Category: Super Air Nozzle

Mag Bases and Stay Set Hoses

Published on by Al WooffittLeave a comment

When considering your blowoff solution, the angle at which you direct the airflow is very important. This is often found through testing and trying. Once you have found the sweet spot for your engineered, compressed air nozzle, you want to be sure that it won’t move. This is where our Stay Set Hoses and Mag Bases come in.

Flexible and durable, EXAIR Stay Set Hoses come in lengths from 6″ to 36″.


Our Stay Set Hoses have a memory function, so they won’t creep or droop until you physically move them. They are perfect for directing the air flow in a particular direction, or at a specific target. Just be sure you are adjusting them properly to keep them operating for years to come. The Stay Set Hoses come in lengths from 6″ (15cm) to 36″ (91cm), and they have threaded connections with either 1/4″ NPT male on both ends or with a 1/8″ NPT female X 1/4″ NPT male thread. The hoses are made from reinforced synthetic rubber and have a maximum pressure rating of 250 PSIG, and can withstand temperatures of up to 158°F (70°C).

Our Mag Bases can quickly be mounted to any solid steel surface. With 100lb (45.5kg) of pulling force, they will keep your blowoff device firmly in place, whether mounted horizontally, or vertically. They can also be easily moved when a different position is needed. With three different options; a 1-outlet, 2-outlet and a 1-outlet swivel. The 1/4 turn shut off valve allows for easy control to ensure you’re not wasting compressed air when it’s not needed.

If you have a blowoff application that you would like to discuss, don’t hesitate to give us a call. We’d love to discuss the best solution for you!

Al Wooffitt
Application Engineer

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Daniel Bernoulli and His Effect on EXAIR Products

Published on by Al WooffittLeave a comment

Daniel Bernoulli was born on February 8, 1700, in Groningen in the Netherlands. He is the son of Mathematician Johann Bernoulli, who was an early developer of Calculus. Daniel took an interest in mathematics when he was just 7 years old. Although his father tried to dissuade him from focusing on mathematics due to the limited financial gain, Johann did tutor his son in calculus and theories of kinetic energy.

Daniel continued to show promise, attending Basel University at the age of 13, where he studied logic and philosophy. By the time he was 15 years old, he had completed his bachelor’s degree, and earned his master’s degree a year later. At the age of 23, he moved to Venice, Italy to learn medicine, but he couldn’t get away from mathematics, becoming a professor of a university in Venice a year later.

In 1738, Bernoulli published the book Hydrodynamica, where he first explained what we know as Bernoulli’s Principle. This is of particular interest to us at EXAIR, as many of our products operate off of this principle. It states that an increase in the speed of a fluid occurs simultaneously with a decrease in pressure. This is derived from the conservation of energy, where an increase in kinetic energy (speed) requires a corresponding reduction in potential energy (pressure).

When compressed air exits the precise slotted nozzle of our Super Air Knife, this induces a low pressure area, which speeds up and draws in ambient air. This air entrainment (at a ratio of 40:1) is what makes our Super Air Knives so efficient. This same effect can be witnessed with our Super Air Amplifiers, Super Air Nozzles, Super Air Wipes, as well as many other products.

The high speed of the air exiting the (left to right) the Air WipeSuper Air KnifeSuper Air Nozzle, and Air Amplifier creates a low pressure (just like Daniel Bernoulli said) that causes entrainment of an enormous amount of air from the surrounding environment.  This maximizes flow while minimizing consumption of your compressed air.

If you would like to discuss your application, and how the Bernoulli Principle may be beneficial, feel free to give us a call!

Al Wooffitt
Application Engineer

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Compressed Air Safety Do’s and Don’t’s

Published on by Al WooffittLeave a comment

DO take compressed air safety seriously. We are all familiar with the importance of safety. Almost every company has some form of annual safety training. One of the common themes of these kinds of training is that it is not just some people’s responsibility, but that it is everyone’s responsibility. Here at EXAIR we take safety seriously. All of our products are engineered with safety in mind – we even have a line of products with ‘safety’ in the name – Safety Air Guns. This is very important, as working with compressed air can present some health risks if not used properly.

OSHA, the Occupational Safety and Health Administration, is an organization here in the United States that enforces governmental directives for safe and healthy working environments. They can also enforce these directives with heavy fines for violations.  With compressed air, the two most common violations are air guns and blowoff devices are described in 29CFR 1910.242(b) for dead-end pressure/chip shielding and 29CFR 1910.95(a) for maximum allowable noise exposure.

The first regulation – 29CFR 1910.242(b) – references the use of hand-held tools. DON’T use a blowoff device at more than 30psig if the compressed air can be dead-ended. If the compressed air has no other path to escape, it can penetrate the skin, causing an air embolism. A common and simple solution is to cross-drill a hole to allow an alternate path. This could create other safety issues, as we will discuss later. EXAIR’s nozzles are designed with fins which allow the air to escape and not be blocked by your skin.  So, you can safely use the EXAIR Super Air Nozzles above 30psig.

The second regulation – 29CFR 1910.95(a) – references the maximum allowable sounds level an individual should be exposed to. DON’T allow an operator to be exposed to excessive sound levels for too long. This is where the cross-drilled nozzle falls short. Although safe from dead-end pressure, the sound produced by the turbulent airflow is very loud. The engineered design of EXAIR’s nozzles entrain the surrounding air into a laminar flow, which is much quieter. Our Model 1210 Safety Air Gun (which uses our Model 1100 Nozzle) only has a sounds level of 74dBA, which is comfortably under the noise exposure limit for 8 hours.

If you want to take compressed air safety seriously, then DO use EXAIR’s line of safe, quiet and efficient Safety Air Guns and Air Nozzles. If you would like to discuss this, or any of your other compressed air application needs, then give me a call!

Al Wooffitt
Application Engineer

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Banner image by Gerd Altmann from Pixabay
Dead End image by Peggy und Marco Lachmann-Anke from Pixabay

Application Spotlight! – Back Blow Nozzle!

Published on by Jordan T ShouseLeave a comment

Last month I started doing an application spotlight. In these, I’m going to pull from the dozens of phone calls or emails and walk you through how we on the Application Engineering team select a product for a specific application!

A customer called in with a tricky application where they need to keep the ID of a bearing cool. Seemed like a simple application, something where an air amplifier or a Super Air knife would be ideal!

But this wasn’t a simple application. They were heating the OD up, so they could add a surface treatment. The radiating heat was causing the inner race to slightly deform, so they wanted to cool it down, while not interrupting the heating taking place on the OD. And an air amplifier or knife would cool the entire bearing down with its larger pattern of air.

So we had to come up with an off-standard use for one of our products, and the first thought was our Back Blow Nozzles. The bearing ID was 2″, so we went with a 1006SS as it’s rated from 7/8″ to 4″. It was located, so the air stream was aimed downward. The airflow was hitting the ID and bouncing off the plate that the bearing sat on and worked its way out the top. This limited the air flow around the OD to basically zero, so it didn’t affect the coating process! Below is a quick sketch I did with the customer on the phone. It shows a section of the bearing and the air flow that would come from the back blow nozzle!

In more common applications, such as blowing chips or debris forward out of a pipe, our selection of forward blowing nozzles work quite well. However, this may not always be possible. The pipe may be long, making it impossible to push the debris all the way down the pipe. The other end of the pipe may not be open or there could be some process or area to which it is attached that would become contaminated if debris were blown in that direction. In any of these scenarios, a Back Blow Nozzle is the right tool for the job. An array of holes located around the outside diameter of the Back Blow Nozzle head provides a powerful 360° airflow pattern that will pull and clear out any leftover coolant or chips ahead of it within a pipe from a machining or any other process.

From the easy ID blow out application to the tricky “off book” applications, the application engineering team here at EXAIR are here to help you select the right product for you!

Jordan Shouse
Application Engineer

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Bearing Photo courtesy of Patrick via creative commons