Ultrasonic cleaning machines are environmentally friendly when used, mainly because they use environmentally friendly cleaning agents and have relatively low power consumption. The ultrasonic cleaning systems for the chemicals used are mostly non-toxic, biodegradable to a certain extent, and meet relevant requirements to a certain extent.

超聲波清洗機在一定程度上主要是用于清洗零件的許多其它系統(tǒng)依賴于使用的有機溶劑，腐蝕性化學(xué)品或危險材料清潔部件。這些溶劑可以是有害的壽命和具有制造和使用過程中對環(huán)境造成不利的影響。

Ultrasonic cleaning machines are mainly used for cleaning parts to a certain extent, and many other systems rely on the use of organic solvents, corrosive chemicals, or hazardous materials to clean components. These solvents can have harmful lifespans and have adverse effects on the environment during manufacturing and use.

超聲波清洗機在運行時對電力運行完全，有沒有大馬力水泵吸了電一樣也有與其他零件的清洗系統(tǒng)。因為他們清洗零件，以便迅速相比其他方法，他們使用更少的電源整體來達到同樣的效果。超聲波清洗是從開始一個綠色進程結(jié)束。 清洗液是的環(huán)境，可生物降解，。 他們使用比其他部位的清洗得不太有效的結(jié)果系統(tǒng)功耗要少得多。 企業(yè)和整個行業(yè)正在向超聲波清洗機 ，以限制他們的生態(tài)足跡。

The ultrasonic cleaning machine operates completely on electricity during operation, and there is no high-power water pump that absorbs electricity, just like there is a cleaning system for other parts. Because they clean the parts quickly, they use fewer power sources overall to achieve the same effect compared to other methods. Ultrasonic cleaning starts with a green process and ends. Cleaning fluid is a safe environment, biodegradable, and non-toxic. They use less effective cleaning than other parts, resulting in much lower system power consumption. Enterprises and the entire industry are moving towards ultrasonic cleaning machines to limit their ecological footprint.

超聲波清洗機可以將高頻振蕩的電訊號轉(zhuǎn)換成高頻機械振蕩，以縱波的形式在清洗液中輻射。在輻射波擴張的半波期間，清洗液的致密性破壞并形成無數(shù)直徑為50-500μm的氣泡。這種氣泡中充滿著溶液蒸汽。在壓縮的半波期間，氣泡訊速閉合，會產(chǎn)生上百Mpa的局部液壓撞擊。這種現(xiàn)象稱為“空化”效應(yīng)。在“空化”效應(yīng)的連續(xù)作用下，工件表面或隱蔽處的污垢被爆裂、剝落。

Ultrasonic cleaning machines can convert high-frequency oscillating electrical signals into high-frequency mechanical oscillations, radiating in the cleaning solution in the form of longitudinal waves. During the half wave period of radiation wave expansion, the compactness of the cleaning solution is disrupted and countless diameters ranging from 50 to 500 are formed μ Bubbles of m. This type of bubble is filled with solution vapor. During the half wave of compression, the bubble closes at a velocity, resulting in a local hydraulic impact of hundreds of Mpa. This phenomenon is called the "cavitation" effect. Under the continuous action of the "cavitation" effect, dirt on the surface or hidden areas of the workpiece is burst and peeled off.

超聲波清洗機在進行購買的時候除了看品質(zhì)之外，還有一個很重要的問題，那就是要看性能。機械類的產(chǎn)品在使用的過程中如果品質(zhì)和性能等基本的問題不達標，相關(guān)的技術(shù)參數(shù)不符合要求，那么導(dǎo)致的結(jié)果就只有一個，那就是我們在使用超聲波清洗機的時候機械很容易出現(xiàn)故障，后期不管是自己維修還是找保修點進行保修都是一件很麻煩的事情。

When purchasing ultrasonic cleaning machines, in addition to quality, there is also an important issue to consider, which is performance. If the basic quality and performance issues of mechanical products do not meet the standards during use, and the relevant technical parameters do not meet the requirements, then the only result is that when we use ultrasonic cleaning machines, the machinery is prone to malfunctions. Whether it is self repair or finding a warranty point for warranty in the later stage, it is a very troublesome thing.