Introduction of CWB-G High Pressure Magnetic Vortex Pump
The impeller is a circular disk, and the blades on the circumference are evenly arranged in a radial pattern. An annular flow path is formed between the pump body and the impeller, and the suction port and the discharge port are both at the outer circumference of the impeller. There is a partition between the suction port and the discharge port, thereby separating the suction port and the discharge port. We divide the liquid in the pump into two parts: the liquid between the blades and the liquid in the flow head. When the impeller rotates, under the action of centrifugal force, the peripheral velocity of the liquid in the impeller is greater than the circular velocity of the liquid in the flow channel, and because the liquid from the suction port to the discharge port follows the impeller, the combined result of these two movements makes the liquid Produces the same "longitudinal vortex" as the impeller turns. Hence the name of the vortex pump. It should be particularly pointed out that the peripheral velocity of the liquid particle in the pump channel is smaller than the peripheral velocity of the impeller. During the longitudinal vortex process, the liquid particles enter the impeller blades many times, and the energy is transferred to the liquid particles in the flow channel through the impeller blades. Every time a liquid particle passes through a blade, it gains energy. This is also the reason why the vortex pump has a higher lift than other vane pumps under the same impeller outer diameter. Not all liquid particles can pass through the impeller. As the flow increases, the "ring flow" weakens. When the flow is zero, "ring flow" is the strongest and the head is the highest. Because the liquid in the flow channel is transmitted by the liquid impact energy.
具有以下特点： CWB-G high pressure magnetic vortex pump has the following characteristics:
1.High head, small flow, and specific speed are generally less than 40.
2.Simple structure, small size and light weight
3.Has a self-lubricating circuit to reduce the radial force of the impeller
4.Using cantilever blades to reduce the radial force of the impeller
5, can withstand 10MPA pressure
6. As the medium viscosity of the conveying medium increases, the efficiency of the pump drops sharply, so the medium degree is not greater than 5 * 10-6m / s