Ultrasonic Atomization Intelligent Deodorization Technology

By utilizing a high-frequency piezoelectric transducer module, a cavitation effect is generated within a liquid deodorizing medium. Upon the collapse of the resulting cavitation bubbles—in addition to generating heat and light radiation—the remaining energy manifests as micro-shockwaves that atomize the liquid into fine mist droplets ranging from 1 to 5 microns in diameter. An internal pneumatic system then disperses these droplets into the surrounding air via airflow; this process facilitates the adsorption, reaction, and decomposition of airborne malodorous gases, thereby achieving effective odor elimination. Simultaneously, the atomization process generates and releases a substantial quantity of negative ions into the air; leveraging the agglomeration effect of these negative ions, airborne dust particles are captured, thereby fulfilling the objective of air purification.