Better Understand Your Blowoff Process with EXAIR’s FREE Efficiency Lab

panoramic view
The EXAIR Efficiency Lab

Many customers may not have the means to test the air consumption of their blowoff solutions. With compressed air being the most expensive utility in a manufacturing facility, it’s important to identify places where you can save money on your overall operating costs. EXAIR manufacturers a wide variety of products intended to help you reduce your compressed air usage. If you’re not able to accurately measure the consumption in your own shop, we invite you to send the products into EXAIR for testing. With EXAIR’s Award Winning Efficiency Lab, just simply contact an Application Engineer, box them up and send them to our warehouse in Cincinnati, Ohio.

EXAIR Efficiency Lab

Once we receive it, our engineers will complete some in-depth testing to determine the compressed air consumption, sound level, and force that your current solution provides. With this information, we’ll be able to compare it to an EXAIR Engineered Solution. This way we ensure that you receive the best, safest solution possible also capable of saving money through reduced air consumption and improved efficiency.  We’ll send you back a comprehensive report that’ll help you to make the best decision for your company.

I’ve been recently working with a customer that sent in one of the nozzles they’re using across all their CNC machines. They wanted us to test it out and see if we’re able to offer them something that could reduce their overall compressed air usage. The nozzle was one of the cheap plastic varieties and was attached to a commonly used modular hose. This type of modular hose is not designed for operating under high pressures. These hoses are more suitable for liquid coolant or air that is at or below atmospheric pressure.

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Inefficient and unsafe plastic nozzle

After testing, we found that at 80 psig the nozzle consumed 3.85 SCFM and produced a force of 1.92 oz. We also noticed that after 60 psig, the nozzle began to leak due to a poor seal where the nozzle met the brass hex. The EXAIR nozzle most suitable to replace this was the 1108SS. At just 2.5 SCFM at 80 psig, replacing the plastic nozzle with an engineered solution saves them 35% of their overall consumption for this blowoff. With close to 1000 of these nozzles in operation, that adds up quickly!!

In addition to increasing efficiency, replacing these nozzles also greatly increases overall worker safety. The sound level is reduced from 73 dBA to just 58 dBA and EXAIR’s nozzles also adhere to OSHA 1910.242(b). The plastic nozzles could be dead-ended, posing a hazard that can result in costly fines. These fines are assessed per infraction, so having multiple non-compliant nozzles can easily get very expensive if you’re subject to an unannounced visit by an OSHA inspector.

If you think you may have an opportunity to improve upon your existing blowoff methods, give us a call. We’ll be happy to take a closer look and have you send the product back to EXAIR for a quick trial in our Efficiency Lab. You’ll be glad you did!

Tyler Daniel
Application Engineer
E-mal: TylerDaniel@exair.com
Twitter: @EXAIR_TD

EXAIR 2″ Flat Super Air Nozzles – Little Things That Make a Big Difference

EXAIR 2″ Flat Super Air Nozzle vs. other nozzles

I recently purchased a dart board to hang on the wall in my basement.  The dart board had a nice wood case with doors.  It also had some beautiful woodwork engraved along the outside edges.  When it arrived, I was so excited I decided to put it on the wall right then.  The wood case had four predefined holes that were 16” apart (to fit onto studs).  I got my tape measure, determined the correct height, and marked the points onto the studs.  As I ran the screw into the wall, I was about halfway into the stud, and the head of the screw broke.  That is correct!!!  It twisted right off the shank.  I was not happy.  I spent good money on a very nice dart board, and the screws were low quality and not tempered correctly.  The screws are only a fraction of the cost of the dart board, but they created a huge headache.  Now, I had to get the screw out and find new better quality screws to continue the process.

As an International Application Engineer for EXAIR, I have been to many facilities throughout the world with large automation systems inside their manufacturing plants.  I always wondered how much money was needed for the capital purchase to get a system created, assembled, and operational.  On many occasions when the customers brought me to their problem areas, I would see the flat plastic “duck-foot” nozzles.  They would be broken, ineffective, and loud.  They were looking for a recommendation to replace these plastic nozzles.  I know that their automation system cost much more than my dart board; but, I can relate to their headaches.

When you have an automated system that costs thousands or hundreds of thousands of dollars, the last thing you want is for nozzles that cost pennies compared to the full system to cause you headaches and problems.  EXAIR has effectively addressed this issue with the model 1122/1122SS 2” Flat Super Air Nozzles.  They are made either from zinc aluminum or stainless steel, not plastic.  This makes them very strong and durable.  With its unique design, they utilize shims which can be easily changed for different force requirements.  For stronger blowing applications, EXAIR also offers this same design in a high power version, model HP1125/HP1125SS.

This makes the 2″ Flat Super Air Nozzle very versatile as you can purchase shim sets with different thickness in your kit.  Now you have more flexibility to “dial” in the correct performance for your application.  Another feature is the ability to draw in large amounts of ambient air to make them very quiet and efficient.  So, it will actually save you money by using less compressed air.  The sound level is only 77 dBA for the model 1122/1122SS, so it is not a noise nuisance.  They are OSHA compliant with noise level, 29CFR1910.95a, and  for dead-end pressure, 20CFR1910.242b.

Since the plastic nozzles break easily, they become very loud and unsafe for workers as they will not meet the OSHA standard.  If you need a durable, versatile, efficient, OSHA safe type of nozzle that will last a long time, the 2″ Flat Super Air Nozzle is an easy choice over the plastic types of nozzles.  If you need help with mounting or positioning the nozzles, we have a line of accessories that can help.  We offer the Stay Set Hose, Magnetic Base, and Swivel Fittings to make it easy to mount and direct the nozzle for optimum performance.

2″ Flat Super Air Nozzle

If you have an automated system that is being contracted or if you are a machine builder, you will want to consider the EXAIR brand for your blow-off, cooling, and coating applications. With the overall cost of the system, you would not want to use poor quality plastic nozzles to save a couple of dollars.  In the long run, it will actually cost you more with loss of production, very loud noises, and an unsafe work environment.  I may have only broken one screw in hanging a dart board due to poor quality, but I can also relate to the unhappy feeling you get when your system is not performing because of low quality nozzles.   If you would like to try out the EXAIR Flat Super Air Nozzles against a plastic nozzle, you can request an Application Engineer to help.

John Ball
Application Engineer

Email: johnball@exair.com
Twitter: @EXAIR_jb

Where Did All The C Clamps Go?

Over the past week I visited a local company here in Cincinnati that utilized a decent number of flat plastic air nozzles on their production lines.   This style nozzle had been used for many years but were the reason their engineering department contacted EXAIR.   The nozzles they had in place were used in many different applications from ejecting bad parts, holding up box flaps, and even positioning product correctly on the production line.   Every nozzle was tied to a regulator somewhere on the machine and all of the regulators were tuned to different pressures.

The customer was experiencing, at certain points during the day, a pressure drop throughout the entire system that would cause packaging lines to shut down due to low air pressure faults. The customer called EXAIR because they determined the plastic nozzles were using too much compressed air and were also a constant maintenance problem. Primarily, they wanted to see if we had a solution to lower compressed air while still achieving the desired production results.

Being local we were able to visit the customer and after discussing the applications we set out through the manufacturing area to discover if we could offer solutions for the problematic areas. We got about 10′ away from a casing machine and I heard a loud hiss of compressed air.   This was even with my foam ear plugs in.  Once we reached the edge of the machine I was quickly able to trace the sound down to a plastic flat nozzle that had been mounted to the machine, broken and held back in place by a large C clamp like seen below.

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As we went through the rest of this production line and the rest of the packaging facility, it was clear the customer had settled on using flat plastic nozzles throughout the plant. Generally we see this because the nozzles are cheap – when you forget to consider operating and maintenance costs. This was not the only broken nozzle being held in place by a clamp and it is also the not the only one that was using more compressed air than necessary.

After finishing the tour and performing some tests here in our lab I recommended that they utilize our 1″ Flat Super Air Nozzle with a .005″ thick shim installed.   By installing the 1″ Flat Super Air Nozzle they are going to be able to mount the metal nozzles with minimal modification to their existing setup as well as lower air consumption and noise level. The metal construction makes them more durable and long lasting in an industrial environment. These nozzles will not break when an operator bumps it and the maintenance department will be able to reclaim all the C clamps that are distributed throughout the facility.

Once we have final numbers on how many nozzles have been replaced and what pressures each nozzle is operated at we will provide the customer the air consumption savings as well as the noise level reduction that they are seeing throughout the plant.

Brian Farno
Application Engineer Manager
BrianFarno@EXAIR.com
@EXAIR_BF

Model 1109-PEEK Solves Customer Dilemma

1109-PEEK
1109-PEEK Nozzle used in non-marring blowoff application

In a recent application for a new installation, an end user of EXAIR products needed a way to remove defective material from a production line.  At times, the defective items would fall along a conveyor, and the end user wanted to install an effective, efficient blowoff system to address multiple points along the conveyor.  Further to the complexity of the application, the end user needed a product that would not damage the product any further, as they reworked those items to reduce total scrap rates.

Initially, we considered a series of PVDF Super Air Knives, one of which could be triggered “ON” when material was detected.  But, the material size is relatively small, leading to the installation of many, many small Super Air Knives.  This solution was viable from a performance perspective, but further review found a more economic solution.

We then considered Super Air Nozzles.  Perhaps a series of small, efficient nozzles, controlled in groups of (5) or (10), could provide the desired blowoff force.  But, what about the need to not damage the product if in contact with the blowoff device?

This is where the PEEK plastic, model 1109-PEEK, became a perfect fit.  A series of 1109-PEEK nozzles provided the necessary blow off force, consumed minimal compressed air, and provided a non-damaging, non-marring solution.  When controlled in clustered groups, the specific section of the conveyor could be cleared of the defective material, blown into bins for reworking.

These attributes of the 1109-PEEK nozzle, along with high chemical resistivity, and a high temperature range (up to 160°C / 320°F) make it a viable choice for a variety of applications.  Maybe that’s why it is currently nominated for a Plant Engineering Product of the Year Award in the Compressed Air category – Please VOTE for the Precision Air Nozzle here.

EXAIR Application Engineers are well versed in the parameters of our products and a wide range of industrial applications.  If you have a need for engineering support in your application, contact an EXAIR Application Engineer.

Lee Evans
Application Engineer
LeeEvans@EXAIR.com
@EXAIR_LE