RoHS Digital Ultrasonic Cleaner And Baths Use In Aerospace
Ultrasonic technology reaches the most inaccessible surface areas
of complex aerospace components, providing much faster and far more
thorough cleaning results than, spraying and manual scrubbing and a
more environmentally friendly alternative to solvent cleaning.
If the tank size is not OK for you, customized machine is welcome.
Or you can directly contact sales6(at)skymen.cc for more info.
Advantages for Skymen ultrasonic cleaner:
There are many advantages to cleaning parts with Skymen Ultrasonic
Cleaning Systems, not the least of which are our machine’s
incredible versatility. In fact, our ‘unofficial’ motto is; If it can fit into water, you can clean it.
While the versatility is one major advantage allowing you to clean
almost anything, there are several other advantages that will
dramatically benefit both you and your clients/customers. These
- Clean Intricate Items with Ease: Ultrasonics easily reaches deep into even the most finely detailed
- Cleans Fast: Many items can be cleaned in less than two minutes allowing you to
quickly return them to your clients.
- Reduces Labor Costs: Fast cleaning means jobs can be completed in fewer hours.
- No Harsh/Dangerous Chemicals: Most items can be cleaned in just water with just a few ounces of
our environmentally friendly cleaning solutions
|wooden case packing||85x66x93cm|
|Tank capacity||38L with roller|
Adjustable ultrasonic power
Original BLT type transducer
SUS304/SUS316L stainless steel tank
Adaptable for continuous operation
Adjustable thermo controller
Adjustable ultrasonic power
With separate control ultrasonic electronic generator
sweep mode control available
digital timer & heating control
boost mode& oil skimmer upon clients requirement
pressure pump and filter system are available
CE & RoHS
Packing & shipping:
Packing , loading, delivery time
Export wooden case
About 7 working days
Minimum Order Quantity
By express company / air / sea
Voltage with AC110V, signal phase, AC220V/380V three phase are no
problem for us.
Please inform us when you make order.
How to choose a suitable ultrasonic cleaener?
When you contact us regarding a suitable cleaner, please provide
the following information:
- What type of object do you want to clean (metal, plastic, machine
- What type of contaminants do you want to remove from the object?
- How large is the object and how many do you need to clean?
Other models for your choice:
The basic components of an ultrasonic cleaning system include a
bank of ultrasonic transducers mounted to a radiating diaphragm, an
electrical generator, and a tank filled with aqueous solution. A
key component is the transducer that generates the high-frequency
mechanical energy. There are two types of ultrasonic transducers
used in the industry, piezoelectric and magnetostrictive. Both have
the same functional objective, but the two types have dramatically
different performance characteristics.
Ultrasonic tanks are generally rectangular and can be manufactured
in just about any size. Transducers are usually placed in the
bottom or on the sides, or sometimes both when watt density (watts
per gallon) is a concern. The transducers can be welded directly
into the tank, or watertight immersible units can be placed
directly into the aqueous solution. In some instances the
immersibles may be mounted at the top of the tank, facing down. For
applications such as strip cleaning, one immersible is placed on
top and one on the bottom, with minimal distance between them. The
strip is then run through the very high energy field. A tank should
be sturdy in construction, ranging from 11 to 14 gauge in
thickness. Larger, heavy-duty industrial tanks should be 11 to 12
gauge and should contain the proper stiffeners for support due to
the weight of the solution.
The solution used in ultrasonic cleaning is a very important
consideration. Solvents such as 1,1,1-trichloroethane and freon
have been used effectively for many years, with and without
ultrasonics. However, with the advent of the Montreal protocol,
which calls for elimination of key ozone-depleting substances by
1996, companies are searching for more environmentally friendly
methods to clean their parts. Chemical formulators are developing
products that meet the demands of cleaning operations, yet are
compatible with the health and well-being of society.
Whenever possible, it is best to use a water-based detergent in the
ultrasonic cleaning process. Water is an excellent solvent,
nontoxic, nonflammable, and environmentally friendly. However, it
can be difficult and expensive to dispose of soiled water. Rinsing
and drying can also be difficult without detergents. High surface
tension exists in solutions without detergents, thus making rinsing
difficult in hard-to-reach areas. Detergents can therefore be added
to lower the surface tension and provide the necessary wetting
action to loosen the bond of a contaminant to a substrate. As an
added bonus, the cavitation energy in a water-based solution is
more intense than in an organic solvent.