ABOUT STAINLESS STEEL MAGNETIC PUMP

QEEHUA Stainless Steel Magnetic Pumps: Ideal Solution for Alkaline, Oily and Solvent Media

Made of SUS304/SUS316 selected materials, QEEHUA stainless steel magnetic pumps show excellent resistance to alkaline liquids, organic solvents and oily media, ensuring long term stable operation.

Excellent resistance to high and low temperatures: With a wide temperature range from -196 °C to +420 °C, QEEHUA stainless steel magnetic pumps are specialized in transporting cold or hot fluids because of their resistance to high pressures, high temperatures and ultra-low temperatures.

Full magnetic drive, no leakage design: fully enclosed structure, no mechanical seal, no leakage potential; at the same time, low operating noise, low vibration, greatly extend the service life.

APPLICATIONS

Applicable to high temperature mold temperature control, high and low temperature test instruments, semiconductor precision temperature control, chemical equipment, template temperature control, high-end cleaning equipment, high-end printing and dyeing equipment, TCU temperature control system, high temperature condensate recovery.

MATERIAL

SUS 304 / SUS 316

MAX.FLOW & MAX.HEAD

Max.flow: 830 L/min

Max.head: 120 m

TEMPERATURE

-196~420°C

SERIES PRODUCTS SHOW

QWW decomposition diagram

STAINLESS STEEL MAGNETIC PUMP

QEEHUA stainless steel magnetic pump adopts a shaft-less sealing design to ensure that the pump body is completely sealed, realizing zero leakage. It is also equipped with explosion-proof devices to further enhance the safety of use in hazardous environments.

Our innovative new flow channel structure reduces the flow resistance to a minimum, thus improving the output efficiency and energy performance of the pump. Together with the high quality motor (well-known brand), the whole machine realizes quiet operation, high efficiency transmission and long life.

In addition, QEEHUA magnetic pumps offer high temperature resistance, from ultra-low to ultra-high temperatures (-196 °C to +420 °C), and can cope with extreme cold and hot liquid transfer scenarios with reliability.