EXAIR has an extensive line of Safety Air Guns that will meet a variety of applications. Our VariBlast Precision, Compact, Soft Grip, Heavy Duty and Super Blast Safety Air Guns, and TurboBlast will give you a wide range of options to choose from. These options can be expanded on even further through the addition of our Air Gun Accessories. In this blog I want to cover a few of the ways you can customize and personalize your Safety Air Gun to make sure you are getting the most out of our products.
Features & benefits of the new TurboBlast Safety Air Gun
Once you have selected your particular Air Gun, you will want to make sure that you have the right nozzle. Every Air Gun has multiple nozzle options with different force and flow specifications. If your main concern is low sound levels, then the Mini Super Air Nozzle may be the best option. If you need more force, then the 2″ High Power Flat Super Air Nozzle would be preferred. We also have Back Blow Nozzles that are great for blind holes.
In addition to this, there are several different material choices. Zinc-aluminum for general purposes, Type 303 stainless steel for corrosion resistance, Type 316 stainless steel for superior corrosion resistance and mechanical wear, and finally PEEK thermoplastic for non-marring and chemical resistance.
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).
After you have determined the right nozzle, do you need to add a Chip Shield? If you have the potential for flying debris, and you want to protect your operator, then our Safety Air Guns can be equipped with a durable polycarbonate shield. They are also useful for preventing coolant from splashing back, helping you to avoid a mess. You can see a Chip Shield in action in the video below:
We also have various length extensions for when you need more reach for your blowoff operation. Depending on the Air Gun, we have lengths ranging from six inches to six feet. These are great when used in conjunction with our Chip Shields. If you need something more flexible than a straight extension, our Soft Grip Safety Air Gun can also be used with our Stay Set Hoses. These hose have a ‘memory’ to allow for precise positioning without creeping or bending.
Specifically with our Soft Grip Safety Air Gun, we have a special extension and scraper combination, covered in detail in this blog. The Soft Grip Super Air Scraper is highly effective at removing stubborn debris from various surfaces.
Coiled Hose
Finally, we stock a 12‘ coiled air hose. These are available with 1/8NPT, 1/4NPT and 3/8NPT male end swivel connections. This will help you avoid messy and tangled air lines.
Right on schedule with the change in temperature as summer turns to fall, I woke up with a scratchy throat, runny nose, and a bit of fatigue this morning. I weighed my options for relief in the medicine cabinet: pain reliever/fever reducers, over-the-counter cold & flu medication that add cough suppressants, expectorants, and decongestants to the mix, homeopathic remedies with zinc, echinacea, all natural immune boosters, and a jar of honey for my tea or bourbon, depending on the time of day…and my mood. If my symptoms worsen, I can get tested for the flu or COVID, and may be prescribed antiviral medication. In any case, rest and hydration will likely be important factors in my recovery.
Much like my medicine cabinet, the Air Knives section of the EXAIR catalog has a selection of remedies for problems that can be addressed by a curtain of air. If the curtain of air needed is 36″ or less, we can consider any of the three styles of Air Knife we make: Super, Standard, or Full Flow. If it has to be more than that, the Full Flow Air Knives are out (36″ is their max length) but Standard Air Knives come in lengths up to 48″. Super Air Knives give us the most range here; they come in lengths up to 108″, and can actually be coupled together to provide uninterrupted curtains of flow in whatever length is needed.
Super Air Knives (left) come in lengths up to 108″, Standard Air Knives (middle) up to 48″, and Full Flow Air Knives (right) up to 36″.
Standard and Full Flow Air Knives come in aluminum or 303SS. Aluminum is lightweight and suitable for general purpose applications where high heat and corrosive elements are not a factor. Aluminum Air Knives are rated to 180°F. Type 303 Stainless Steel is suitable for mildly corrosive environments, and is rated to 800°F ambient temperatures.
Super Air Knives are available in aluminum and 303SS, as well as 316SS and PVDF. Type 316 Stainless Steel is stronger and more corrosion resistant than Type 303, and offers superior resistance to certain pitting, which makes it the best choice for food, pharmaceutical, and surgical product manufacturers. PVDF (polyvinylidene fluoride) Super Air Knives have Hastelloy C276 hardware and PTFE Shims. They provide superior corrosion resistance in more aggressive situations than Stainless Steel can like, like in electroplating, solar cell and lithium ion battery manufacturing, strong acid & caustic chemical handling, etc.
The first Air Knife developed by EXAIR was the Standard Air Knife (formerly known as the EXAIR Knife) and are still quiet and efficient alternatives to drilled pipes, manifolds with open-ended blowing nozzles, and blower-powered air knives. They use a Coanda profile (more on that in a minute) which causes the airflow to turn 90° from where it exits the linear nozzle formed by the shim between the cap & body. This primary air stream entrains surrounding air from the environment, resulting in a total developed airflow that’s 30 time greater than the compressed air consumption of the Air Knife. This entrainment creates a low velocity boundary layer, which reduces the sound level, but there still is some wind shear produced along the Coanda profile.
Because of the end ports in the relatively small profile of the body, there’s 1/2″ on each end where there’s no flow. Since we identify them by the length of the air curtain they generate, Standard Air Knives are physically 1″ longer than their published length (a Model 2012 12″ Aluminum Standard Air Knife has an overall length of 13″, a Model 2018SS 18″ 303SS Standard Air Knife is actually 19″ long, etc.) Full Flow Air Knives use a Coanda profile as well, but they have rear ports, so there’s full flow (as advertised) from end to end. Here’s more on how the Standard and Full Flow Air Knives work:
Compressed air flows through the inlet (1) to the Full Flow (left) or Standard (right) Air Knife, into the internal plenum. It then discharges through a thin gap (2), adhering to the Coanda profile (3) which directs it down the face of the Air Knife. The precision engineered & finished surfaces optimize entrainment of air (4) from the surrounding environment.
The latest, and greatest generation of engineered Air Knife in EXAIR’s arsenal is the Super Air Knife. As detailed above, they offer the most choices in length & materials. They’re also the most efficient, and quietest. Because the airflow exits straight from the linear nozzle formed by the shim gap between the body & cap, with no wind shear, the low velocity boundary layer produced by the entrainment of surrounding air means the sound level (with an 80psig inlet pressure) is a remarkably low 69dBA at a distance of three feet. Any style (Standard, Full Flow, or Super) Air Knife will perform just fine in just about any application that requires a curtain of airflow. If noise level, and/or operating cost, are on your mind, though, the Super Air Knife is certainly worth considering. With just a few details about the application, we can calculate the difference in operating cost for all three models of a given length, and provide you with the ROI (return on investment) for the Super Air Knife. If you’d like to find out more, give me a call.
Russ Bowman, CCASS
Application Engineer Visit us on the Web Follow me on Twitter Like us on Facebook
It’s been almost three years since EXAIR introduced our latest innovation in handheld blowoff products: the TurboBlast Safety Air Gun. It came hot on the heels of the VariBlast Precision and Compact Safety Air Gun product lines, which both feature a variable pull trigger that affords the operator precise control over the flow & force produced. That proved to be a real game-changer for a lot of customers, letting them even more fully optimize their blowoff applications.
For that same kind of control, in a larger, more powerful Safety Air Gun, we incorporated a gate valve into the design of the TurboBlast. It’s operated by a rotating collar, directly downstream of the trigger:
A quarter turn of the gate valve collar changes the TurboBlast Safety Air Gun’s discharge from a breeze to a blast.
We make them without the gate valve too – if you’re buying a Safety Air Gun that’s capable of 23lbs of force, there’s a decent chance that you don’t need, or want, the ability to turn that down. With or without the gate valve, though, we’ve heard some great success stories from satisfied customers:
A company that refurbishes machinery for the pulp & paper industry uses Model 1925-3 TurboBlast Adjustable Safety Air Guns (with our Model 1114 1 NPT High Force Super Air Nozzle, 3ft Extension, and Gate Valve) for the initial cleaning of the machines, and at certain other steps in the breakdown & disassembly. The Extension gives them extra reach, and the ability to clean larger areas in a single blast, and the Gate Valve lets them reduce the output force for more delicate areas of the machine.
Workers in a foundry use a Model 1917 TurboBlast Safety Air Gun (with our Model 1118 1-1/4 NPT High Force Super Air Nozzle, no Extension or Gate Valve) to remove scales from metal products right out of the forge. This is a classic “don’t need, or want, the ability to turn that down” case.
A firefighting sprinkler system manufacturer quickly & easily removes debris from the inside of welded pipes with a Model 1915 TurboBlast Safety Air Gun (with our Model 1114 1 NPT High Force Super Air Nozzle, no Gate Valve or Extension.) Operators appreciate its ergonomic design for this repetitive work of blowing quick blasts of air through a bank of pipes.
Whether you need something that’ll deliver a pinpoint flow of air in a tight space, or one that’ll blow a wide pattern of air with high force, EXAIR has a Safety Air Gun for you. If you’d like to find out more, give me a call.
Russ Bowman, CCASS
Application Engineer Visit us on the Web Follow me on Twitter Like us on Facebook
If you’re building a vacuum lifting system, you have two basic choices for equipment to create the vacuum: a mechanically driven vacuum pump, or an air operated Venturi. Today, I’m going to tell the tale of some folks who switched from the former to the latter, and why they did it.
This customer makes cans for food, just like the ones you see on the shelf at the supermarket (in fact, it’s very likely you see the actual cans they make on those shelves) out of thin steel sheets. A vacuum lifting system, consisting of two rubber vacuum cups on the ends of two fast moving cylinders (90 times a minute fast) pick up the sheets and move them into a feeder, where the sheet is cut, rolled, and formed into can shapes. A mechanical vacuum pump provided the suction for the cups, and it worked great…until it didn’t. See, vacuum pumps like those have rotating parts in tight tolerance with other parts, and over time, they wear out. Since this facility runs 24/7, so do the vacuum pumps. They also run loud, and hot, until they break down. Which the one they called me about had done five times in the previous year, causing unplanned shutdowns of the machine, each lasting at least two hours, depending on how complicated the repair was, and if they had the right parts on hand. The first part of that time was spent waiting for the pump to cool down to a temperature that the maintenance techs could safely crawl under the machine (it wasn’t even in a convenient location) to remove it for the repairs. If there was a bright side, the awful racket the pump made stopped when the pump did. Not much of a bright side, though, as that silence was the sound of lost production. And revenue.
So, when the customer called, we talked about which Vacuum Generator would be the best fit, and how they could be incorporated into the system. Since the machine moved so fast (again, 90 times a minute fast,) they’d need to be as close as possible to the vacuum cups. That wouldn’t be a problem – our E-Vac Vacuum Generators are small, and light, so they could be fitted right onto the lifting cylinders. The thin steel sheets sometimes had wood chips or splinters on them from the pallets they came on. So we looked at Adjustable E-Vacs, which have larger throats to pass that particulate, since it could have clogged the narrow throat of an In-Line E-Vac.
Compressed air flow through the inlet (1), then through and adjustable annular nozzle (2). As the airstream enters the vacuum flow, it expands and increases in velocity (3). A vacuum flow is induced, creating suction (4). The airflow that is drawn through the vacuum inlet mixes with the primary airstream, then exhausts on the opposite end (5).
Since we were using Adjustable E-Vacs, and size & weight were prime considerations, we decided on the Model 840008M Adjustable E-Vacs, which are the smallest & lightest. Being adjustable, they could be ‘dialed out’ for higher vacuum performance, if needed. Which, it turns out, they didn’t. In fact, they were able to reliably pick up the sheets with the compressed air pressure regulated down to 60psig, reducing the operating cost. Which was kind of a big deal, since they run 24/7.
After their success on the first machine, they outfitted their other three machines with the Adjustable E-Vacs. Now, they’re saving over $2,000.00 a year from the repairs they no longer have to do on the vacuum pumps, and don’t have to worry about lost production while they did those repairs. And if that wasn’t enough, the reduction in noise and elimination of the heat they threw off made the environment a LOT more comfortable for the operators.
With (14) In-Line Models (seven sizes, all available in “High Vacuum” for non-porous products and “Low Vacuum” for lifting objects with a porous surface,) and (4) Adjustable models to choose from, we’ve got the solution to your pick-and-place application.
If you’re building a vacuum lifting system, you’ve got choices. In this case, the best choice was EXAIR E-Vac Vacuum Generators. What’s the best choice for you? Let’s find out – give me a call.
Russ Bowman, CCASS
Application Engineer Visit us on the Web Follow me on Twitter Like us on Facebook
