超聲波清洗裝置可用於各行各業,如:機械五金、電子、電鍍、製藥、化工、光學、汽車維修、食品、半導體、液晶玻璃、鈦棒過濾、印刷等行業。 本文主要介紹光學鏡片的清洗工藝。
ultrasonic cleaning equipment can be applied to various industries, such as mechanical hardware, electronics, electroplating, pharmaceuticals, chemicals, optics, automotive maintenance, food, semiconductors, lcd glass, titanium rod filters, printing, and so on. this article mainly introduces the cleaning process of optical lenses.
光學鏡片在不同的工藝中應該有不同的清洗工藝,從整體工藝上可以分為清洗、漂洗、脫水、乾燥四個工序。
optical lenses for different processes should h**e different cleaning processes. from the overall process, it can be divided into four steps: cleaning, rinsing, dehydration, and drying.
清洗主要利用三氯乙烯等有機溶劑,利用高溶解度的上板膠、蠟、抗真菌劑等對鏡片表面進行預洗,然後利用清洗劑對鏡片表面進行全面的去汙效果。
cleaning mainly utilizes the highly soluble effect of organic solvents such as trichloroethylene on the upper plate glue, wax, mold inhibitors, etc. to pre wash the surface of the lens, and then uses cleaning agents to comprehensively remove dirt on the surface of the lens.
漂洗,通過清水和超聲波作用對鏡片表面進行漂洗,將洗滌後散落在鏡片表面的洗滌劑從鏡片表面去除。
rinsing, which involves rinsing the surface of the lens with clean water and ultrasonic action, to remove the detergent that is loose on the surface of the lens after washing.
傳統的脫水和乾燥工藝都是通過有機溶劑來實現的,因為有機溶劑對環境和操作者都有或多或少的影響,為了避免這些影響,現代超聲波清洗技術改進了乾燥工藝,採用純水漂洗,沖洗後的鏡片表面沒有雜質, 然後通過熱風迴圈乾燥,既可以快速有效地乾燥鏡片,又可以避免有機溶劑對環境和工作人員的影響。
traditional dehydration and drying processes both use organic solvents. due to the varying effects of organic solvents on the environment and operators, modern ultrasonic cleaning technology has improved the drying process by using pure water for rinsing. after rinsing, the surface of the lens is free of impurities, and then dried by hot air circulation, which can quickly and effectively dry the lens, it can also **oid the impact of organic solvents on the environment and workers.