About Green Ring's New Generation LHC Fluorine Lined Magnetic Pump F & Q
浏览次数： Time: 2019-04-30 11:40
Q: What kind of pump is LHC fluorine-lined magnetic pump? Answer: Green Ring LHC magnetic pump is a new generation of fluorine lined magnetic pump independently developed by Green Ring. The entire series complies with ISO2858 standard, complete model, reasonable design, novel structure and very strong functions. Speaking here
Q: What kind of pump is LHC fluorine-lined magnetic
Answer: Green Ring LHC magnetic pump is a new generation of fluorine-lined magnetic pump independently developed by Green Ring. The entire series complies with ISO2858 standard, complete model, reasonable design, novel structure and very powerful functions. Having said that, I can't help but praise one :)!
Q: What conditions are suitable for using LHC fluorine-lined magnetic pump?
Answer: The corrosive working conditions where leakage is not allowed are particularly suitable for the green ring LHC magnetic pump.
Q: What materials are suitable for LHC fluorine-lined magnetic pump?
Answer: Strong acid and alkali, high concentration, high density, no solid impurities (or a small amount of crystals) materials. Strong corrosive media represent: hydrochloric acid, sulfuric acid, nitric acid, hydrofluoric acid, etc. Materials with relatively high density, such as: fuming sulfuric acid (density about 2kg / cm3), bromine (density about 3.1kg / cm3), etc.
Q: What are the obvious advantages or characteristics of LHC magnetic pumps over older fluoroplastic magnetic pumps?
Answer: The LHC magnetic pump uses a unique structural design that completely subverts the structural form of traditional magnetic pumps and breaks through the limitations in function and structure. It is a true leak-free magnetic pump. For transmitting torque, the inner and outer magnetic steels are all rare-earth strong magnets. The non-metallic high-pressure carbon fiber double-layer insulation sleeve is used to make it more efficient, wider in applicability and longer in help. The main shaft and the shaft sleeve are made of dry-grinding, non-pressure sintered silicon carbide, and the clearance spiral guide groove design can convey the material with the crystal, and the performance is more powerful. (See the comparison chart of advantages for details)
Q: How large can the LHC magnetic pump currently be?
Answer: Due to its unique structural characteristics, axial force balance design, combined push-pull magnetic circuit design, and reinforced carbon fiber reinforced sleeve design, it can currently achieve 400 cubic meters per hour.