EXAIR’s Super Air Wipe – 360° Airflow Pattern for Blowing, Cleaning, and Drying!

sawapp1
Model 2402 2″ Super Air Wipe removing water from PVC tubing

A close relative to the Super Air Knife, the Super Air Wipe provides a uniform 360° laminar airflow for blowing off, drying, cleaning, and cooling a wide variety of pipe, cable, extruded shapes, hose, and wire. Its split design allows it to be easily clamped around the surface of the material without having to “feed” the material through.

sawapp
Model 2404SS 4″ SS Super Air Wipe

The Super Air Wipe is available in aluminum construction in sizes ranging from 3/8” – 11” diameter. All Super Air Wipes comes with stainless steel hardware and stainless steel shims. Sizes up to 4” include plumbing to supply both halves of the Super Air Wipe. Sizes over 4” should be piped directly to each ¼ NPT compressed air inlet on each half. In addition to aluminum construction, the Super Air Wipe is also available in 303 stainless steel for corrosive or high temperature applications. The Stainless Steel Super Air Wipe can withstand temperatures up to 800°F and is available in sizes from ½”-4” from stock.

sawsssz
Sizes available from stock

Much like the Super Air Knife, the Super Air Wipe has ¼-20 tapped holes along the downstream side that can be used for mounting. Smaller Super Air Wipes can be supported by rigid compressed air pipe that is used to supply the unit. The Super Air Wipe is also infinitely adjustable through the use of shim sets or a pressure regulator. Kits will include the Super Air Wipe, shim set to make gross adjustments to the airflow, an auto-drain filter to keep the air clean and dry, and a pressure regulator. By adjusting the input supply pressure to the Super Air Wipe, you regulate both the force and flow that is projected onto the target material. Increasing the input supply pressure will increase both the force and flow from the Super Air Wipe. This video blog demonstrates how effective the Air Wipe is when drying 1-1/2” PVC pipe:

If you’re processing any type of hose, wire, or extruded shapes that could benefit from installing a Super Air Wipe, give us a call. With all sizes shipping from stock on an order received by 3:00 pm EDT we can have one to you as early as tomorrow!

Tyler Daniel
Application Engineer
E-mail: TylerDaniel@exair.com
Twitter: @EXAIR_TD

NEW Cold Gun Promotion – Order Today and Receive a FREE Dual Point Hose Kit!

Now through the end of 2017 if you purchase a Single-Point Cold Gun Kit with Model W5215 for the standard Cold Gun or W5230 for the High Power Cold Gun, we’ll include a free Model 5902 Dual Point Hose Kit, a $35.00 value!!

coldgunpr_559wide
Model 5230 Cold Gun keeping a laser cut part cool

EXAIR’s Cold Gun was a Product of the Year finalist in 2007. By using only a source of compressed air, the Cold Gun and High Power Cold Gun produces a stream of clean, cold air 50° (28°C) below your compressed air supply temperature. The Cold Gun is very quiet at only 70dBA and has no moving parts to wear out. Just supply it with clean, dry compressed air and its maintenance free!

CGPromoad_186x133

The Cold Gun is pre-set to an 80% Cold Fraction. In other words, 80% of the compressed air supplied to it will exhaust from the cold end of the tube, 20% from the hot end. This prevents the Cold Gun from freezing up during use and optimizes the gun’s cooling capacity. The Cold Gun is an ideal alternative to messy and expensive coolant mist systems. It eliminates the cost of purchase and disposal of cutting fluids as well as worker related health problems from breathing airborne coolant or slipping on wet floors. Replacing a coolant based system also eliminates the need for secondary cleaning operations after milling or drilling.

The Cold Gun is an invaluable tool for machining a wide range of plastics and other materials that may become contaminated when using traditional coolants or oils. The clean, cold air from the outlet of the Cold Gun keeps the part cool, clean, and dry. Take for example this application where an OEM for the plastics industry uses EXAIR Cold Guns in place of a coolant system.

5315J
EXAIR 5015 Cold Gun w/ Dual Point Hose Kit Installed

If you have an application that you believe would be better served by the use of an EXAIR Cold Gun, give us a call. Get one on order today and take advantage of receiving a FREE Dual Point Hose Kit!

Tyler Daniel
Application Engineer
E-mail: TylerDaniel@exair.com
Twitter: @EXAIR_TD

 

Adjustable Spot Cooler Keeps Cataract Lenses Cool and Dry During Machining

IMG_1954
Neal Raker, International Sales Manager, and myself along with our Hungarian Distributor

During a recent visit with our Hungarian Distributor, I had the opportunity to take a look at an application using some EXAIR Adjustable Spot Coolers and Mini Coolers. The company manufactures cataract lenses and is using the coolers in a dry machining application. The previous process involved using a liquid coolant which caused a washing operation to remove the contaminants before the lenses could move on to the next step of the process. This was not only time consuming, but the solution they needed to use as a coolant was very expensive due to strict regulations that they had to adhere to.

IMG_1948
EXAIR’s Adjustable Spot Cooler installed on the lathe

The lenses are set up on a lathe which are precisely cut. The Adjustable Spot Coolers were positioned with the cold airflow just at the point of cutting to keep the temperature at a specific point. If the lenses get too hot, the material becomes less rigid and begins to warp. When this happens, the lens cannot be reworked and must be scrapped. Immediately after coming off of the lathe, an inspector places the lens under a microscope for inspection. At this point, a Mini Cooler is installed to ensure that the temperature of the lens stays cold. If the lens passes inspection, it is immediately placed in a small freezer next to the operator. Temperature probes are in place at several points during the process to ensure that they do not go above the specified temperature.

IMG_1951
Mini Cooler installed on the inspection station

By implementing a solution with the Adjustable Spot Cooler, this customer was able to boost productivity by removing a cleaning step from the process and also reduce costs by eliminating the need for the costly coolant solution that was required. If you’d like to replace messy coolant systems in your machining operation with a clean compressed air solution, give us a call. An Application Engineer will be happy to look at your process and recommend the most suitable solution.

Tyler Daniel
Application Engineer
E-mail: TylerDaniel@exair.com
Twitter: @EXAIR_TD

Monitor Your Compressed Air System With EXAIR’s Digital Flowmeters

A topic that we’ve talked about here on the EXAIR blog discusses the costs of compressed air and how to use it more efficiently. How can you determine the costs of your compressed air? The first step you’ll need to take is to quantify the flow. In order to do that you’ll need a measurement tool such as the EXAIR Digital Flowmeter.

dfm_sizes
EXAIR’s family of Digital Flowmeters

The Digital Flowmeter is available from stock for use on Schedule 40 pipe with sizes ranging from ½”-4” I.D. Sizes up to 6” for Schedule 40 and ¾”-4” for copper pipe are also available. With a digital readout display, it’s easy to accurately monitor your compressed air usage throughout the facility. Creating a baseline of your usage will allow you to understand your compressed air demand, identify costly leaks, and replace inefficient air products.

The Digital Flowmeter installs in minutes with help from a drill guide and locating fixture to assist in mounting the Digital Flowmeter to the pipe. Two flow sensing probes are inserted into the drilled holes in the pipe. The meter then seals to the pipe once tightened. There is no need to cut, weld, or do any calibration once it is installed. With blocking rings also available, installation can be permanent or temporary.

The newest addition to this product line is the Digital Flowmeter with wireless capability. Using a ZigBee® mesh network protocol, data is transmitted to an Ethernet connected gateway. This allows you to mount the Digital Flowmeter in areas that you may not be able to easily access and wirelessly monitor and graph the usage with the EXAIR Logger software. Take a peek at this video blog for a demonstration of the use of a wireless Digital Flowmeter software to compare an open pipe to an engineered Air Nozzle.

wirelessdfmpr2_1670x574

In addition to communicating wirelessly with the gateway, the Digital Flowmeters can “piggyback” off of each other to extend their range. Each meter has a range of 100’. Using multiple Digital Flowmeters within the same ZigBee® mesh network, data can be passed from meter to meter to extend the distance over which the meters can operate. These can be installed on each major leg of your compressed air system to continuously monitor usage throughout the facility.

If you’d rather go with a hard-wired data collection method, the Digital Flowmeter is also available with a USB Data Logger. Simply remove the Data Logger from the Digital Flowmeter and connect it to the USB port of your computer. The data can then be viewed directly in the accompanying software or exported into Microsoft Excel.

dataloggerPRce_559wide
Digital Flowmeter w/ USB Data Logger installed

If you’d like to get a clear view of your compressed air usage, give us a call. An Application Engineer will be happy to work with you and get the proper Digital Flowmeters installed in your facility!

Tyler Daniel
Application Engineer
E-mail: TylerDaniel@exair.com
Twitter: @EXAIR_TD

EXAIR’s Dual HT Cabinet Cooler System Withstands Temperatures up to 200°F!!

A customer contacted me recently looking to duplicate a setup of EXAIR Cabinet Coolers that they had installed a few years ago. They were tucked away in the corner of the warehouse up near the ceiling. Their maintenance guy had recently retired and no one knew what to purchase. They placed a quick call to EXAIR, after speaking to him and having him snap a photo of the setup, we were able to discern that he had an HT4370 High Temperature Dual Cabinet Cooler System.

dual ht cab cooler
The HT4370 System installed on their cabinet

They were really under the gun as a similar cabinet elsewhere in the facility was malfunctioning, forcing them to shut down production and open up the cabinet to allow it to cool down periodically. Not only were they losing production time, but exposing the cabinet to the dirty conditions present in most manufacturing facilities can pose additional risks. Lucky for them, we were able to quickly identify the Cabinet Cooler system and get one on order the same day. With same day shipment for stock items on orders received by 3:00 pm EST, they were able to get another one in their hands the following day.

The cool air from the Cabinet Cooler also maintains a positive pressure inside of the enclosure, keeping the dirty air from the environment from wreaking havoc inside. The Cabinet Cooler installs quickly through a standard electrical knockout. The kit includes everything you need to get up and running: the Cabinet Cooler, solenoid valve (available in 110 VAC, 240 VAC, or 24 VDC), Auto-Drain Filter w/ mounting bracket, cold air distribution kit, and a mechanical thermostat pre-set to 95°F. For applications that do not have space for mounting at the top of the cabinet, we also have a Side Mount Kit available.

HT4370
Items included in the HT4370 kit

EXAIR’s High Temperature Dual Cabinet Coolers are available for applications where the ambient conditions are 125°F-200°F. With cooling capacities of up to 5,600 Btu/hr, these Cabinet Coolers will operate virtually maintenance free when supplied with clean, dry air. Not sure which system is right for you? Fill out the Cabinet Cooler Sizing Guide and an EXAIR Application Engineer will be in touch with you shortly!

Tyler Daniel
Application Engineer
E-mail: TylerDaniel@exair.com
Twitter: @EXAIR_TD

Super Blast Safety Air Guns: Powerful & OSHA Compliant

1213-12
Model 1213-12 Super Blast Safety Air Gun w/ 12 nozzle cluster

In some applications the force from a Heavy Duty, Soft Grip, VariBlast, or Precision Safety Air Gun may not be quite enough to get the job done. Not to worry! EXAIR’s Super Blast Safety Air Guns use our Super Air Nozzle Clusters and Large Super Air Nozzles and turn them into a handheld gun with the same strong blowing force.

The Super Blast Safety Air Guns are comfortable to hold with a soft foam grip. They’re safe to operate with all of the Super Blast Safety Air Guns incorporating EXAIR’s OSHA compliant nozzles and clusters. In addition, they also have a spring-loaded manual valve that will automatically shut off the compressed air if accidentally dropped.

1218
Model 1218 Super Blast Safety Air Gun

The Super Blast Safety Air Gun is available with nine different styles of nozzle at the end. They are able to achieve a blowing force of anywhere from 3.2 lbs all the way up to 23 lbs when measured 12” away from the nozzle at an operating pressure of 80 psig. All while still adhering to OSHA directive 1910.242(b)!! Each of the Super Blast Safety Air Guns is also available with a 1’, 3’, or 6’ extension for hard to reach areas that still require a maximum blowing force. When compared to the same sized open-pipe blowoffs, the Super Blast Safety Air Guns represent a significant savings in air consumption.

1219ss800
Super Blast w/ Back Blow Nozzle

In addition to the standard Super Blast Safety Air Guns, EXAIR’s 1008SS 1” NPT Back Blow Nozzle is also available as a Super Blast Gun. With a 360° airflow pattern, this gun is the ideal choice when trying to remove debris from large pipe diameters or deep channels.

If you have an application in your facility that requires a seriously strong blast of compressed air, give us a call. Our team of Application Engineers is ready to assist you in determining the appropriately sized Super Blast Safety Air Gun for your needs.

Tyler Daniel
Application Engineer
E-mail:TylerDaniel@exair.com
Twitter:@EXAIR_TD

Intelligent Compressed Air: Desiccant Dryers – What are they and How Do they Work?

Desiccant dryer
Heat of Compression Desiccant Dryer

No matter where you are in the world, the atmospheric air will contain water vapor. As this air cools to the saturation point, also known as dew point, the vapor will condense into liquid water. The amount of this moisture will vary depending on both the ambient temperature and the relative humidity. According to the Compressed Air Challenge, a general rule of thumb is that the amount of moisture air can hold at a saturated condition will double for every 20°F increase in temperature. In regions or periods of warmer temperatures, this can create a significant problem. Some problems that can be associated with moisture-laden compressed air include:

  • Increased wear of moving parts due to removal of lubrication
  • Formation of rust in piping and equipment
  • Color variation, adherence, and finish of paint that is applied using moisture-laden compressed air
  • Create unstable conditions for processes that are dependent upon pneumatic controls. Malfunctions due to rust, scale, or clogged orifices can damage product or cause costly shutdowns
  • In colder temperatures, moisture in the compressed air flow can freeze in the control lines

To remove moisture from the lines, a dryer must be installed. One of the most commonly found dryers in a facility are referred to as desiccant dryers. There are three variations of desiccant dryers: Regenerative-Desiccant Dryers, Heat Reactivated Desiccant Dryers, and Heat of Compression Desiccant Dryers.

A Regenerative-Desiccant Dryer uses a porous desiccant that collects and adsorbs the moisture. This allows for large amounts of water to be retained with a minute amount of desiccant. Most regenerative-desiccant dryers consist of two towers. One where wet, moisture-laden compressed air flows through a desiccant bed. A second tower contains desiccant that is being regenerated. A controlled amount of dry air flows through the tower being regenerated, which causes the moisture to release from the desiccant and flow out with the purge flow. This saturated air exhausts to atmosphere. After a set time, the towers will switch and continue this cycle of drying/regenerating.

Another, and more efficient, regenerative-desiccant dryer uses heat to assist in removing water from the desiccant. As the tower is heated, the moisture is no longer adsorbed by the desiccant and is purged through the flow. This style is more efficient than the other styles of dryers because less compressed air is wasted removing the moisture in the tower.

The third type of desiccant dryer is the Heat of Compression dryer. This style utilizes the heat that is generated during compression to accomplish the regeneration of the desiccant. Typically, the heat that is generated from the air compressor is exhausted to atmosphere and wasted. With a heat of compression dryer, this heat is captured and used to regenerate the desiccant. The compressed air passes through the drying section of the desiccant bed, is dried, and exits through the discharge. A portion of the captured heat flows through the opposite side of the dryer to regenerate the desiccant. Afterwards, this hot air passes through a regeneration cooler and is combined with the main air stream. This results in ZERO loss of purge air, making this style of dryer the most efficient available.

If you have questions about how to optimize your compressed air system, contact EXAIR. An Application Engineer is standing by ready to assist you!

Tyler Daniel
Application Engineer
E-mail: TylerDaniel@exair.com
Twitter: @EXAIR_TD

 

Heated Desiccant Dryer by Compressor1.  Creative Commons Attribution-NoDerivs 2.0 Generic.