Step by step, once the power is connected, the internal circuit of the DC high-pressure pump begins to operate. The current passing through the coil generates a magnetic field, which passes through the stationary rotor within the magnetic field, thereby causing the rotor to rotate. Together, the gears on the rotor are connected to the motor's output shaft, transmitting power to the pump body.
In the second step, the plunger within the pump housing moves forward continuously as the rotor rotates, drawing the liquid into the pump chamber. As the plunger moves forward, the liquid is compressed and directed toward the outlet, forming a high-pressure liquid stream.
In three steps, the high-pressure liquid is connected to the external pipeline at the outlet, then transported through the pipeline to the local application site. During this process, the pressure of the high-pressure liquid is continuously increased until it reaches the required working pressure.
Four steps after completion, the electric pump automatically stops working, and the hydraulic oil in the pump body returns to the bottom of the pump for the next use.
