
Using the 20-100kHz high-frequency vibration principle, the liquid is converted into 5-50μm uniform droplets. Compared with traditional spraying equipment:
Atomization efficiency is increased by 60%
Material utilization rate is over 95%
Minimum spraying volume 0.1μl/cm²
Core component analysis
1. Ultrasonic atomization module
The piezoelectric ceramic transducer converts electrical energy into mechanical vibration, amplifies the amplitude through the titanium alloy amplitude rod, and forms capillary waves at the nozzle to achieve atomization.
2. Motion control system
The three-axis precision platform (repeatable positioning accuracy ±0.01mm) cooperates with PLC programming to support spiral/grid/custom path spraying.
Typical application scenarios
Electronic manufacturing: PCB board three-conformal paint spraying (illustrated case)

Biomedicine: drug carrier preparation (demonstrating the coating effect of cell culture dishes)

New energy: fuel cell catalyst deposition (compared with traditional spraying SEM image)
