Stainless Steel 304 Laboratory Ultrasonic Cleaner

Laboratory ultrasonic cleaners provide quick, consistent cleaning for a wide variety of
applications, including small lab items, parts, and scientific instruments. Every model of
ultrasonic cleaner we carry provides deep cleaning action that removes stubborn contaminants even
from hidden areas and internal, blind surfaces. Some models of ultrasonic cleaners are available
with adjustable timers and temperature settings. When you need to remove blood, proteins, and other
types of contaminants associated with sterilization of medical and dental instruments, or flux from
electronics, you need an ultrasonic cleaner from Skymen


Features:
1. Stainless steel tank has resistance to wear and long work life.
2. Tank capacity: 6.5L(1.7gallon), with digital timer & heater control
3. With Stainless steel basket
4. Use just tab water, or industrial alcohol and solvent cleaner for more higher cleaning requirement
5. Industrial control chip microcontroller. Flexible circuit boards control, more secure & stable
6. Temperature tunable from 20° C to 80° C
7. Certification: CE&RoHS






Shipping info.:
Measurement for 1PCS: 0.052CBM
18PCS per CBM

MOQ: 1PCS
Customer logo is welcome.
Distributors are welcome.


Applied to industry:
Electronics, machinery, auto industry, motor industry, optical industry, watchmaker, jewelry maker, plating& painting industry, food industry, medical& pharmacy, textile industry, office and household...


Skymen Cleaning Equipment Shenzhen Co., Ltd., which engaged in ultrasonic cleaner field for more than 7 years. Our main products are ultrasonic cleaner with different capacity.
Our company is a famous ultrasonic manufacturer with R&D, production and sales. High quality product and after sales services is available from us.
Not only standard ultrasonic cleaner, any non-standard can be design by our engineer.
Suggestion and drawing is professional for you.
Welcome to visit our factory, provide your precious guidance and conduct business negotiation.

Notification:
Voltage with AC110V, signal phase, AC220V.
Please inform us when you make order.

FAQ:
Q: What are the advantages of Skymen ultrasonic cleaner over traditional cleaning methods?
A: 1. Minimize the use of manual labor
· 2. Make cleaning and degreasing without the use of organic solvents
· 3. Clean hard to reach areas of products and remove all types of dirt
· 4. Shorten the processes such as extraction, dispersion, purification, chemical reactions
· 5. Eliminates costly mechanical and chemical cleaning of heat exchangers

Q: What frequency is better for my parts?
A: Frequency is suggested based on pollutants in the objects.
28kHz frequency is stronger, better for car/motor/truckessel parts clean (remove oils, grease, pastes, etc. )
40kHz is better for pcb boards, electronic parts, etc.
Higher precision goods, higher frequency.

Q: Can ultrasonic cleaning damage parts?
A: Although the effect of thousands of implosions per second is very powerful, the cleaning process is safe. No damage to your daily objects.

Q: What cleaning solution should I use?
A: A large variety of different formulas designed for specific applications. Proper selection is crucial for acceptable cleaning activity and to prevent unwanted reactions with the workpiece.

Q: Is rinsing after cleaning cycles?
A: Rinsing is recommended to remove any chemical residue that could be harmful to the part. Details can be rinsed right in your ultrasonic cleaner or in a clean water bath or in a separate sink tap, distilled or deionized water.

Q: How about after sales services?
A: 1 Year warranty for Skymen ultrasonic cleaner.
If any technical problem during warranty time, replacement parts will be sent free of charge. And technical support is also available after 1 year.
How Temperatures Changes Affect Ultrasonic Cleaning 
The temperature at which an ultrasonic cleaning system operates plays a role in the distribution of ultrasonic cleaning action, the power of the ultrasonic cleaning action, and the effectiveness of 
the detergents being used.

Traditional ultrasonic theory suggests that the best temperature for use in an ultrasonic cleaning 
system is typically 65% of the boiling point of the solution.  Although this formula has been used 
as a general guideline to determine optimum temperatures for decades, it rarely plays a role in 
determining optimum temperatures for any given application.  Temperatures are usually related more to the effectiveness of the cleaning agent in use rather than the effectiveness of the ultrasonic cleaning system.  Each cleaning fluid may have an optimum temperature at which it performs best.  This is the temperature that is normally used for a given ultrasonic cleaning application. 

Temperature Affects:

Best Ultrasonic Performance is roughly 65% of the Boiling Point of the Fluid in Use
Temperature Above 65% of the Boiling Point will Decrease Scrubbing Force of the System, but will 
Improve Distribution of that Force.
Most Ultrasonic Cleaners Utilize Temperatures between 130 and 180 degrees F.
When Using Acidic Materials, Use the Lowest Temperature Possible to Reduce Potential Damage to the Stainless Steel Tank.

The Ultrasonic Cleaning Process:

How does an Ultrasonic Cleaner clean?

An ultrasonic cleaner is simply a metal tank [stainless steel] that has pizeo ceramic transducers bonded to the bottom or side. These transducers have a unique property of changing size almost instantly when excited by an electrical signal. When excited the transducer increases in size and causes the tank bottom or side to move. This creates a compression wave in the liquid of the tank.

 By using an electrical generator that puts out a high frequency signal [20 to 250 kHz] the transducer rapidly induces compression and rarefaction waves in the liquid. During the rarefaction cycle the liquid is torn apart. This creates a vacuum cavity within the liquid. These cavities will grow larger and smaller as the compression waves are continued. When the cavity reaches a certain size [based on the frequency and the wattage of the signal] the cavity can no longer retain its shape. The cavity collapses violently and creates a temperature of 5,000 degrees centigrade and a jet of plasma that impacts against whatever object is in the tank. There are millions of these bubbles created and collapsing every second in an ultrasonic tank.

Compression & Reareification Waves in an ultrasonic Tank

It is these collapses that clean the part. The jet will explode the dirt or any other material off the surface of the part. By adding soap or other chemical to the water in an ultrasonic tank, you can increase the effectiveness of the cleaning operation. Heat also improves Ultrasonic Cleaning by eliminating entrapped air in the water. The best temperature to clean with is 80% of the boiling temperature of the solution. You should always use a basket to hold the parts you are cleaning. Never put parts directly on the bottom of an ultrasonic cleaner.

What is Cavitation Erosion?

Cavitation erosion is the effect of the part being left for too long a period in the tank. When the cavitation bubble collapses it generates a temperature of 5,000 degrees C and a shock wave that travels over 500 miles per hour. This will cause the cavitation to erode the part being cleaned. In lower frequencies such as 20kHz Cavitation erosion will eventually eat though the bottom of the tank. If your part has a smooth soft surface it can also be eroded by this effect. These effects are most prominent with lower frequencies.
The Photo shows a tank bottom that over time has severe cavitation damage.

What is a Transducer?
A transducer is a ceramic material that when excited by an electrical pulse will physically change shape. The reverse is also true. When you physically induce force on a transducer it will produce an electrical current in proportion to the force induced. There are also some other types of transducers such as ferrite, and certain combinations of metal and minerals such as quartz that will produce a similar effect. Ultrasonic cleaning type transducers are almost all of the ceramic type with one or two minor exceptions.

Contact person: Amanda
Mobile:+86 18218721290