Medlon Suction Pump are designed to move fluids or gases from one place to another by creating a vacuum or low-pressure area. Featuring advanced sealing mechanisms, they ensure minimal leakage and high efficiency during operation. Suction pumps, featuring durable materials, are corrosion-resistant, making them ideal for handling aggressive liquids and chemicals. Whether for large-scale industrial use or smaller, more specific tasks, suction pumps remain a cornerstone in fluid management technology.
Pump Type : Diaphragm Pump
Suction Rate : ≥15L/min
Negative Pressure : 0.013 MPa
Suction Rate : ≥20L/min
Suction Bottle Capacity : 1000ml × 2
Negative Pressure Regulating Range : 0.013 to 0.09 MPa
Air Pumping Efficiency : ≥28 L/min
Capacity of Liquid Vessel : 1000 ml
Range of Negative Pressure : 0.013 MPa to 0.09 MPa
Suction Rate : ≥40 L/min
Pump Structure : Diaphragm Type
Range of Negative Pressure : 0.013 to 0.09 MPa
Negative Pressure : ≥0.09 MPa
Suction Rate : ≥40 L/min
Range of Negative Pressure : 0.013 to 0.09 MPa
Adjustment range of negative pressure : 0 to 25Kpa
Noise level : ≤55dB
Liquid vessel capacity : 1000ml
Frequently Asked questions
How does the suction pump work?
It creates a vacuum by reducing pressure within the system, drawing fluids or gases from one location to another with minimal leakage and high efficiency.
How does the pump handle extreme temperatures?
Medlon Suction Pumps are built with temperature-resistant materials that allow operation in a wide range of environmental conditions.
How does the pump handle fluctuating fluid levels?
The pump is equipped with automatic pressure control features that adjust suction power in response to fluid level variations, ensuring consistent performance.
Is the suction pump energy-efficient?
Medlon Suction Pumps are engineered for optimal power consumption, ensuring energy-efficient operation while maintaining high performance.
How does the pump maintain consistent suction pressure?
Automatic pressure control ensures stable operation, adjusting suction levels in response to fluid viscosity and environmental conditions.