Why stand over a pan of solvent and breathe fumes while you scrub? Let our machines do the work for you - and get every nook and cranny scrubbed clean.
SKYMEN recommend you to clean:
1. Printer inkjet-heads, seals, ancient coins, badges, valves, machine nozzles, seal & comb
2. Silverware. Bronze ware, antiques, Jewelry, rings, diamond, bracelets, watches, body piercing, earrings.
3. Eyeglasses, sunglasses, optical lenses, tattoo instruments, and piercing.
4. Shaver head, razors, dentures, combs, toothbrushes, and dining appliance.
5. Baby nipples, baby feeder bottles, tableware, fruit, and vegetables
What are the advantages of ultrasonic over traditional cleaning methods?
Compared with traditional methods of ultrasonic cleaning allows you to:
· Minimize the use of manual labor
· Make cleaning and degreasing without the use of organic solvents
· Clean hard to reach areas of products and remove all types of dirt
· Shorten the processes such as extraction, dispersion, purification, chemical reactions
· Eliminates costly mechanical and chemical cleaning of heat exchanger
Ultrasonic cleaning is primarily an aqueous tank system that uses ultrasonic energy to remove dirt, grease, oil, And baked-on carbon from parts. Contaminants such as paint, rust, glued-on gaskets, and heavy layers of bakedonCarbon can also be removed by ultrasonic cleaning but require more aggressive chemistries. Unlike someOther cleaning processes, ultrasonic cleaning will not damage intricate, lightweight, or easily damaged parts. Parts that have a tendency to tightly nest will shadow each other, reducing cleaning efficiency.
How it Works
Ultrasonic cleaning works by producing sound waves in liquids. The waves consist of both high- and low-pressureFronts. The low-pressure fronts are small enough to cause bubbles to form. The high-pressure fronts cause the bubblesTo collapse. The expanding and collapsing bubbles loosen contaminants on the part surface and the chemical cleanersEither dissolve or segregate the free contaminants.
As with sound waves in air, ultrasonic sound waves can be varied by both frequency (pitch) and amplitude (power). Higher frequencies will produce smaller bubbles and lower frequencies will produce larger bubbles. Larger bubblesWill typically dislodge large particles and smaller bubbles small particles. Typical industrial systems are either 28kHz or 40 kHz, which can handle the particle sizes in the range of normal automotive cleaning. Ultrasonic cleaningSystems with a much higher frequency are used in the computer industry where tiny particles need to be removed.
Configuration of Equipment
The most basic piece of equipment for ultrasonic cleaning is a stainless steel tank with an ultrasonicTransducer and power supply (frequency generator), and is usually referred to as a benchtop unit. MoreAdvanced units may include features such as heating, filtration, mechanical agitation, rotating baskets, Ultrasonic power controls, oil skimmers, water level controls, and frequency modulators to improveSolution degassing.