The detection of purification effect by Ultrasonic cleaning does not include indirect contact with sanding, but it may be crushed by impact and vibration of small molecules of dirt particles in the liquid, so use Ultrasonic cleaning to stop cleaning parts to form abrasion or scratch, and the parts to be cleaned will not be damaged. Ultrasonic cleaning has high cleaning efficiency. Even small gaps, rusty and moldy parts that are difficult to clean can remove dirt. Moreover, parts that can be cleaned are very common, and can be large or small. Therefore, it has become one of the common cleaning machines in the market. The secondary mechanism of the Ultrasonic cleaning is to apply the cavitation effect of ultrasonic in the liquid medium and the deceleration effect of three direct actions, and put the fluid components in the medium into the sewage for direct or indirect action, so that the dirt can be dispersed, emulsified and peeled from time to time, so as to achieve the purpose of cleaning parts. Above, we have a detailed understanding of the three cleaning and cleaning effects of the best-selling Ultrasonic cleaning:

1、超声波清洗的空化清洗效果：其机理是由于超声波在液体介质中会以每秒20000次以上的高频变换模式压缩力和压力，使液体相互穿透，停止投射。当存在拧紧力时，外部液体介质会因减压作用发生真空核组的一个气泡，而真空组的气泡会受到拧紧力的影响而被压碎，在冲击力较大的情况下被填充，显影继电器会间接影响污垢的清理外观，将其剥离，达到清洗分离的目的。

1. The cavitation cleaning effect of ultrasonic cleaning: Its mechanism is that ultrasonic waves in liquid media will compress the force and pressure with high-frequency transformation modes of more than 20000 times per second, causing the liquid to penetrate each other and stop projection. When there is tightening force, the external liquid medium will generate a bubble in the vacuum core group due to the pressure reduction effect, and the bubble in the vacuum group will be crushed by the tightening force and filled under high impact force. The development relay will indirectly affect the cleaning appearance of the dirt, peel it off, and achieve the purpose of cleaning and separation.

2、超声波的直接流动清洗效果：超声波在液体介质中传递的场景会使液体在场景中的运动方向被称为超声波的直接流动。如果超声波的强度足够大，可以间接看到超声波清洁器中的直接流动，该流动垂直于振动表面并发生。直流作用于被清洗物料表面的油垢，使其不时搅拌，溶解在液体介质中，达到清洗油垢的目的。

2. The direct flow cleaning effect of ultrasound: The scene where ultrasound is transmitted in a liquid medium will cause the direction of motion of the liquid in the scene to be called the direct flow of ultrasound. If the intensity of ultrasound is large enough, direct flow in the ultrasonic cleaner can be indirectly observed, which is perpendicular to the vibrating surface and occurs. Direct current acts on the oil scale on the surface of the cleaned material, causing it to stir and dissolve in the liquid medium from time to time, achieving the purpose of cleaning the oil scale.

3、超声波清洗减速清洗效果：由于超声波在液体介质中的作用，液体颗粒被向前推并减速。如果使用更高频率的超声波清洁器，气穴将不会明显。此时，清洗主要依靠液体颗粒由于超声波的作用，从而减缓颗粒的冲击，阻止污垢的超细清洗，达到污垢散射的目的。

3. Ultrasonic cleaning deceleration cleaning effect: Due to the role of ultrasound in the liquid medium, liquid particles are pushed forward and decelerated. If a higher frequency ultrasonic cleaner is used, the cavitation will not be noticeable. At this point, cleaning mainly relies on the effect of ultrasonic waves on liquid particles to slow down the impact of particles, prevent ultrafine cleaning of dirt, and achieve the goal of dirt scattering.

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