Multi tanks ultrasonic cleaner for optical glass electronic parts

Product overview:

Multi groove ultrasonic cleaning machine: multi tank ultrasonic cleaning machine uses water, pure water, alkaline or weak acid, water-based solvent as cleaning agent, and spray, spray, hot dip, bubbling and other cleaning methods, combined with appropriate drying methods, to form a semi-automatic ultrasonic cleaning production line. Especially suitable for

Multi groove ultrasonic cleaning machine:

The multi tank ultrasonic cleaning machine uses water, pure water, alkaline or weak acid, water-based solvent as cleaning agent, and spray, spray, hot-dip, bubbling and other cleaning methods, combined with appropriate drying methods, to form a semi-automatic ultrasonic cleaning production line. It is especially suitable for the cleaning of small batch of electronic circuit boards, electronic parts, clock parts, metal stamping parts, metal machining parts, jewelry, glasses frame, glassware, semiconductor silicon chip, etc. It has the characteristics of unique technology, strong pertinence, simple structure, convenient use, low cost and low investment, and can meet the special cleaning requirements of different products.

characteristic:

1. SUS316L stainless steel cleaning tank

2. SUS304 stainless steel condenser tube

3. High efficiency BLT ultrasonic transducer imported from Japan

4. Adjustable LED display temperature control system

5. Built in safety heating system

6. Open stainless steel water separator and water absorber

7. Condensation safety system

8. Level safety system (steam tank and regeneration tank)

9. Built in all electronic ultrasonic control system

10. It can be operated continuously for a long time

11. It is safe and easy to operate

12. Can be designed and manufactured according to customer requirements

working principle:

What is the working principle of multi slot ultrasonic cleaning machine? The following is to introduce the main links and steps of its work, the principle and knowledge of how the multi groove ultrasonic cleaning machine works. The principle of ultrasonic cleaning machine is to convert the sound energy of the power ultrasonic frequency source into mechanical vibration and radiate the cleaning liquid in the tank to ultrasonic wave by cleaning the tank wall. Due to the ultrasonic radiation, the microbubbles in the liquid in the tank can maintain vibration under the action of sound waves.

When the sound pressure or sound intensity reaches a certain degree, the bubble will expand rapidly and then close suddenly. In this process, shock wave is generated at the moment of bubble closure, which makes 1012-1013pa pressure and local temperature regulation around the bubble. The huge pressure generated by ultrasonic cavitation can destroy insoluble dirt and make them differentiate into solution. Steam cavitation has a direct reverse impact on fouling.

On the one hand, it can destroy the adsorption between the dirt and the surface of the cleaning part, on the other hand, it can cause the fatigue damage of the dirt layer and be detached. The vibration of the gas bubble scrubbes the solid surface. Once the dirt layer has a seam to drill, the bubbles "drill in" and vibrate to make the dirty layer fall off. Due to the cavitation effect, the two liquids disperse rapidly at the interface and emulsify. When the solid particles are wrapped by the oil, they adhere to the solid surface When cleaning the surface of the parts, the oil is emulsified and the solid particles fall off automatically. When ultrasonic propagates in the cleaning fluid, the positive and negative alternating sound pressure will be generated, and the jet will impact the cleaning parts. At the same time, due to the nonlinear effect, the acoustic flow and micro acoustic flow will be generated, and the ultrasonic cavitation will produce high-speed micro jet at the interface of solid and liquid. All these effects can destroy the dirt and remove or weaken the boundary The fouling layer can increase stirring and diffusion, accelerate the dissolution of soluble pollutants, and strengthen the cleaning effect of chemical cleaning agent. It can be seen that where the liquid can be immersed and the sound field exists, it can be used for cleaning parts with very complex surface shape. In particular, the use of this technology can reduce the amount of chemical solvents, thus greatly reducing environmental pollution.