlet of the graphene heating box. A graphene molding component (10) is installed on the right side of the top outer wall of a base.The right end outlet of the horizontal screw feeder is located in the inner cavity of the graphene molding assembly. An air-cooled assembly is installed in the middle of the right side of the front end of a mounting plate. The air-cooled assembly is located on the right side of the graphene molding component. USE - Pressure forming device for automated graphene production. ADVANTAGE - The circulating pump draws the low-temperature condensate from the condensate tank cavity into the spiral heat exchange tube cavity through the pipe, and cools down the air in the housing cavity so that the air blown by the exhaust fan to the molding tank case is low temperature state, speed up the cooling efficiency of graphene, the low-temperature condensate enters the cavity through the condensate pipe to cool down the case of the forming tank during die-casting. The condensate in the cavity flows back into the condensate tank through the pipeline to cool down again, which is convenient for the circulating pump to continue to be drawn out, which improves the cooling efficiency of the forming tank while increasing the utilization rate of the cold source. DESCRIPTION OF DRAWING(S) - The drawing shows a cross sectional view of the pressure forming device for automated graphene production. Horizontal screw feeder (9) Graphene molding component (10) Top plate (12) Side plate (13) Forming groove (14)