Rule #1 – Always Look Cool

Published on by Brian FarnoLeave a comment

The past two weeks here in Cincinnati have reminded me just what humidity is all about. While the static charge in my garage at home is at an all-time low, the humidity is enough to make me wish I had gills to breathe. Even rucking before work has become a rather sweaty event. When I am rucking, one of the 4 Rules of Rucking is, #1 Always Look Cool. This is an idiom as in don’t let people see you sweat. If you are stressed, just stay cool, keep a level head and look the part. A good pair of aviators always helps to hide what your eyes can’t.

Then I open my garage fridge, because every Midwesterner has their old kitchen fridge in the garage, right? Grab a nice cold aluminum can out. And before I can put it in a thermal insulating housing, I see the condensation of the humidity forming on the aluminum. This makes me think of some of the electrical panels I encountered during my time in machine shops.

I once approached a vertical machining center whose spindle chiller, with a thermo-couple failure, had been cooling the spindle continuously during the summer months. This spindle looked like the ice-cold aluminum can I had sitting out on my workbench yesterday. Fully covered in condensate from the humidity in the air. Condensate collected on an aluminum can and leaving a ring of water on a workbench is one thing. Water running down a high-speed spindle and causing issues with a dry machining process is another. This also reminded me of a recent call where a new customer wanted help sizing a Cabinet Cooler System to replace an air-to-air heat exchanger that had failed. When walking through the information needed to size the panel, I reached the Internal Temp Desired field, and there was a pause. While I thought maybe they were checking their notes, they came back with 72°F. I wrote down the value on my notepad, then asked, “That’s oddly specific. Is there a piece of equipment that alarms out over 72°F that we are trying to protect?” The response I received was no. So I asked what the need was for this low set point.

I dug further with them, and it turned out that’s what they kept the engineers’ office set for in the summer, so they thought my question was odd and figured, if they are comfortable there and their computer on their desk operates well, then it must be a good temperature. This is not an incorrect statement. The control cabinet for the machine would operate just fine at 72°F; however, all the electronics that were in the panel were rated up to 104°F before they overheat, so it doesn’t quite make sense to extend the cooling capacity needed to reach that 72°F requested set point. Once we talked this over, we settled on the standard of 95°F for the internal set point with the understanding that by using a thermostatically controlled system, they could adjust it down lower if they really wanted to. In the end, we saved them some energy by sizing the Cabinet Cooler System to meet the demands of their industrial electronics, not what makes a person feel comfortable.

This isn’t always the case; occasionally, there is a panel that requires a low maximum temperature in order to keep a critical piece of equipment stable. This is why we ask the questions to validate any concerns with the data we are viewing as Application Engineers. This is also why we have built in a number of warnings/alerts on our Online Cabinet Cooler Sizing Calculator.

If you have a panel that needs to be cooled, the online calculator has fields for all the information we need. If you want to walk through the math behind the calculator and talk through the reasons we ask for the information that we do, you can either call, email, or even live chat with an Application Engineer, and we will gladly walk you through our process and the math to determine which Cabinet Cooler System is right for your needs.

Brian Farno, MBA – CCASS Application Engineer

BrianFarno@EXAIR.com
@EXAIR_BF

Soft Grip Super Air Scraper Overview

Published on by jasonkirbyLeave a comment
Scrape off, and blow away, stubborn debris with the Model 1244-48 Soft Grip Super Air Scraper.

EXAIR’s Soft Grip Super Air Scraper is an innovative safety air gun specifically engineered to tackle the most persistent debris encountered in industrial environments. Its patented design incorporates a scraping blade that enhances the effectiveness of powerful compressed air, facilitating the removal of various materials such as caulk, gaskets, sealants, adhesives, tape, paint, stickers, labels, grease, lubricants, and challenging metal chips or flakes. This tool is essential for maintaining cleanliness and functionality in machining tables, sub plates, and assembly stations.

Soft Grip Super Air Scraper

The corrosion-resistant steel scraper is designed to be used with a 2″ Flat Super Air Nozzle and a 3/4″ extension, ensuring the strength and durability needed for even the most demanding cleaning tasks. Extensions for the Soft Grip Super Air Scraper range from 6″ to 72″ in length, making it easier to clean table tops, access hard-to-reach areas inside machines, and reach floors or other distant surfaces. Additionally, Chip Shields are available to enhance the cleaning process.

EXAIR Model 1210 Soft Grip Safety Air Gun

The Soft Grip Safety Air Gun is designed for prolonged use without causing fatigue. Its ergonomic structure ensures that the hand remains in a comfortable position, while the large trigger allows for operation using one or multiple fingers. Constructed from durable cast aluminum, this air gun is built to withstand tough industrial environments and features a handy hanger hook for convenient storage.

The 2″ Super Air Scraper is a patented nozzle designed to effectively remove stubborn debris from various surfaces, including work areas and machinery. Featuring a flat, 2″ corrosion-resistant scraper blade, this nozzle provides the necessary leverage to dislodge fixed debris, allowing the air to efficiently clear it away from the surface.

Together, the Soft Grip Safety Air Gun and Super Air Scraper create an incredible pairing. If you have questions about the Soft Grip Super Air Scraper, or anything regarding EXAIR and our products, please do not hesitate to reach out.

Jason Kirby
Application Engineer
Email: jasonkirby@exair.com
Twitter: @EXAIR_jk

EXAIR Cabinet Coolers for Cooling Motor Control Centers

Published on by John BallLeave a comment

Motor Control Centers, or MCCs, are designed to protect motors and equipment in a single enclosure.  They help to start/stop electrical motors as well as protect them from over-voltage.  MCCs are used in many types of industries, like manufacturing plants, the oil and gas industry, water treatment facilities, and power generation companies. They are crucial for controlling pumps, compressors, fans, and other equipment powered by electric motors.  They can improve the efficiency of motors, increase safety, monitor the system for faults, and reduce down-time. 

A customer contacted me about their MCC as they were overheating.  They contained twelve direct starters to control 15KW motors.  The A/C panel cooler that they were using failed due to corrosion in the heat exchangers.  They wanted to try something different and more reliable as it was costly for replacement units.  Also, the shutdowns caused a loss in productivity.  They contacted EXAIR to see if we could help with our Cabinet Cooler Systems

EXAIR NEMA Type 4/4X Cabinet Cooler System

Cabinet Coolers are powered by an EXAIR Vortex Tube which only uses clean dry compressed air to generate cold air.  This phenomenon does not have any moving parts, no Freon to leak, or refrigerant compressors to fail.  So, they are very reliable for a long time.  We offer cooling capacities ranging from 275 BTU/hr (80 Watts) up to 5,600 BTU/hr (1,641 Watts) with different NEMA (IP) ratings.  These simple, but effective, cooling devices can be used in the toughest of environments.  They can quickly be installed and start cooling your electrical components in less than an hour. 

For the company above, they needed corrosion resistance to protect against the salty air from the sea.  EXAIR offers Cabinet Coolers in both 303SS and 316SS with NEMA 4X (IP66) protection.  They opted to get the highest corrosion resistance, which was 316SS.  They sent a list of electrical components inside, and I was able to calculate the internal heat load.  EXAIR has other methods to determine heat loads, like with our Cabinet Cooler Sizing Guide and Cabinet Cooler System Calculator.  I gathered some additional information about maximum temperatures, panel sizes, and external heat loads, and I was able to recommend a model 4880SS-316-240 Dual Cabinet Cooler System. 

This system includes a 316SS Cabinet Cooler that produces 5,600 BTU/hr (1,641 Watts) of cooling, NEMA 4X protection, a filter, a cold air distribution kit, a thermostat, and a 240Vac solenoid valve to turn off compressed air when cooling is not required.  Instead of replacing the A/C unit with another unit that would fail, they removed it and started using the EXAIR Cabinet Cooler System.  The ease of installation and temperature consistency made the company and maintenance crew very happy. 

EXAIR offers a variety of protection, materials, and hazardous and non-hazardous units in stock for quick delivery.  For our U.S. customers, we are offering a promotion.  You will receive an AC Sensor, a $76.00 value, for free as a promotional item from now until the end of August 2025 with qualified purchases.  How can you not give them a try?  If you are having trouble with electrical components over-heating, you can contact an Application Engineer at EXAIR.  The company above Motor Control Centers was glad that they did.

John Ball
Application Engineer
Email: johnball@exair.com
Twitter: @EXAIR_jb

EXAIR Atomizing Spray Nozzles For Food Tray Mold Release Agent

Published on by Russ BowmanLeave a comment

PET (polyethylene terephthalate) is one of the most common plastics that we see on a day-to-day basis. It’s what they make water and soda (or ‘soft drink’ or ‘pop’, depending on where you live) bottles out of, along with a lot of other products you find on the shelves and in the refrigerated cases of your local grocery store. A couple of times a week, we cook up a nice piece of fish from the seafood counter at our corner grocery: salmon if my wife stops in; whatever white fish is on sale if I do. Whichever becomes that night’s dinner, in any case, is packaged in a PET tray and sealed with plastic film.

I recently had the pleasure of talking with a caller whose company makes those trays. Turns out, they begin life as great big sheets, before they’re cut into smaller rectangles and formed in a mold press. Most anything that’s formed into a shape like that, with force and heat, needs to have some sort of lubricant – called a release agent – applied to the surface to make sure it exits the mold quickly and easily. In ANY molded product application, it’s advantageous to use as little as possible, for two reasons: specialty chemicals like these release agents can get expensive – especially the ones for food, beverage, or pharmaceutical use – and also because any remaining agent will get sealed up with whatever’s getting packaged.

Anyway, my caller’s molding machine came with spray nozzles that, no matter how low the flow was regulated, still sprayed too much. That meant the trays had no problem at all with falling right out of the mold, but the excess release agent was oftentimes causing HIS customer’s plastic film to not seal properly onto the finished food product, and he’d recently gotten an earful about it. He wished there was something he could use that didn’t spray much more than a light fog, because his supplier for the premium food grade release agent he used was always bragging that a light fog was all that was needed. In fact, the supplier actually recommended an EXAIR Model AF2010SS No-Drip Internal Mix, Flat Fan Atomizing Spray Nozzle.

With a flow rate as low as 1.2 gallons per hour, a one-second ‘spritz’ means 0.04 fluid ounces (that’s about a quarter of a teaspoon) gets spread out over the 16″ width of the mold. Which is just enough to let the freshly molded tray fall right out, with almost no residue left over.

When not-much-more-than-a-light-fog is called for, look no further than EXAIR Air Atomizing Spray Nozzles!

Whether your liquid spraying application involves pricey fluids that you don’t want to waste, or if you just don’t want to have to deal with the mess of over spraying, EXAIR has a wide selection of Air Atomizing Spray Nozzles to choose from. If you’d like to find out more, give me a call.

Russ Bowman, CCASS

Application Engineer
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