▎ 摘　　要

NOVELTY - The device has a seawater desalination box (9) that is fixedly installed on a base (1) with bolts, and a matching cylinder is fixedly installed with bolts in the seawater desalination box. The top of the matching cylinder is equipped with a fresh water discharge pipe (10) communicated with an external fresh water collection device, and the bottom of the matching cylinder is integrally formed with a docking shell. A second liquid supply pump (13) connected to the discharge chamber is fixedly installed on the right side of the filter box (5) by bolts, and the output end of the second liquid supply pump is connected to the liquid inlet pipe (8). A controller (14) is fixedly installed on the seawater desalination box by bolts. The controller is connected to a first liquid supply pump (3), a lifting push rod (11), a first solenoid valve (12), a second liquid supply pump, a conveying motor and the two solenoid valves (17) are electrically connected. USE - Device for desalinating seawater using new graphene materials. ADVANTAGE - The lifting push rod used to drive the push plate to pressurize the seawater, so that the seawater quickly passes through the graphene water filtration membrane at a higher pressure, thereby the filtration efficiency is effectively improved, the concentration of the residual concentrated brine is higher, the consumption of water resources required to discharge the concentrated brine is effectively reduced, and the utilization rate of seawater is improved. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic diagram of the device for desalinating seawater using new graphene materials. Base (1) First liquid supply pump (3) Filter box (5) Liquid inlet pipe (8) Seawater desalination box (9) Fresh water discharge pipe (10) Lifting push rod (11) First solenoid valve (12) Second liquid supply pump (13) Controller (14) Solenoid valve (17)