91视频破解版的發展曆史

　　The Development History of Ultrasonic Cleaning Machines

　　91视频破解版的發展曆史可以追溯到20世紀初，自1880年居裏兄弟發現壓電效應以來，壓電學成為現代科學與技術的一個重要領域。然而，壓電換能器最早應用於工程是僅作為濾波器件的石英晶體諧振器，而壓電效應在工程中應用也隻局限於水聲和電聲器件。

　　The development history of ultrasonic cleaning machines can be traced back to the early 20th century. Since the discovery of the piezoelectric effect by the Curie brothers in 1880, piezoelectricity has become an important field of modern science and technology. However, the earliest application of piezoelectric transducers in engineering was only as quartz crystal resonators as filtering devices, and the application of piezoelectric effects in engineering was also limited to underwater and electroacoustic devices.

　　在第一次世界大戰期間，法國著名物理學家保羅·朗之萬發明了“鋼-石英-鋼”結構的夾心壓電換能器，並成功地在水中進行了發射和接收超聲波的實驗，這是人類首次對超聲波技術的應用展開研究。

　　During World War I, the famous French physicist Paul Langevin invented a sandwich piezoelectric transducer with a "steel quartz steel" structure and successfully conducted experiments on transmitting and receiving ultrasonic waves in water. This was the first time that humans had conducted research on the application of ultrasonic technology.

　　然而，真正的超聲波清洗技術研究始於20世紀50年代，當時H.B.Miller對換能器做出了巨大改進，發展了加預應力的複合換能器，為功率超聲波技術的工業應用奠定了基礎。在這一時期，超聲波清洗技術主要應用於電子、光學和醫藥等領域。由於其強大的實用性和廣泛的應用範圍，從大型機械零部件到小型半導體器件等的清洗，久而久之被俗稱為“無刷清洗”。

　　However, the real research on ultrasonic cleaning technology began in the 1950s, when H.B. Miller made significant improvements to transducers and developed pre-stressed composite transducers, laying the foundation for the industrial application of power ultrasonic technology. During this period, ultrasonic cleaning technology was mainly applied in fields such as electronics, optics, and medicine. Due to its strong practicality and wide range of applications, the cleaning of large mechanical components to small semiconductor devices has gradually become commonly known as "brushless cleaning".

　　然而，此技術的廣泛應用並非一帆風順。盡管91视频破解版已經有了30多年的曆史，日本在25年前就開始使用，但一個誤解一直困擾著這項技術，使人們懷疑超聲波清洗器的效果。

　　However, the widespread application of this technology has not been smooth sailing. Although ultrasonic cleaning machines have a history of over 30 years and were first used in Japan 25 years ago, a misconception has plagued this technology, leading people to doubt the effectiveness of ultrasonic cleaning machines.

　　傳統的超聲波清洗器理論認為，氣泡起到了清洗的作用。但科學家經過反複試驗發現，事實上，氣泡隻是由超聲波的強力粗密波引起的單純的氣體爆發而已，它反而會抑製甚至消除超聲波清洗器的清洗力，真正發揮清洗作用的是真空的氣穴。

　　The traditional ultrasonic cleaner theory holds that bubbles play a cleaning role. But scientists have found through repeated experiments that in fact, bubbles are just simple gas explosions caused by the strong and dense waves of ultrasound. They can actually suppress or even eliminate the cleaning power of ultrasonic cleaners, and the true cleaning effect is the vacuum air pockets.

　　日本清洗工程研究會創始人柴野佳英在1987年公開發表了這一超聲波清洗的基本理論，並根據這一理論研製出了技術領先的91视频下载大全。

　　The founder of the Japanese Cleaning Engineering Research Association, Yoshihide Shibano, publicly published the basic theory of ultrasonic cleaning in 1987 and developed a technologically advanced ultrasonic cleaning equipment based on this theory.

　　隨著應用範圍的擴大和科技的進步，91视频下载大全也在不斷發展和改進。傳統的91视频下载大全由於自動化程度不高而難以保證零件清洗的均勻性，近年來逐漸出現了自動化程度高、靈活性強的自動化91视频下载大全。

　　With the expansion of application scope and the advancement of technology, ultrasonic cleaning equipment is also constantly developing and improving. Traditional ultrasonic cleaning equipment is difficult to ensure the uniformity of part cleaning due to its low degree of automation. In recent years, automated ultrasonic cleaning equipment with high degree of automation and strong flexibility has gradually emerged.

　　如今，91视频破解版更是進一步進入到人們的生活中來，幫助清洗一些結構複雜，難以清理的物件。

　　Nowadays, ultrasonic cleaning machines have further entered people's lives, helping to clean some structurally complex and difficult to clean objects.

　　91视频破解版的工作原理

　　The working principle of ultrasonic cleaning machine

　　工作原理上，91视频破解版主要是通過換能器將功率超聲頻源的聲能轉換成機械振動，通過清洗槽壁將超聲波輻射到槽子中的清洗液。

　　In terms of working principle, the ultrasonic cleaning machine mainly converts the sound energy of the power ultrasonic frequency source into mechanical vibration through a transducer, and radiates the ultrasonic waves into the cleaning solution in the tank through the cleaning tank wall.

　　由於受到超聲波的輻射，使槽內液體中的微氣泡能夠在聲波的作用下保持振動。這些微氣泡在破裂時會產生強大的衝擊力，從而將汙垢和油脂從被清洗物表麵及內部分離。

　　Due to the radiation of ultrasonic waves, microbubbles in the liquid inside the tank can maintain vibration under the action of sound waves. These microbubbles generate strong impact force when they rupture, thereby separating dirt and grease from the surface and interior of the cleaned object.

　　同時，超聲波在清洗液中傳播時會產生正負交變的聲壓，形成射流，衝擊清洗件。並且由於非線性效應會產生聲流和微聲流，而超聲空化在固體和液體界麵會產生高速的微射流，所有這些作用能夠破壞汙物，除去或削弱邊界汙層，增加攪拌、擴散作用，加速可溶性汙物的溶解，強化化學清洗劑的清洗作用。

　　At the same time, when ultrasound propagates in the cleaning solution, it generates positive and negative alternating sound pressure, forming a jet that impacts the cleaning parts. And due to nonlinear effects, acoustic and micro acoustic flows are generated, while ultrasonic cavitation produces high-speed micro jets at the solid and liquid interface. All of these effects can destroy pollutants, remove or weaken boundary pollution layers, increase stirring and diffusion effects, accelerate the dissolution of soluble pollutants, and enhance the cleaning effect of chemical cleaning agents.

　　具體而言，當液體被利用時，將產生氣泡，並且當液體被壓縮時，氣泡將被壓縮，它會被粉碎和破碎，這便發生了著名的“超聲波空化效應”。在空化效應中，氣泡閉合的瞬間產生衝擊波，使氣泡周圍產生巨大的壓力（1012-1013pa）及局部調溫，這種超聲波空化所產生的巨大壓力能破壞不溶性汙物而使他們分化於溶液中。同時，蒸汽型空化對汙垢的直接反複衝擊也有利於汙漬的清除。

　　Specifically, when a liquid is utilized, bubbles will be generated, and when the liquid is compressed, the bubbles will be compressed, crushed, and broken, resulting in the famous "ultrasonic cavitation effect". In the cavitation effect, a shock wave is generated at the moment when the bubble closes, causing a huge pressure (1012-1013pa) and local temperature regulation around the bubble. The huge pressure generated by ultrasonic cavitation can destroy insoluble pollutants and cause them to differentiate into solution. At the same time, the direct and repeated impact of steam cavitation on dirt is also beneficial for the removal of stains.

　　此外，超聲波清洗也利用了超聲波在液體中的空化作用、加速度作用及直進流作用對液體和汙物直接或間接的作用。這樣可以使汙物層分散、乳化、剝離，從而達到清洗目的。

　　In addition, ultrasonic cleaning also utilizes the cavitation, acceleration, and direct flow effects of ultrasonic waves in liquids to directly or indirectly affect liquids and pollutants. This can disperse, emulsify, and peel off the dirt layer, thereby achieving the purpose of cleaning.

　　值得一提的是，91视频破解版中的換能器起著至關重要的作用，它是一種能量轉換器件。它的主要功能是將輸入的電功率轉換成機械功率（即超聲波）再傳遞出去，而自身消耗掉的功率很少（小於10%）。

　　It is worth mentioning that the transducer in the ultrasonic cleaning machine plays a crucial role as it is an energy conversion device. Its main function is to convert the input electrical power into mechanical power (i.e. ultrasound) and transmit it out, while consuming very little power (less than 10%) on its own.

　　具體來說，換能器將功率超聲頻源的聲能轉換成機械振動，通過清洗槽壁將超聲波輻射到槽子中的清洗液。由於受到超聲波的輻射，使槽內液體中的微氣泡能夠在聲波的作用下從而保持振動。

　　Specifically, the transducer converts the sound energy of the power ultrasonic frequency source into mechanical vibration, and radiates the ultrasonic waves into the cleaning solution in the tank through the cleaning tank wall. Due to the radiation of ultrasonic waves, microbubbles in the liquid inside the tank can maintain vibration under the action of sound waves.

　　當使用超聲波換能器時，最需要考慮的問題是與輸入輸出端的匹配，其次是機械安裝和配合尺寸。此外，換能器產生的振幅極小的高頻震動並傳播到清洗槽中，通過機械能作用將產品的汙物清除，提高產品潔淨度。

　　When using ultrasonic transducers, the most important consideration is the matching with the input and output terminals, followed by mechanical installation and fitting dimensions. In addition, the high-frequency vibration generated by the transducer with extremely small amplitude is transmitted to the cleaning tank, and the product's dirt is removed through mechanical energy, improving the cleanliness of the product.

　　小結

　　Summary

　　91视频破解版通過一種被稱為“空化效應”的原理來清除汙漬，而不是利用氣泡。未來隨著技術的不斷進步和市場需求的不斷增長，91视频破解版將會在更多領域得到應用，同時也會更加環保、高效和智能化。

　　Ultrasonic cleaning machines use a principle called "cavitation effect" to remove stains, rather than using bubbles. In the future, with the continuous advancement of technology and the growing market demand, ultrasonic cleaning machines will be applied in more fields, while also becoming more environmentally friendly, efficient, and intelligent.

　　本文由 91视频破解版  友情奉獻.更多有關的知識請點擊  http://www.bolomie.com/   真誠的態度.為您提供為全麵的服務.更多有關的知識91视频下载安装將會陸續向大家奉獻.敬請期待.

　　This article is a friendly contribution from an ultrasonic cleaning machine For more related knowledge, please click http://www.bolomie.com/ Sincere attitude To provide you with comprehensive services We will gradually contribute more relevant knowledge to everyone Coming soon.