The advantages of micro pumps mainly lie in their compact size, high precision, strong adaptability, and low energy consumption, making them ideal for scenarios with limited space and fine requirements.
Micro pumps are typically small in physical size, usually ranging from a few centimeters to a dozen centimeters, and are lightweight with a compact structure.
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They can be easily integrated into small devices, such as portable medical instruments, mini humidifiers, or electronic heat dissipation systems.
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No large installation space needs to be reserved for them, which reduces the design difficulty and volume of the overall equipment.
Most micro pumps have the ability to precisely adjust flow rate and pressure, meeting the needs of fine fluid delivery.
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By controlling parameters such as voltage and frequency, they can achieve fluid delivery at the microliter or even nanoliter level, suitable for scenarios like reagent addition in laboratories and drug administration in medical devices.
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They have good operational stability, small flow rate fluctuations, and can maintain consistent delivery effects for a long time.
Micro pumps have high compatibility with the delivered medium and the working environment.
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They can transport various fluids such as water, medical liquids, and gases, and some models can even handle corrosive or high-viscosity media.
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They can work stably in special environments such as low temperature and low pressure, adapting to multiple fields including medical treatment, electronics, and scientific research.
Micro pumps generally have low power, consume less electricity during operation, and meet energy-saving requirements.
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The noise generated during operation is usually below 40 decibels, which will not cause obvious noise interference to the surrounding environment, making them suitable for noise-sensitive scenarios such as homes or laboratories.
Would you like me to sort out a comparison table of core parameters between micro pumps and ordinary pumps? The table will cover key indicators such as size, precision, and energy consumption, helping you intuitively distinguish the differences between the two.
