Celebrating The Chip Trapper

NFL Football season is officially under way, and my hometown team, the Cincinnati Bengals, are off to a solid start. With less than a minute left in the game on Sunday afternoon, an interception stopped the New York Jets’ final drive, and Who-Dey Nation began to celebrate the win. Some (not me…not as far as you know) may have even celebrated in accordance with a hallowed Bengals tradition:

While I won’t celebrate just ANYTHING (although I do indeed hold prompt service at the deli counter in high regard,) you might get me excited enough to do the Ickey Shuffle if you start talking about how much you like your Chip Trapper.  Just like a caller did this morning.

Now, I’m unabashedly proud of all of our products, so I’m not going to come right out and SAY that I have a favorite any more than I would publicly proclaim one of my children as my favorite.  Although, in all fairness, they’re teenage boys, so at any given time, one of them is quite likely edging out the other on The List.

But back to the Chip Trapper – this morning’s caller just wanted to order some more Filter Bags, but in the midst of our conversation, he started “writing the commercial” for the product:

*It’s extended the life of their coolant – regular removal of solids and particulate contamination means the coolant stays clean & effective.

*It ensures the reliability of the machine – clean coolant doesn’t clog the lines, which WILL wreck the part you’re machining, and probably the tooling too.

*It eliminates odors – OK; nobody ever brags about a “spring fresh” aroma in a machine shop, but bacteria-laden, rancid coolant is the WORST.  Nobody needs to be working around that.  And since that bacteria needs solid surfaces to grow on, filtered coolant is fresh coolant.

*It’s EASY (part 1) – it’ll pump 55 gallons of dirty coolant into the drum in about 90 seconds.  Turn the valve and reverse the direction of the Reversible Drum Vac, and it’ll pump freshly filtered coolant back into the sump just as quickly.

*It’s EASY (part 2) – the Filter Bag holds over 5 gallons (almost 3/4 of a cubic foot) of chips, and the system comes with two of them so you can use one while cleaning out the other.

EXAIR's new Chip Trapper

EXAIR’s Chip Trapper comes in 30, 55, or 110 Gallon Sizes, depending on your needs.

If you’ve got a machine shop and DON’T have a Chip Trapper (yet,) call me; let’s talk.  If you DO have a Chip Trapper and you like it as much as my caller today did, DEFINITELY give me a call.  I might even do the Ickey Shuffle with you.

Russ Bowman
Application Engineer
EXAIR Corporation
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Controlling Supply Pressure, Controlling Flow

“What is the lowest operating pressure and what kind of force can I expect?”. This is common question we get at EXAIR and the simple answer – it depends. Okay, that’s not so simple and it does matter what EXAIR product you are considering.

Take for example some of the vortex tube based cooling products, like our Cold Gun for dry machining and Cabinet Cooler Systems to purge and cool electrical enclosures. These particular products are designed to operate at 80-100 PSIG for optimal performance and efficient cooling capacity. They can be operated at lower pressure but their effectiveness and performance are reduced.

Most other products, and the problem they are solving vary in the amount of pressure needed for success. In many cases, the simplest method would be to use a pressure regulator. By incorporating a pressure regulator in a blowoff application, for example using our Air Nozzles or Safety Air Guns,  adjusting the supply pressure is the easiest way to control the output velocity and force of the airflow. Many applications don’t require full line pressure to achieve the desired result and operating at lower pressure provides a way to reduce compressed air usage and lower energy costs.

Click on picture for more information

Pressure Regulator with gauge for simple supply adjustment

Another way some of EXAIR’s products allow for easy adjustment is by incorporating a replaceable shim. Take for example our Air Knives – All of our Air Knives are shipped from stock with a .002″ shim installed. We offer Shim Sets for our aluminum knives that include a .001″, .003″ and .004″ shim  that allows you to either reduce the gap and cut your air usage and force in half. By installing the thicker shims, you can increase these properties by 1.5 times for the .003″ shim or double by installing the .004″. For our stainless steel knives, we offer shim sets which include (3) .002″ which can best stacked to provide more force and flow.

sak-shims

Super Air Knife shims

Our Air Amplifiers feature patented shims that allow for the similar adjustments, resulting in large volumes of outlet airflow.

Super Air Amplifer w- shims

Super Air Amplifier and optional shim set

Our Air Wipes, which perform similar to our Air Knives but produce a 360″ ring of air to treat the surface of a hose , pipe, tube, etc. , are also shipped with .002″ shim installed with optional shim sets available.

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Shims for our Super and Standard Air Wipes

We also offer replaceable shims for our 1″ and 2″ Flat Super Air Nozzles for those applications requiring more of a focused airflow that needs that extra bit of force, like when trying to blow heavy grit off of a chain or blow reject parts from a conveyor.

Model 1126 (Zinc Aluminum) or 1126SS (316SS) 1" Flat Super Air Nozzles (left) have replaceable shims (middle), same as Model 1122 (Zinc Aluminum or Model 1122SS 2" Flat Super Air Nozzles (right.)

1″ and 2″ Flat Super Air Nozzles provide laminar airflow that can be easily adjusted.

As you can see, there are some viable options to fine tune your EXAIR product to provide the optimal performance. If you need any assistance or would like to discuss the specifics of a particular application, give us a call.

Justin Nicholl
Application Engineer
justinnicholl@exair.com
@EXAIR_JN

 

 

 

 

 

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EXAIR’s High Velocity and Adjustable Air Jets – Now Available in Stainless Steel

Newly released, the EXAIR High Velocity Air Jet and Adjustable Air Jet are now available in Type 303 Stainless Steel, providing greater durability, corrosion resistance and a higher maximum temperature rating of 400 °F.  Type 303 stainless steel has good resistance to mildly corrosive atmospheres along with good oxidation resistance at elevated temperatures, making the stainless steel Air Jet a great choice for blowoff or part drying in your harsh environment. Both types of Air Jets are also available in brass, for applications at 275°F and below, and when corrosion resistance is not as critical.

6013ss

Model 6013SS – High Velocity Air Jet

Air Jets utilize the Coanda Effect – wall attachment of a high velocity fluid – to produce air motion in their surroundings. As illustrated above, a small amount of compressed air to the inlet (large black arrow) is throttled through an internal ring nozzle above sonic velocity.  A vacuum is produced, resulting in large volumes of surrounding, or “free” air, being pulled in through the jet (blue arrows.)

air jet How Air Jets Work

Both the outlet and inlet can be ducted for remote positioning applications.

If the end is blocked, flow simply reverses at well below OSHA dead end pressure requirements, ensuring safe operation.

The High Velocity Air Jet comes standard with an .015″ shim, and a Shim Set is offered that includes .006″ and  .009″ shims to provide additional adjustability and control.  The Adjustable Air Jet has a variable gap design, and can be adjusted and locked to meet the required airflow and thrust parameters.

When you are needing a simple solution to reduce excessive air consumption and noise levels on compressed air blowoff operations, EXAIR has a large line of Air Nozzles and Jets to solve your problems. You can contact an Application Engineer to discuss which Air Jet or Nozzle to best fit your application.

Brian Bergmann
Application Engineer

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EXAIR Atomizing Nozzles in a Forging Plant

A steel forging plant was using a releasing agent in their process. This particular operation was to make a blank gear.  It started with a heated ingot that was placed in a two-part dual stamp die.  The front section of the die creates the hub of the gear, and the back section would finish the outer diameter of the gear.  The operator would use tongs to grab the hot part and place it in the front and back portion of the die.  Each time the press would cycle, a release agent would be sprayed onto the die so that the parts would not stick.  As you can see in the picture below, they had six liquid spray nozzles modified to spray the entire surface.  Two of the spray nozzles were blowing the release agent to the top portion of the die, and four spray nozzles would spray the entire bottom portion of the die.  Every time the press would cycle, the release agent would be sprayed.

Forging press with liquid spraying nozzles

Forging press with liquid spraying nozzles

At a rate of making a part every six seconds, much release agent was being sprayed. This lubrication for forging was not inexpensive, and it was adding cost to their operation.  They called EXAIR to see if we could help in this matter.

 

The EXAIR Atomizing Nozzles use compressed air to help “shear” the liquid into a very fine mist. The smaller the liquid particle size, the more surface area is created.  This is very beneficial in saving liquid material without reducing the required performance.  This customer purchased two Internal Mix Narrow Angle Round Pattern Atomizing Nozzles, model AN1040SS to replace the six liquid nozzles that he was using.  With a stainless steel construction as standard, it makes the Atomizing Nozzle very corrosion resistant and able to handle 400 deg. F (204 deg. C) temperatures.  With the narrow angle round spray pattern, they could position the Atomizing Nozzles to cover the entire top and bottom of the die (reference the photo below).  With the liquid adjustment valve, they could dial in just the right amount of release agent to keep the process running smoothly.  After the first week in modifying their operation with EXAIR Atomizing Nozzles, they noticed that they were using only half the amount of releasing agent.  This helped to cut cost in their operation, increasing their profit margin.

Forging press with EXAIR Atomizing Nozzles

Forging press with EXAIR Atomizing Nozzles

We can spray liquids very economically and efficiently. We have different types of spray patterns for three different styles.  We have the Internal Mix style for low viscosity fluids as purchased by the above customer; the External Mix for high viscosity fluids, and the Siphon Fed for unpressurized liquid systems requiring gravity or siphoning.  We can atomize liquids up to a rate of 5 gallons per minute (19 liters per minute).  If you believe that you are going through too much liquid in your process, you can contact an Application Engineer to see if we have the correct Atomizing Nozzle for you.

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

Cold Gun Provides Cooling For CNC Router

20160829_114406

This CNC needs a way to cool the drill and blow away chips created during machining

Precision control with CNC’s means we can achieve a near-identical output in product dimensions and quality.  And, it also means we can create an identical problem every time the machine is used.

Case in point, the CNC shown above is used to machine a 5mm piece of aluminum, but was plagued with problems preventing it from performing to its full potential.  The problem, was that when the machine would plunge into the aluminum, the plunging speed would produce excessive heat leading to a deterioration in performance and quality.  The temporary solution for such a condition is to slow down the machining speeds, but this reduces the efficiency and throughput of the machine.

20160829_114359

A Cold Gun can install directly onto this machine, providing cooling and light chip removal as needed

The real solution for this type of condition is to provide some sort of cooling for the drill head, and if possible, a means to remove the chips and debris from the machining area as well.  Fortunately, both of these are possible through the use of a Cold Gun Aircoolant System.

A Cold Gun in this application will provide cold air at temperatures below freezing to cool the drill, and the airflow from the Cold Gun will simultaneously clear the small chips and debris from the machining area.  And, these improvements to the application keep the workspace completely dry.  There’s no need to add a coolant collection system or to create additional work through cleaning coolant from the machined pieces once they’re complete.

If you have an application in need of a dry-cooling solution, or if you’d like to explore the possibility of removing liquid cooling from your CNC, contact an EXAIR Application Engineer.  We’ll be happy to help.

Lee Evans
Application Engineer
LeeEvans@EXAIR.com
@EXAIR_LE

A Tale Of Two Cooling Applications

There are many, many ways to cool something down. Which method works best will depend on a number of factors, but the biggies are:

*How hot is it?
*How cool do you need it?

If you call EXAIR to discuss a cooling application, these are most likely the first questions that’ll be asked. And the answers will determine which product line we start talking about. In the title of this blog, I promised you two tales…here’s the first:

A caller from a metal fabricating shop needed to cool down metal cylinders after they were heated to 400F, and was curious to know if this was a good application for one of our products. Now, he had already answered one of our questions, so the answer to the second would tell the rest of the tale.

Turns out, they only needed to get down to 120F or so, which made this an excellent application for our Super Air Knives…they’re going to blow a laminar, high volume flow of ambient temperature air onto the part. We knew this from a past application that was so well documented that we included it in our catalog…you can read all about it on page 21 (if you don’t have one, get one – it’s free.) But for now, here’s a graph of the cooling rate comparison with the Super Air Knife:

While the fans no doubt made for large volume air movement, the laminar flow of the Super Air Knife resulted in a much faster heat transfer rate.

While the fans no doubt made for high volume air movement, it was also very turbulent.  The laminar flow of the Super Air Knife resulted in a much faster heat transfer rate.

When I showed this to the caller, that was all the convincing it took…their goal was to reach 120F in about a minute and a half.  Which, as you can see, will be no problem for the Super Air Knife.

Tale #2 is a bit different.  This was from a firearms manufacturer who needed to cool small, but hot, parts quickly, and they needed to reach room temperature.  Looking at the graph above, we know that blowing room temperature air on a hot part will cool it rapidly, until the temperature of the part begins to approach room temperature.  The solution?  Colder air, of course!

Enter the EXAIR Vortex Tube…after some discussion of the part size, shape, and their compressed air capacity, we determined the Model 3215 Medium Vortex Tube should be suitable for their operation.  By generating a cold air flow of about 20F, this replicated the higher temperature differential we see in the left-hand side of the cooling graph above…where the cooling rate was the highest.

If you’d like to talk about how “cool” an EXAIR product can make your application, give me a call.

Russ Bowman
Application Engineer
EXAIR Corporation
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360° Hollow Circular Atomizing Nozzle Ideal For Treating Ductwork

There are many times we field calls from customers that fall directly in line with the intended use of one of our products. Such would be the case last week when a customer called looking for  a more reliable way to spray a light coating of rust inhibitor on the inside of a small section of ductwork roughly 9″ in diameter.  They were currently using a liquid only spray nozzle but were having trouble controlling the output flow, as well as the actual spray pattern. They were wasting a lot of the inhibitor as it was starting to “pool” in the bottom of the ductwork which would ultimately leak out onto the production floor and operator’s work area when the parts were prepared for shipment, also creating an unsafe work environment.

Model # AT1010SS Internal Mix 360° Hollow Circular Pattern Atomizing Nozzle

 

After discussing the application with the customer, I recommended our Model # AT1010SS Internal Mix 360° Hollow Circular Pattern Atomizing Nozzle. The circular spray pattern is the ideal solution when trying to coat the inside of a duct with rust preventative. The nozzle produces an even spray pattern up to 53″ in diameter with flows as much as 14.7 gallons per hour of liquid, depending on air and liquid supply pressures. Our Atomizing Nozzles also feature an adjustment valve to provide control of the flow rate as well. The 303ss construction is able to withstand corrosive environments and temperatures up to 400°F (204°C).

EXAIR offers a wide variety of Atomizing Nozzles that can be used to coat, rinse or cool a surface. They are also commonly used for dust suppression due to the wide coverage area they produce. For help selecting the correct Model # for your application, give us a call.

Justin Nicholl
Application Engineer
justinnicholl@exair.com
@EXAIR_JN

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