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    全自动超声波清洗机在工业行业的地位?
    2020-4-3 13:46:19

    超精密清洗包括超精密清洗机械零件、电子元件、光学组件、等精密工业生产过程中,去除的目的极其微小的灰尘颗粒。

      Ultra precision cleaning includes ultra precision cleaning of mechanical parts, electronic components, optical components, and other precision industrial production processes, the purpose of removing extremely small dust particles.

      根据超声波清洗机的不同清洗方法,也可分为物理清洗和化学清洗:利用力学、声学、光学、电学、热学原理,依靠外部能量的作用,如机械摩擦、超声波、负压、高压等。在罢工。紫外线、蒸汽等清除物体表面污垢的方法称为物理清洗;依靠化学反应的作用,利用化学药品或其他溶剂清除物体表面污垢的方法称为化学清洗。如用多种无机或有机酸除去物体表面的铁锈、氧化皮,用氧化剂除去物体表面的颜色。消毒剂能杀灭微生物,清除霉菌等。物理清洗和化学清洗各有利弊,并有很好的互补性。在实际的使用过程中,为了获得好的清洗效果,通常将其与两者结合使用。

      According to the different cleaning methods of ultrasonic cleaning machine, it can also be divided into physical cleaning and chemical cleaning: Based on the principles of mechanics, acoustics, optics, electricity and heat, depending on the effect of external energy, such as mechanical friction, ultrasonic, negative pressure, high pressure, etc. On strike. UV, steam and other methods to remove the dirt on the surface of objects are called physical cleaning; depending on the role of chemical reaction, the method of using chemicals or other solvents to remove the dirt on the surface of objects is called chemical cleaning. For example, use a variety of inorganic or organic acids to remove the rust and oxide skin on the surface of the object, and use an oxidant to remove the color on the surface of the object. Disinfectants can kill microorganisms and mould. Physical cleaning and chemical cleaning have their own advantages and disadvantages, and have good complementarity. In the actual use process, in order to get better cleaning effect, it is usually used in combination with both.

      根据清洗介质的不同,可分为湿式清洗和干洗:一般在液体介质中清洗称为湿式清洗,在气体介质中清洗称为干洗。传统的清洗方法多为湿式清洗,而比较容易理解的干洗是真空吸尘器。但近年来,干洗发展迅速。比如激光清洗。紫外线清洗,等离子清洗,干冰清洗等,在高。精细工业技术领域发展迅速

    全自动超声波清洗机

      According to the different cleaning medium, it can be divided into wet cleaning and dry cleaning: generally, cleaning in liquid medium is called wet cleaning, and cleaning in gas medium is called dry cleaning. The traditional cleaning method is mostly wet cleaning, and the dry cleaning which is easy to understand is vacuum cleaner. But in recent years, dry cleaning develops rapidly. For example, laser cleaning. UV cleaning, plasma cleaning, dry ice cleaning, etc. Rapid development of fine and advanced industrial technology

      理论的超声波清洗机超声波发生器的高频振荡信号,通过换能器转换成高频机械振荡和传播媒体,清洗溶剂,超声辐射在清洁流体密度相互作用,使液体流动和产生成千上万的50 - 500微米直径的微小气泡,存在于液体中的微小气泡在声场的作用下振动。这些气泡在超声经度传播的负压区形成和生长,而在正压区,当声压达到声压值时,气泡迅速生长,然后突然闭合。关闭和泡沫产生激波,在其周围的数千个大气压的压力,不溶性土的破坏,让他们分散的清洁液,当一组粒子涂以石油和坚持清洁表面,油乳化,固体颗粒和分离,从而达到清洗的目的清洁部分。在这个被称为空化的过程中,气泡闭合会导致几百度的温度和超过1000个大气压的瞬时压力。

      The high frequency oscillation signal of the ultrasonic generator of the theoretical ultrasonic cleaning machine is converted into high frequency mechanical oscillation and transmission media through the transducer. The solvent is cleaned and the ultrasonic radiation interacts with the density of the cleaning fluid, making the liquid flow and generate thousands of micro bubbles with the diameter of 50-500 μ m. The micro bubbles in the liquid vibrate under the action of the sound field. These bubbles form and grow in the negative pressure area of ultrasonic longitude propagation, while in the positive pressure area, when the sound pressure reaches the value of sound pressure, the bubbles grow rapidly and then suddenly close. The closure and foam generate shock waves, around which thousands of atmospheric pressure, insoluble soil damage, let them disperse clean liquid, when a group of particles coated with oil and adhere to clean the surface, oil emulsification, solid particles and separation, so as to achieve cleaning purposes. In this process, known as cavitation, bubble closure can result in temperatures of several degrees and transient pressures of more than 1000 atmospheres.

      以上就是全自动超声波清洗机在工业行业的地位的详细介绍,想要了解多请点击官网http://www.sinokohl.com

      The above is a detailed introduction of the position of automatic ultrasonic cleaner in the industry. For more information, please click http://www.sinkohl.com