During the operation of the ultrasonic cleaning machine, the high-frequency vibration signal generated by the ultrasonic signal generator is mainly converted into high-frequency mechanical vibration through the transducer and propagated to the liquid. The ultrasonic cleaning machine can radiate forward in the liquid in a sparse and dense manner, and generate tens of thousands of small bubbles. These bubbles form and grow in the negative pressure zone during the propagation process, and sensitively close in the positive pressure zone. In this process known as the "cavitation effect", the closure of bubbles can form an instantaneous high pressure of thousands of atmospheres, continuously generating high pressure, just like many small "explosions" constantly impacting the surface of objects, causing the dirt in the surface and gaps of objects to peel off sensitively, thus achieving the cleaning purpose.

The ultrasonic cleaning machine is mainly made using its sophisticated circuit design, excellent imported components, and advanced processing technology to produce a new generation of power ultrasonic cleaning equipment. Its operation is reliable and efficient, and the output power of the entire equipment is relatively stable. To a certain extent, it is widely used in the cleaning of glass bottles, rubber plugs, various filter elements and screens in pharmaceutical enterprises; Pre electroplating treatment of metal and non-metal structural components; Cleaning of fine components such as electronics, optics, and instruments; Cleaning of jewelry, precious metals, and rare metals.

The selection of cleaning solution temperature for ultrasonic cleaning machine, water cleaning solution is more suitable for cleaning temperature of 40-60 ℃ to a certain extent, especially in cold weather. If the cleaning solution temperature is low, the cavitation effect is poor, and the cleaning effect is also poor. Therefore, some cleaning machines wrap heating wires around the outside of the cleaning cylinder for temperature control. When the temperature rises, cavitation is prone to occur, so the cleaning effect is better. As the temperature continues to rise, the gas pressure inside the bubble increases, causing a decrease in the impact sound pressure, reflecting the synergistic effect of these two factors.

The process and cleaning solution of ultrasonic cleaning machine should be analyzed clearly before purchasing the cleaning system. The material composition, structure, and quantity of the cleaned parts should be identified, and the dirt to be removed should be analyzed and clarified. These are the prerequisites for determining which cleaning method to use and whether to use water-based cleaning solution or solvent. The subsequent cleaning process still needs to be validated through cleaning experiments.

Article source: Kaiping ultrasonic cleaning machine http://www.kpzfcsb.com/