Railway Bearing Parts Ultrasonic Cleaning Tank

1. Improve bearing accuracy, quality, life and other performance.
2. Solve the problem that the bearing surface is easy to rust and easily oxidized after cleaning.
3. Thoroughly remove the impact of tiny hard particles on the quality of the bearing.

Product Details


1. Improve bearing accuracy, quality, life and other performance.

2. Solve the problem that the bearing surface is easy to rust and easily oxidized after cleaning.
3. Thoroughly remove the impact of tiny hard particles on the quality of the bearing.
4. It is beneficial to the formation of lubricating film and reduce the pollution of lubricating film by dirt.

28Khz/40Khz,4800W ultrasonic power, timer 1-99 minutes and heater 20~95℃ setting; the first tank for cleaning, the second tank for rinsing; the filtration system for chemical/solvent recycle use; for industrial parts rust/grease/oil/dust removing.


Specification sheet:


JP-2096G with filter


1-99 minutes adjustable

Ultrasonic power

2400W (first tank)

Ultrasonic power

2400W (second tank)

Tank size


Tank size


Heating power


Heating power


Tank capacity

175 L

Tank capacity

175 L








AC 380V, 50Hz, 3 Phase

Housing material


Tank material



54 Kg




75 Kg


CE / RoHs / FCC / PSE


Cleaning of Rail / Mass Transit and General Manufacturing parts
As a leading manufacturer of ultrasonic cleaner, skymen helped modernize maintenance depot parts, replacing harmful chemicals and manual processes with environmentally friendly, automatic degreasing equipment. All of our cleaning technology uses water-based cleaning solutions instead of harmful solvents. During the wash cycle, workpieces are sprayed with recirculated, hot aqueous solutions containing a low detergent concentration (between 2% and 5%) to effectively remove oil, greases, carbon and road dirt prior to rebuilding processes.
Skymen manufactures heavy-duty cleaning equipment and cleaning systems that meet the tough demands of rebuilding applications and manufacturing of heavy machinery, mining, and military vehicle components. These automatic systems are used to remove oil, grease, carbon, dirt, and machining debris from parts such as engine blocks and components.

Cleaning performance


Factory tour
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All the machines with 1 year warranty, the spare parts and work life technical support provide for free within warranty.


Q1. How about after sales services?
One year warranty for for all ultrasonic cleaners.
If any technical problem during warranty time, replacement parts will be sent free of charge. And technical support is also available after 1 year.

Q2. What are the advantages of ultrasound over traditional cleaning methods?
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 exchangers

Q3. What frequency is better for my parts?
Frequency is suggested based on pollutants in the objects.
28kHz frequency is stronger, better for car/motor/truck/vessel parts clean(oils, grease,rust,pastes, etc. ) 40kHz is better for pcb boards, electronic parts, etc. Higher precision goods, higher frequency.

Q4. Can ultrasonic cleaning damage parts?
Ultrasonic cleaning is considered safe for most parts; although in some cases it is necessary to observe caution. Although the effect of thousands of implosions per second is very powerful, the cleaning process is safe.

Q5. What cleaning solution should I use?
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.

Q6. How temperature 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.

Increases in fluid temperatures will improve the distribution of ultrasonic cleaning action in the tank. As temperatures increase above 80°F, you will find that the scrubbing action is more evenly distributed and less powerful than at higher frequencies. Simple tinfoil tests can be used to confirm this information. as temperature increases, holes in pieces of aluminum foil take longer to produce. however, the foil will appear to be more evenly attacked by the ultrasonic energy present. Large holes in the foil are replaced by smaller more evenly distributed holes, and dents are visible in between the holes produced by the standing waves in the ultrasonic cleaning tank.

Although the physical scrubbing force of the ultrasonic cavitation is reduced at elevated temperatures, the improvement in the effectiveness of the cleaning agent typically overcomes the reduction in ultrasonic power. Some cleaning agents work best at elevated temperatures. By operating the ultrasonic cleaner at these temperatures, the cleaning agent has an improved ability to loosen the bond strength between the parts being cleaned and the contaminant in question to a point where existing ultrasonic energy can remove it from the surface, even with reduced scrubbing power.

Acidic cleaning agents should not be heated excessively, as many of these fluids can attack the stainless steel that the tank is manufactured of. When using these fluids, it is best to use as low a temperature as possible to avoid such potential damage.

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.

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