Tag: pneumatic blow off

Who Wants to Save on Compressed Air?

Published on by Al WooffittLeave a comment

At EXAIR we pride ourselves on helping our customers optimize their compressed air usage. Our intelligent compressed air products are engineered to be quiet and efficient, saving you on compressed air consumption. This is just one of the six steps that we recommend in order to optimize your compressed air system.

The first step we would recommend is to measure your air consumption. If you are going to attempt to reduce air consumption in your facility, it is necessary to know what is using it. If you know the consumption of your compressed air-operated products, you can make note of this. A more comprehensive solution would be to install some of our Digital Flowmeters in branch lines in your facility. The flow data provided by this will help you narrow down the high consumption areas and processes.

The second step we would suggest is to find and fix leaks. Our Ultrasonic Leak Detector is perfect for this. According to the Compressed Air and Gas Institute, leaks should not exceed 5-10% of your system’s air supply (we would obviously want 0%, but realistically this is unachievable). However, it is not uncommon to see leaks account for over 30% of many facilities’ compressed air supply being lost through leakage. That’s a potential for a 25% gain in compressed air supply!

The third step would be to upgrade your blowoff, cooling and drying operations using engineered compressed air products. All of EXAIR’s products, like our Super Air Knives, or Super Air Nozzles, are designed with efficiency in mind. Upgrading to an efficient EXAIR product is going to reduce your consumption, sometimes dramatically so!

The fourth step is to turn off your compressed air when not in use. This may sound obvious, but it is not uncommon for compressed air products to be left running continuously. We offer many solutions here, from a simple ball valve (found in many of our Drum Vac Kits), to a solenoid valve (found in our Cabinet Cooler Systems), to our Electronic Flow Controllers – combining a solenoid valve and photoelectric sensor.

The fifth step would be to use intermediate storage near the point of use. If you are controlling your compressed air usage through the use of valves and controls, then your consumption won’t be constant. This fluctuation in demand can be evened out with the use of secondary storage, like our Model 9500-60 Receiver Tank. This will ensure you have the volume and pressure when and where you need it.

Finally, our sixth step is to control the operating pressure. More specifically, to reduce the pressure to the minimum required to get the job done. Simply installing a pressure regulator at the point of use will lead to big savings.

If you would like to start optimizing your compressed air system, then give me a call!

Al Wooffitt
Application Engineer

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Using EXAIR Products for “The Old One-Two Punch”

Published on by Russ BowmanLeave a comment

In boxing, there are five basic punches, and they’re commonly called out by numbers so that trainers can instruct boxers rapidly during the development of fundamentals. It’s also useful for them in real live bouts, where overly complicated plans can lead to defeat….former heavyweight champion Mike Tyson famously said, “everyone has a plan until they get punched in the mouth.” Those five basic punches are:

  • #1: The jab. Just like it sounds, this is a punch thrown directly forward with the lead hand. In many combinations, it’s the first punch thrown (that’s why it’s #1).
  • #2: The cross. This is a more powerful punch thrown with the back, or dominant, hand, and gets its power from the torque & rotation of the boxer’s body, when thrown correctly.
  • #3: The lead hook. This is an even more powerful punch than the cross. Its power comes not only from rotating the torso (like the cross) but also by pivoting on the lead foot to get the hip & shoulder involved. Because of the unbalanced and relatively unguarded position it leaves the boxer in, it’s riskier than a jab or cross, and oftentimes reserved for situations where the boxer sees an opportunity to score a knockout blow. If that plan doesn’t work, Mike Tyson’s famous quote above may very well come to fruition.
  • #4: The right uppercut. This is another devastating punch, thrown by the boxer’s dominant hand (assuming they’re right-handed) in an upward motion to contact the opponent’s head or body. If it connects to the chin or solar plexus, there’s a good chance the opponent will end up on the mat. It has to be thrown while the boxer is in close with the opponent, which gives the opponent the option to deal a devastating blow as well.
  • #5: The left uppercut. Same as above, but thrown with the boxer’s lead, or less dominant hand (again, assuming they’re right-handed.)

Because it generally leaves the boxer in a better defense position, the “one-two” combination is by far one of the most used moves in the ring. The term has even found its way into the popular vernacular, meaning two things that happen in rapid succession that lead to the desired outcome.

For the purposes of today’s blog (as the title suggests), I’m going to use it to describe an application where a customer uses two EXAIR products: a Model 1006SS Back Blow Air Nozzle, and a Model 6082 1″ Aluminum Line Vac in conjunction with each other.

This particular customer uses the Back Blow Air Nozzle to blow out the injector bore of an engine cylinder head assembly.

EXAIR manufactures three sizes of Back Blow Nozzles: our Model 1008SS Atto Back Blow Air Nozzle (left) is 0.2″ in diameter and can be used in 1/4″ to 1″ inside diameter holes, channels, etc. Model 11006SS 1/4 NPT Back Blow Air Nozzle (center) is good for 7/8″ to 4″ inside diameters, and Model 1008SS 1 NPT Back Blow Air Nozzle (right) is used for 2″ to 16″ inside diameters.

Thing is, they don’t want the debris flying all over the place. We considered a Chip Shield on the 1/4″ pipe extension that the Back Blow Air Nozzle was threaded onto, but since they insert it vertically from above, that could allow for debris to fall back down onto the assembly, and possibly right back into the injector bore, or one of the other openings on top. Instead, they opted for a Line Vac to vacuum the debris away as the Back Blow Air Nozzle blew it out of the hole.

While Line Vacs are primarily used to convey bulk material from one place to another (left), or to remove scrap trim (center), they’re also well suited for this application. Compressed air (1) enters the annular plenum (2) and is ejected at a high velocity through a ring of jets (3). This draws a vacuum on the inlet (4), creating a conveyance flow of air to carry whatever’s entrained in that flow through the outlet (5).

Engineered compressed air products have a multitude of advantages in applications like this. They’re durable & reliable. They have no moving parts to wear, or electrical components to burn out. They can operate continuously if needed, or they can be cycled on & off rapidly with no ill effects. If you’d like to find out how EXAIR Intelligent Compressed Air Products can help your operation, give me a call.

Russ Bowman, CCASS

Application Engineer
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More About Compressed Air Safety

Published on by Al WooffittLeave a comment

We all know how crucial safety is in the workplace. Most companies conduct some type of annual safety training, and a key takeaway from these sessions is that safety isn’t just the job of a few individuals; it’s everyone’s responsibility. At EXAIR, we take safety very seriously. Many of our products are designed with safety as a priority, including our Safety Air Guns, which highlight our commitment to this principle. This focus is essential because using compressed air can pose health risks if not handled correctly.

In the U.S., OSHA (Occupational Safety and Health Administration) is the agency that enforces regulations to ensure safe and healthy work environments. They have the authority to impose hefty fines for any violations. When it comes to compressed air, two common violations involve air guns and blow-off devices, as outlined in 29CFR 1910.242(b) regarding dead-end pressure/chip shielding and 29CFR 1910.95(a) concerning maximum noise exposure limits.

The first regulation, 29CFR 1910.242(b), pertains to hand-held tools. It specifies that blow-off devices should not be used at pressures exceeding 30psig if the compressed air can become dead-ended. If there’s no escape route for the air, it can penetrate the skin and lead to an air embolism. A straightforward solution is to drill a hole to provide an alternate escape path, although this can introduce other safety concerns, which we’ll cover later. EXAIR’s air nozzles are designed with fins that allow air to escape safely, preventing blockage by your skin. This means you can confidently use the EXAIR Super Air Nozzles at pressures above 30psig.

The second regulation, 29CFR 1910.95(a), outlines the maximum sound levels that a person can safely be exposed to. Prolonged exposure to high sound levels can lead to permanent hearing damage. This is where the cross-drilled nozzle doesn’t quite meet the mark. While it’s safe for dead-end pressure, the noise from the turbulent airflow is quite loud. In contrast, EXAIR’s nozzles are designed to pull in surrounding air, creating a much quieter laminar flow. For instance, our Model 1210 Safety Air Gun, which features the Model 1100 Nozzle, operates at just 74dBA, well below the noise exposure limit for an 8-hour shift.

Model 1210 Soft Grip Safety Air is fitted with an EXAIR Super Air Nozzle. We can also supply it with a Rigid Extension and Chip Shield (right).

If you’re serious about compressed air safety, EXAIR’s range of safe, quiet, and efficient Safety Air Guns and Air Nozzles is an excellent option for your facility. Feel free to reach out if you want to chat about this or any other compressed air applications you might have!

Al Wooffitt
Application Engineer

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Banner image by Gerd Altmann from Pixabay

EXAIR’s Super Air Wipe

Published on by Al WooffittLeave a comment

EXAIR’s Super Air Wipe is a quiet and efficient solution for your pipe or cable blowoff. They are specifically engineered for drying, cleaning or cooling a variety of extruded shapes. The 360° uniform airflow produced by the Super Air Wipe will be more effective, while using less compressed air than a comparable solution using an array of nozzles. They are also easy to insert into your process due to the split design, allowing you to clamp the Air Wipe around your material without the need for threading.

The Super Air Wipe comes in two different materials – aluminum and stainless steel, with various stock sizes. Our aluminum models are available in sizes from 3/8″ to 11“, and stainless is available from 1/2″ to 4“. As with all EXAIR’s other stock products, these are available for same-day or next-day shipping, and are covered under our 30-day unconditional guarantee. The aluminum models are rated for temperatures of up to 400°F, while the stainless steel are good up to 800F.

The aluminum Super Air Wipe is available in 11 sizes; the stainless steel Super Air Wipe comes in 5 sizes…all from stock.

We also provide Super Air Wipe Kits to get the most out of your Super Air Wipe. A kit will include the Super Air Wipe itself, a filter, a regulator, and a shim set. The filter will remove bulk liquids and debris from the compressed air to keep performance optimal. The regulator is used to fine-tune the force provided by the Super Air Wipe. This helps to not over-use the amount of compressed air required for the job.

EXAIR’s Starter Guide: Air Wipes

If you need larger adjustments to the force and flow than the regulator can provide, then you can add shims to increase the airflow and force. They are easy to install on the Super Air Wipes to allow for applications to have more cooling, faster drying, and better removal of tough debris. With both the regulator and shim set, you can vary the air velocity from a breeze to blast, so whatever your application requires, the Super Air Wipe will work for you.

If you would like to learn more about our Super Air Wipes, then please give us a call!

Al Wooffitt
Application Engineer

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