Tag: exair

Safety Is Everyone’s Responsibility

Published on by Russ BowmanLeave a comment

That’s a direct quote that everyone at EXAIR hears at our regularly scheduled safety training meetings. While our machine tool operators & assembly technicians spend a lot more time “up close and personal” with devices that can hurt you if not used properly, we all work in the same building with them. That’s why EVERYONE is required to attend those meetings. I like the people I work with, so I REALLY like the level of confidence we all have that the company is looking out for us like that.

The confidence in safety that we have in working at EXAIR is built into our engineered Compressed Air Products as well. Compressed air is downright dangerous, so it’s imperative that you use it safely.

I spent 6 years & 23 days in the United States Navy, so I know full well that you can’t make anything “sailor proof” (no offense to you veterans of other branches, but I once got a letter of commendation from my Commanding Officer for fixing something that I’d broken myself) but I cannot figure out, for the life of me, how to violate OSHA’s Standard on using compressed air for cleaning, with an EXAIR Super Air Nozzle:

OSHA Standard 1910.242(b) says that if you use a compressed air device for cleaning, the static air pressure at the nozzle or opening must not exceed 30 PSI when dead-ended (blocked). Since the air from a Super Air Nozzle comes out of those holes recessed between those fins, there’s a (dare I say it?) sailor proof relief path to make sure that can’t happen.

In fact, all of our blowoff products comply with that standard:

The same design feature (the cap overhanging the body) makes our Flat Super Air Nozzle (left) and our Super Air Knife (right) OSHA Compliant.

Another danger associated with the use of compressed air is the noise level associated with introducing a high pressure gas to atmospheric pressure. If you use airguns or other blow offs without engineered nozzles, you likely know this already. EXAIR engineered Compressed Air Products solve this safety issue as well. Each of the products in the photos above has a very specific feature that causes the primary flow of compressed airflow to entrain a secondary airflow, which results in a much higher total developed airflow. That makes them EXTREMELY efficient — but it also forms a low velocity boundary layer around the hard-hitting air stream in the center, which attenuates the sound level.

In each of these EXAIR engineered compressed air products, the primary air stream following the curved surface causes entrainment. And efficiency. And sound attenuation.

The effectiveness of that low velocity boundary layer is so good that all of our Super Air Nozzles except the very largest ones are compliant with OSHA Standard 1910.95(a) for maximum allowable noise exposure (that limit is 90dBA, so you know.)

In closing, let me reiterate: compressed air is dangerous, so use it safely, and that starts with using safe compressed air products. Like EXAIR’s…we’re all about safety. If you’d like to find out more, I can talk about it all day, and sometimes I do…give me a call.

Russ Bowman, CCASS

Application Engineer
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Supporting The Next Generation of Engineers

Published on by Brian FarnoLeave a comment

A while back, I was lucky enough to spearhead a donation from EXAIR to The University of Cincinnati’s 1819 Innovation Hub Makerspace. For the past several years, we have been sponsoring the UC Combat Robotics club, which uses the Makerspace to build its bots and learn more about the applications of its course of study. This facility is open to all students who attend the university. The course of study does not matter; the desire to learn appropriate usage of equipment and a determination to create are all that is needed.

The space puts every student through training for safety and manufacturing processes, if needed, and then the students can operate on their own. The staff in the space are often students themselves, or they are people with years of industry experience to share with the students utilizing the space. This 12,000 square-foot makerspace and fab lab is home to a variety of equipment that can all be seen on their equipment listing here. You can go in and learn how to use anything from a sewing machine or soldering iron, all the way up to a 4-axis CNC machine. If you just have an idea and desire to learn, the staff will even train you on how to make the idea come to life and do it all safely in a semi-controlled environment.

When we saw the need for safe, efficient use of compressed air in this space, EXAIR stepped in to help. We outfitted every air drop in the facility and every machine with an EXAIR VariBlast Precision Safety Air Gun w/ Chip Shield and Nano Super Air Nozzle. This will help keep all the operators safe by eliminating the risk of exceeding 30 psig dead-end pressure and also reducing the operating noise level to below the OSHA standard of 85 dBA, all the way down to 75 dBA. By keeping the entire facility uniform, they are also able to make purchasing new units easier when they are needed.

We also helped them assemble their new EXAIR Chip Trapper System to help recycle the coolant from their CNC machines and help them extend the life of their cutting fluid by being able to remove all the debris from their sumps, reducing the surface area on which bacteria can grow.

On top of both of these, we helped them to see how easy a Cold Gun is to mount onto the side of virtually any machine in their shop, even the industrial sewing machine, and showed them just how beneficial it can be. There was actually a group of students using one of the stationary belt sanders, and we were able to connect the Cold Gun to the closest air drop, use the magnet to hold it onto the housing of the sander, and position the single-point cold outlet to the contact point to keep the sandpaper and material cooler to prevent loading up of the sandpaper.

These were just a couple of the products we were able to share with them in order to help outfit their space with safe and efficient compressed air products. I’ve condensed the entire event down into a 50-second clip if you would like to watch. I feel like we need some classic Benny Hill music in the background.

I think the best part of this experience for me was the discussion that evolved as we unpacked all the items. We had already had lots of chatter back and forth around what their system is capable of and also what they plan to do with the EXAIR products. Then, as we are unpacking and discussing the capabilities, more applications started to come up. I have a feeling this is just part of what happens in this space. Ideas are born, then brought into fruition, all within these walls.

Special thanks to Benjamin Jones and his team for letting us be part of training the future leaders in the industry.

Brian Farno, MBA – CCASS Application Engineer

BrianFarno@EXAIR.com
@EXAIR_BF

Meet the Next Evolution in Industrial Cleanup: The EasySwitch Wet-Dry Vac — Now Available in ATEX

Published on by Jordan T ShouseLeave a comment

In fast-paced industrial environments, cleanup demands can change in seconds. One moment you’re recovering spilled coolant, the next you’re vacuuming metal chips or fine dust. Equipment that can’t keep up slows productivity, increases risk, and drives maintenance costs. That’s where the EXAIR EasySwitch Wet-Dry Vac changes the game — and now, with the introduction of the ATEX version, it’s ready for even the most hazardous environments.

One Vacuum. Two Modes. Zero Downtime.

The EasySwitch Wet-Dry Vac was engineered to eliminate one of the most common pain points in industrial housekeeping: switching between wet and dry cleanup.

Traditional vacuums often require time-consuming filter changes, tools, or even separate units. The EasySwitch simplifies this process with a patented, tool-free design that allows operators to transition from liquid recovery to dry debris removal in seconds.

A single latch releases the filter element for quick removal when moving to liquid mode — then reinstalls just as easily for dry applications.

Powered by Air — Not Electricity

Unlike electric shop vacs that rely on motors prone to wear, the EasySwitch operates entirely on compressed air.

This pneumatic design delivers several operational advantages:

  • No motors to clog or burn out
  • Maintenance-free operation
  • Safe for liquid recovery
  • Continuous duty capability
  • Reduced risk of electrical hazards

With no moving parts in the vacuum generator, reliability increases while maintenance requirements drop — a major win for plant managers and maintenance teams alike.

Not that it’s particularly difficult to change the filter in my trusty shop vac, but this is indeed an “Easy Switch”.

Introducing the ATEX EasySwitch: Built for Explosive Atmospheres

For facilities operating in hazardous locations, standard equipment isn’t enough. That’s where the ATEX-rated EasySwitch Wet-Dry Vac comes in.

ATEX certification refers to equipment approved for use in potentially explosive atmospheres — environments where flammable gases, vapors, mists, or combustible dust may be present.

These include industries such as:

  • Chemical processing
  • Oil & gas
  • Paint & coatings
  • Food processing (combustible dust)
  • Pharmaceutical manufacturing

The ATEX EasySwitch is engineered to mitigate these risks through explosion-protected design, allowing safe pneumatic vacuum operation in classified hazardous areas.

Because the EasySwitch already operates without electricity, it provides a strong foundation for hazardous-location safety — now enhanced with ATEX compliance for regulated environments.

The Bottom Line

The EasySwitch Wet-Dry Vac redefines industrial cleanup with:

  • Instant wet/dry conversion
  • Tool-free filter changes
  • Pneumatic, maintenance-free operation
  • Powerful vacuum performance

And now, with the ATEX version, it extends those benefits into the most demanding and hazardous work environments.

Whether you’re managing coolant recovery on the shop floor or maintaining compliance in explosive atmospheres, the EasySwitch platform delivers the flexibility, safety, and performance modern industry demands. If you have any questions, please reach out.

Jordan Shouse, CCASS

Application Engineer / Sales Operations Engineer

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Noise In The Workplace

Published on by Russ BowmanLeave a comment

The Center for Disease Control (CDC) estimates that 22 million workers are exposed to potentially dangerous levels of noise at work every year. That’s “only” about 15% of the total number of people who are employed in the United States, but if you’re one of them, you should absolutely know the risks, and how to protect yourself. Obviously, high noise levels can cause hearing loss, but do you know what else it causes?

  • Cardiovascular disease. Constant noise exposure causes stress, and stress triggers the release of hormones that increase your blood pressure, which can lead to ischemic heart disease, strokes, and arrhythmia.
  • Sleep disruption. Studies show chronic noise exposure during the day can cause difficulty falling asleep, shortened sleep cycles, and frequent wake-ups during the night. All this leads to chronic fatigue and a host of long-term health issues.
  • Immune system suppression. While the exact nature of the relationship is unclear, recent studies have indicated that noise can cause changes in our immune systems.
  • Cognitive impairment: Continued noise exposure causes memory impairment, attention deficits, and reduced concentration.
  • Mental health issues. Not only does continued noise exposure release hormones like cortisol & adrenaline (causing the chronic stress that’ll literally break your heart; see above), it directly influences anxiety, depression, and irritability.
Don’t let this happen to you.

So, how do we protect ourselves? If you said “ear plugs,” you’re not wrong…but did you know that hearing protection in the form of personnel protective equipment (PPE) is considered the LEAST effective method of mitigating noise exposure? The National Institute for Occupational Safety and Health (NIOSH, a sister agency of the Occupational Safety and Health Administration, or OSHA) developed a hierarchy of controls…a “good, better, best” framework, if you will, of methods to address workplace hazards:

Even though hearing protection (the PPE in this case) is least effective, the intent of the hierarchy graphic is not to dismiss it, but to categorize it as a last resort. If all else fails (or, more often, comes up short,) ear plugs are your – and your hearing’s – best friend.

If the source of the noise cannot be eliminated (and let’s face it, an awful lot of industrial processes are necessarily loud), the next best thing to do is to substitute a quieter method or device. That’s where EXAIR comes in: the design of our engineered Air Knives, Air Nozzles, and Air Amplifiers exploits certain principles of fluidics to mitigate the noise levels associated with the rapid depressurization of compressed air when it’s blown for cleaning, drying, cooling, etc. The key to this is entrainment:

EXAIR Intelligent Compressed Air Products such as (left to right) the Air Wipe, Super Air Knife, Super Air Nozzle, and Air Amplifier are engineered to entrain enormous amounts of air from the surrounding environment.

While this entrainment makes EXAIR products EXTREMELY efficient (the compressed air consumption ends up being a fraction of the total developed flow), it also creates a low velocity boundary layer around the primary high velocity & forceful airflow. This layer attenuates the sound level of that high velocity flow.

Compressed air use can be loud, wasteful, and dangerous, but it doesn’t have to be. If you’re looking for a quiet, safe, and efficient solution for your use of compressed air, give me a call.

Russ Bowman, CCASS

Application Engineer
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