Optic Ultrasonic Cleaner

Optical lens ultrasonic cleaning machine is a member of a large family of ultrasonic cleaning machines. The main object is to clean glass lenses, resin lenses, microscopes, binoculars, camera lenses, coated glass, prisms, lenses and other optical products before and after coating and assembly processes Room cleaning to meet product manufacturing process and quality requirements.

bentchtop ultrasonic cleaner
optic ultrasonic cleaner

Optical lens ultrasonic cleaning machine is mainly used in the cleaning of glass lenses, resin lenses, microscopes, telescopes, camera lenses, coated glass, prisms, lenses and other optical products before and after coating and before assembly; in the optoelectronic industry, it is mainly used in ITO conductive glass , LCD substrate cleaning, cleaning of residual liquid crystal after liquid crystal chip packaging.

How does the optic ultrasonic cleaner work

  1. The working principle of the ultrasonic cleaning machine is that the high-frequency oscillation signal sent by the ultrasonic generator is converted into high-frequency mechanical oscillation by the transducer and propagated to the medium—the cleaning solvent. The ultrasonic wave in the cleaning liquid has the same density and density. The front radiation makes the liquid flow and produces tens of thousands of tiny bubbles. These bubbles form and grow in the negative pressure zone where the ultrasonic wave propagates longitudinally, and quickly close in the positive pressure zone. In this process known as the “cavitation” effect, the closure of bubbles can form an instantaneous high pressure exceeding 1000 atmospheres. The continuous generation of instantaneous high pressure is like a series of small “explosions” continuously impacting the surface of the object, making the surface of the object and The dirt in the gap is quickly peeled off, so as to achieve the purpose of surface purification.
  2. Ultrasonic cleaning uses the cavitation, acceleration and direct flow effects of ultrasonic waves in the liquid to directly and indirectly affect the liquid and dirt, so that the dirt layer is dispersed, emulsified, and peeled to achieve the purpose of cleaning. In the ultrasonic cleaning machines currently used, cavitation and direct flow are more used.