超声波清洗设备可用于各行各业,如:机械五金、电子、电镀、制药、化工、光学、汽车维修、食品、半导体、液晶玻璃、钛棒过滤、印刷等行业。 本文主要介绍光学镜片的清洗工艺。
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.
光学镜片在不同的工艺中应该有不同的清洗工艺,从整体工艺上可以分为清洗、漂洗、脱水、干燥四个工序。
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机溶剂,利用高溶解度的上板胶、蜡、抗真菌剂等对镜片表面进行预洗,然后利用清洗剂对镜片表面进行全面的去污效果。
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,通过清水和超声波作用对镜片表面进行漂洗,将洗涤后散落在镜片表面的洗涤剂从镜片表面去除。
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.
传统的脱水和干燥工艺都是通过有机溶剂来实现的,因为有机溶剂对环境和操作者都有或多或少的影响,为了避免这些影响,现代超声波清洗技术改进了干燥工艺,采用纯水漂洗,冲洗后的镜片表面没有杂质, 然后通过热风循环干燥,既可以快速有效地干燥镜片,又可以避免有机溶剂对环境和工作人员的影响。
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.