How the ultrasonic cleaner works

Ultrasonic cleaners consist of a number of washers designed to clean various components and products. They use the power of the ultrasonic frequency provided by the transducer to convert electricity to a strong frequency, resulting in the formation and implosion of tiny bubbles in the liquid cleaning medium. The bubble acts as a wash which can enter the recess and hidden portion of the product immersed in the liquid. The frequency of the acoustic waves in the ultrasonic cleaning equipment is used to adjust the size and number of cavitation, or the formation and collapse of bubbles.

The ultrasonic cleaning machine has the advantages of high precision, good consistency and high speed. Ultrasonic cleaning equipment is also more environmentally friendly than using chemical solvents or hazardous chemicals. Unfortunately, tightly coupled soils, greases and contaminants cannot be removed using only ultrasonic cleaning equipment, and the combination of water-based cleaning technology and ultrasonic cleaning technology has been recognized as an effective and environmentally safe cleaning method. Ultrasonic cleaning equipment is capable of cleaning individual components and multiple projects simultaneously for a variety of commercial and industrial applications. Jewelry cleaning, curtain cleaning and golf club cleaning are all done with commercial ultrasonic cleaning equipment. Industrial applications include automotive components, critical and precision cleaning before and after cleaning.

All ultrasonic cleaners consist of at least a transducer, a generator and an immersion tank. Tanks range in size from small to portable to industrial tanks. Depending on the application, they may be narrow or rectangular. The parts to be cleaned are placed in a canister equipped with an ultrasonic conducting fluid. There are three common cleaning media: hot water cleaning, using a heated water stream; water-based cleaning, using a water-based ultrasonic cleaning solution and solvent or steam cleaning, where the solvent evaporates and then condenses to the surface components. This process begins with the availability of cavitation. Cavitation is caused by the transducer, depending on the equipment used, either directly in the tank or placed during operation. When the sensor introduces ultrasonic sound waves into the tank, numerous tiny bubbles release energy and explode heat to provide an efficient method of washing the exposed surface of the embedded and embedded parts. There are frequencies and implosions, which allow for a high level of control between the number of direct; high frequency ideals are very small particles removed without damaging the surface of the part and the equipment being cleaned.