Video Blog: Cleaning Gen4 Ionizing Bars

EXAIR’s Gen4 Super Ion Air Knife and Ionizing Bars are a great way to relieve static charges in your products and/or processes.  They are a very powerful, efficient design that will eliminate static charges and require only minimal maintenance to keep them performing at peak efficiency.

Check out the video below to see just how easy it is!

When you are looking for expert advice on your static relief application or any of our safe, quiet and efficient point of use compressed air products give us a call.   We would enjoy hearing from you!

Steve Harrison
Application Engineer
Send me an email
Find us on the Web 
Follow me on Twitter
Like us on Facebook

Custom Products from EXAIR Meet Your Specifications

Since EXAIR manufactures and distributes our own products, we have the flexibility to provide custom products, special processing, unique packaging and more. If your process or specifications are something special, let us know and we will do our best to accommodate any special considerations you might need. Following is one example for a customer who purchases air guns.

Several months ago I received a call from a company that was looking for a specialized air gun.  This company was involved in the servicing of highly specialized measuring equipment and needed a safe, quiet, & efficient air gun that also had to be completely oil/contamination free.   This was to ensure no contamination would result from using the air gun on any of their equipment.  Ultimately this meant that every air gun component needed to be washed,  rinsed and dried to ensure there was no residual oils or dirt from manufacturing left on or in any component of the gun.

Our customer decided on the highly versatile Vari-Blast Compact Safety Air Gun with the award-winning Nano Super Air Nozzle, specifically models 1698SS and the 1698SS-6.  EXAIR presented a written process to the customer. This process explained how we would identify and manufacture their specific air gun in order to assure the customer that would receive a consistently clean air gun, every time.

nano nozzle
EXAIR’s Award Winning Nano Super Air Nozzle Performance Characteristics
nano air pattern
1110SS Specifications
img_7897
1698SS
img_7898a
1698SS-6

Additionally the customer had specifications requiring special packaging as they were going to ship these globally to their service team members.  To ensure safe arrival no matter where they are shipped,  EXAIR provides special handling and packaging which exceeds their requirements.

Also, when you are looking for expert advice on safe, quiet and efficient point of use compressed air products give us a call.  We would enjoy hearing from you!

Steve Harrison
Application Engineer
Send me an email
Find us on the Web 
Follow me on Twitter
Like us on Facebook

Super Air Wipe Vs. Block Type Air Wipe

When you need to cool, blow off or dry extruded objects there are several options available, however only the EXAIR Super Air Wipe delivers the performance, efficiency and versatility that most applications require!  In today’s blog we will contrast some of the differences between the EXAIR Super Air Wipe and block type air wipes.

The split-ring design of EXAIR’s Super Air Wipe offers easy clamping around the surface of the material moving through it and eliminates the need for time-consuming, cumbersome threading.  While Block Type Air Wipes are also of split design the diameter of the material drawn through it can typically only vary by approximately 1/16″!  In contrast the EXAIR Super Air Wipe is effective on materials that can range in size from approximately half the throat diameter up to within a fraction of an inch on the internal diameter.  This range can be as large as five to six inches in our largest Super Air Wipes.  The key is to ensure the material does not contact the Super Air Wipe.

Mounting the EXAIR Super Air Wipe is a snap, it can be accomplished by using either the 1/4 – 20 tapped holes on the downstream side or by utilizing a hard pipe compressed air supply line.  The access to these bolt holes makes it easy to change out in the event the production line runs several different sizes. If needed the included stainless steel 1/4-20 bolts can also be removed and longer bolts could be installed to mount from either side.

Connecting the EXAIR Super Air Wipe to your compressed air supply is straightforward.  For sizes up for 4″ throat diameter a stainless steel braided connecting hose is supplied pre-installed from the factory and a single 1/4″ FNPT inlet is used to supply the entire wipe.  For the 5″ up to 7″ throat diameter there is a single 1/4″ FNPT inlet on each half of the wipe which would need to be connected with compressed air.  Lastly, the 9″ and 11″ sizes from stock each have two 1/4″ FNPT inlet on each half of the wipe which would need to be connected to provide the appropriate flow for optimal performance.

split design1
EXAIR Super Air Wipe features hinged design for trouble-free threading

Another very important consideration is the temperature of the material you are running.  EXAIR Aluminum Super Air Wipes are rated for temperatures up to 400°F (204°C) with the Stainless Steel models rated up to 800°F (427°C).    Typically, block air wipes are made from delrin or polypropylene with a replaceable wear liner,  unfortunately these materials do not tolerate higher temperatures like the EXAIR Super Air Wipes.

Super Air Wipe extrusion save
EXAIR Super Air Wipe cooling an extrusion, high temperatures are not a problem!

To explain how the EXAIR Super Air Wipes work, reference the animation below: Compressed air flows through the inlet (1) of the Air Wipe into the annular chamber (2).  It is then throttled through a small ring nozzle (3) at high velocity.  This primary air stream adheres to the Coanda profile (4), which directs down the angled surface of the Air Wipe.  A low pressure is created at the center (5) inducing a high volume flow of surrounding air into the primary airstream.  As the airflow exits the slot, it creates a conical 360° ring of air that will attach to the surface of the material running through it (6) uniformly wiping the entire surface with the high velocity airflow.

sawworksani
How The Super Air Wipe Works

While block style air wipes have a  fixed performance because they operate off a series of non-adjustable drilled holes, the EXAIR Super Air Wipe operates off an adjustable shim design.  As shown in the figure above the shim sets the gap opening of the ring nozzle (3).  The stock thickness of the stainless steel shim is .002″ (.05mm), shims can be stacked to provide a coarse adjustment in volumetric air flow.  Custom shim thicknesses are also available to tailor the performance to your needs.   The shim thickness coupled with a pressure regulator gives the Super Air Wipes adjustability from a gentle breeze to remove light debris or provide cooling all the way up to a forceful blast to remove more viscous fluids or provide quick cooling.

The EXAIR Super Air Wipe is 1.13″ (29mm) thick on all (11) Aluminum models that range in size from 3/8″ (10mm) to 11″ (279mm) throat diameter and all (5) Stainless Steel models that range in size from 1/2″ (50mm) to 4″ (102mm).

Super Air Wipe Family Photo

The Aluminum Super Air Wipe is available in 11 sizes 3/8″, 1/2″, 1″, 2″, 3″, 4″, 5″, 6″, 7″, 9″ & 11″; the Stainless Steel Super Air Wipe comes in 5 sizes, 1/2″, 1″, 2″, 3″ & 4″…all from stock!

So when you need to cool, blow off or dry extruded material or need expert advice on safe, quiet and efficient point of use compressed air products, give us a call.  We would enjoy hearing from you!

Steve Harrison
Application Engineer
Send me an email
Find us on the Web 
Follow me on Twitter
Like us on Facebook

Explanation of Hazardous Locations – Class II Div. 1, Groups E, F and G

Per the National Electrical Code (NEC) there are (3) classifications for areas that are defined as hazardous.  They are Class I (gases & vapors), Class II (flammable dusts) & Class III (fibers), the focus of today’s Blog is on Class II locations.

Class II locations are those that are hazardous because of the presence of combustible dust. Note that the dust must be present in sufficient quantities for a fire or explosion hazard to exist. The fact that there is some combustible dust present does not mean a Class II hazardous location exists. Dust is defined as a combustible material that must exist as a finely divided solid of 420 microns (0.420 mm) or less. This will allow the dust to pass through a No. 40 sieve.  Just as in Class I, Division 1 and 2, the subdivision of Class II into Divisions 1 and 2 identifies the likelihood that there is an explosion hazard.

Division 1 locations are defined as an area where the amount of combustible dust is either suspended in the air or accumulated on surfaces in a sufficient concentration to allow for ignition.  The ignition could be caused by a failure or malfunction of the equipment in the classified area.  Group E & F dust (see chart below) are considered conductive and could penetrate into electrical equipment such as electric motors, control panels, electrical panels, etc.. and cause an electrical failure.

Chart1

Group E dusts are metal dusts, such as aluminum and magnesium. In addition to being highly abrasive, and likely to cause overheating of motor bearings if it gets into them. Group E dusts are also electrically conductive and if they are allowed to enter an enclosure can cause an electrical failure.

Chart2

Group F dusts are carbonaceous, the primary dust in this group is coal dust. Coal dust has a lower ignition temperatures than those in Group E.  While Group F dust has a higher thermal insulating value than the layer of Group E.  Therefore Group F requires more control of the temperature on the surfaces that the dust settles on. Group E dusts are semi-conductive, however if the voltages are 600 volts or less it is not generally considered a factor.

Chart3

Group G dusts include plastic dusts, most chemical dusts and food-grain dusts. They are not electrically conductive. Generally these dusts have the highest thermal insulating characteristics and the lowest ignition temperatures. Therefore the equipment used in Group G areas must have the lowest surface temperatures to prevent ignition of a layer.

Chart4

Lastly, equipment rated for use in Classified Environments have a rating called the Temperature Code or “T-Code”.  This is the temperature or temperature range that the rated device will operate normally and/or in a failed or failing state.  Consider something as common as a light fixture, electric motors, etc.. as they could become hot enough to cause ignition depending on the type of dust in the area.  So be sure to check the “T-Codes” for every piece of equipment that will be used within a Classified Environments.

Chart5

When you are looking for expert advice on Hazardous Location Cabinet Coolers or safe, quiet and efficient point of use compressed air products give us a call.   We would enjoy hearing from you.

Steve Harrison
Application Engineer
Send me an email
Find us on the Web 
Follow me on Twitter
Like us on Facebook

%d bloggers like this: