Blackstone-NEY Ultrasonics is a leading provider of commercial precision ultrasonic cleaning equipment that is well-suited for cleaning virtually any types of valves or fittings. Our ultrasonic cleaning technology is highly effective for removing dirt, grease and grime to meet ever-changing manufacturing and cleanliness specifications.
Our ultrasonic cleaning systems are designed for quick and easy setup. In addition to being highly effective, our equipment helps you improve your cleaning specifications while also allowing your workforce to be performing other tasks for a quick return on your investment.
An important advantage with ultrasonic cleaning is that it allows for deep cleaning of blind holes and areas that manually are very difficult to clean. This means superior cleaning along with the benefit of saving on time, labor and material costs.
The ultrasonic cleaning process produces cavitation energy within the tank, which attacks the buildup of oils and residue from forging, machining and heat treatment. Wherever the water can reach, the ultrasonic cavitation energy will effectively clean valves and fittings for the highest finish quality.
Our ultrasonic systems are commercial grade for long life while being aqueous based and environmentally safe to operate.
We offer a variety of solutions for specific needs:
- Convenient tabletop models with our ProHT models that range in many standard sizes.
- GMC Series is a portable unit that includes a filter and pump within the unit for those especially oily contaminated parts.
- Blackstone-NEY Ultrasonics systems include a standard timer, heater, parts basket and lid. Just choose the right sized unit to match up with your maximum sized parts and volume for your shop requirements.
- Our Agisonic and Aquarius models offer precision automated cleaning.
Typical Applications
- Vacuum Systems
- Gas Delivery Systems
- Ultra-pure Water
- Pneumatic Valves
- Fluid Fittings
Need help choosing the right cleaning equipment for your facility? Contact us today to discuss your goals.