Product Introduction:
The AM030FPW micro water pump is outfitted with a 030 motor featuring metal brushes, and its voltage options are fully customizable to accommodate a wide range of operational requirements—whether for low-power household devices or higher-demand industrial equipment. Its casing, crafted using blue zinc plating, forms a robust protective layer that significantly enhances durability and corrosion resistance
AM030FPW micro water pump distinguishes itself with a host of impressive advantages: it operates with ultra-low noise, producing minimal sound that makes it ideal for household and indoor settings—from quiet living rooms to office spaces—without causing disturbances; boasts an exceptionally long service life, reducing the need for frequent replacements and lowering long-term maintenance costs; achieves remarkable energy efficiency, striking a perfect balance between powerful output and minimal energy consumption to support prolonged use and delivers strong, stable water pressure to handle various water-supply demands with ease, whether for steady trickles or more robust flows.
Product size:
Product Parameter Information:
Products model: AM030FPW
Rated voltage: 5V
Operating voltage: 4V-6V
Pumping current: <200mA
Water pressure: >0.2Bar
Water Flow: >110-170mL/Min
No-load noise: <45dB
Fluid Usage: Water
Its applications span a variety of innovative products: it serves as a core component in floor-cleaning robots, providing consistent water flow to ensure efficient, streak-free mopping; powers steam mop sweepers by maintaining steady steam pressure, enabling deep cleaning of floors and surfaces; supports agricultural and industrial drones in tasks like precision spraying of crops or aerial cooling, with reliable water delivery even during high-speed operation; and drives window cleaning machines, ensuring precise, controlled water distribution that contributes to streak-free, spotless results. With such versatility and performance, the AM030FPW micro water pump proves to be a dependable choice across diverse water-supply scenarios.
