The cleaning principle of ultrasonic hand-free mop

The cleaning principle of ultrasonic hand-free mops is mainly based on the cavitation effect of ultrasonic waves in liquid media. The following is a detailed explanation:

Ultrasonic cleaning technology utilizes the cavitation effect of ultrasonic waves in a liquid medium to clean the inner and outer surfaces of the mop wherever the liquid medium reaches. The ultrasonic generator emits high-frequency oscillation signals, which are converted into high-frequency mechanical oscillations by the transducer and then transmitted to the medium. Cavitation occurs in the medium to remove stains. During the propagation process, ultrasonic waves continuously radiate forward, causing the liquid to flow and generating tiny bubbles. These bubbles constantly collide and squeeze each other. When the bubbles burst, they impact the stains or penetrate between the stains to form gaps, causing the stains to break and decompose. Meanwhile, ultrasonic waves have a strong emulsifying effect and can achieve the effect of uniform stirring, grinding and crushing.

In addition, due to the formation of cavitation effects, which generate acoustic pressure and thermal effects, ultrasonic hand-free mops can also strike bacteria, especially chain bacteria, to achieve the effect of sterilization and disinfection. This cleaning method is both deep and gentle, causing no damage to the mop itself, and can effectively remove stains and bacteria on the mop.