EXAIR Hoses and Tubes are Great Accessories

EXAIR offers different styles of hoses and tubes as accessories to our product lines.  They are built and designed to easily fit with our products as well as being sized correctly to not affect performance.  It simplifies the use, setup, and integration of EXAIR products in your facility.   You do not have to determine the proper diameters, pressure ratings, or end fittings to best fit the EXAIR products to maximize their performance.  Also, having these items available from one source minimizes the number of purchases and vendors necessary for a complete and working solution. In this article, I will go over the different hoses and tubes that EXAIR can provide.

Conveying Hoses:

The hoses above are used with our Air Operated Conveyors or Line Vacs.  The Line Vacs are designed to move product from point A to point B.  If the Line Vac is the “vehicle”, the Conveyance Hose is the track.  The hoses are made of a durable PVC semi-flexible hose with 6 different diameters from ¾” I.D. to 3” I.D.  The conveyance hose can slip easily onto the EXAIR non-threaded style of Line Vacs.  EXAIR can cut-to-length Conveying Hoses up to 50 feet (15m); in increments of 10 feet (3m).

Coiled Hoses:

To get compressed air from the piping system to the Safety Air Guns, we offer a series of Coiled Hoses.  They are made of a durable abrasion-resistant nylon material that is 12 feet long (3.6 meters).  They have swivel fittings to allow for easy uncoiling, and a spring strain relief to keep the hose from kinking.  The coiled design makes it easy to reach around the work area and retract back to the substation.  This will help to keep the hose off the ground where potential dangers could occur.  We offer 3 different connection sizes of 1/8” NPT, ¼” NPT, and 3/8” NPT to attach right to the Safety Air Guns.  With the proper size, the Coiled Hoses can supply the required amount of compressed air with a minimal amount of pressure drop.

Compressed Air Hoses:

If you need a compressed air line to reach from overhead or around equipment, the EXAIR Compressed Air Hoses would work with these applications.  They are made from a reinforced synthetic rubber in 3/8” I.D. and 1/2” I.D. diameters.  We can make specific lengths up to 50 feet (15m).  They are rated for 250 PSIG (17 bar) air pressure, and the hose material works well for long lasting protection against ozone, weathering and temperatures up to 158oF (70oC).  They come with two male ends in ¼” NPT or ½” NPT.

Stay Set Hoses:

The Stay Set Hose gives you that possibility of manually adjusting or re-adjusting Super Air Nozzles.  The hose has a “memory” function, and it will not creep or droop until you physically move it.  They work well to direct air flows in specific target areas.  They can be used with Super Air Nozzles, Safety Air Guns and Blow-off Kits.  The Stay Set Hoses come in lengths from 6” (15cm) to 36” (91cm), and they are offered with ¼” NPT male on both ends or with a 1/8” NPT female and a ¼” NPT male connections.  These hoses are rated for 250 PSIG (17 bar) and are made from reinforced synthetic rubber.  If positioning is required for accurate blowing or re positioning for different areas, the Stay Set Hose would be a nice addition to your equipment.

Vacuum Tubing:

For our E-Vac product line, EXAIR offers vacuum hoses to connect the E-Vac vacuum generators to the suction cups.  They are made from polyurethane in ¼” O.D. and 3/8” O.D.  The tubing is very flexible for moving product, and they can resist the vacuum pressures created by the E-Vac.  They slip easily into our Push-In Connectors to quickly attach vacuum cups to the E-Vac system.  EXAIR can sell both types of tubing up to 50 feet (15m) in increments of 10 feet (3m).

Hoses and tubes may seem like simple things, but EXAIR already did all the research in determining the best material and correct size for optimum performance.  You can leverage this information to save you time and money when using EXAIR products in your application.  If you need help in selecting the correct model, you can contact an Application Engineer.  We will be happy to help you.

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

OSHA 29 CFR 1910.15(a) – Occupational Noise Exposure Limits

Hearing loss due to high noise levels is a common problem in many industrial facilities. Without the use of proper PPE, hearing loss can occur quickly. This is a serious concern as hearing loss is permanent and once the damage is done there’s no way to reverse it. Due to this risk, OSHA strictly enforces standard 29 CFR-1910.95(a).

This directive discusses the effects of noise and limits exposure based on the dBA. The table below indicates the maximum allowable exposure time to different noise levels. Sound levels that exceed these levels should first be addressed by proper engineering controls such as isolating the source of the sound from personnel or replacing the cause of the sound with something like an engineered compressed air nozzle. When such controls aren’t feasible, proper PPE must be worn to protect the operator.

OSHA Chart

Hearing loss can occur in as little as 30 minutes when exposed to sound levels 110 dBA or greater. Operators have a tendency not to use PPE as directed, if an OSHA inspector comes to your facility and notices that the sound levels exceed the maximum allowable level without protection hefty fines will be soon to follow. In this example from the United States Department of Labor, a company was fined a total of $143,000 for failing to protect their employees.

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Model 9104 Digital Sound Level Meter

In order to identify the places or processes in your facility that are causing the problems, you’ll need a tool to measure the sound level. EXAIR’s easy to use Digital Sound Level Meter allows you to measure and monitor the sound level pressure in a wide variety of industrial environments. The source of the loud noise can then be identified and isolated so that corrective action can be taken. For compressed air related noise, EXAIR manufactures a wide variety of engineered compressed air products that can reduce the sound level dramatically. In many cases, EXAIR products are capable of reducing noise levels by as much as 10 dBA. Since the dBA scale is logarithmic, this equates to cutting the sound level in half!

sound-level-comparison
Drilled pipes and open ended tubes are the common culprit for excessive noise levels. Replacing them with an engineered solution often eliminates the need for hearing protection.

If there’s processes within your facility that are above these limits and you’d like to eliminate relying on proper PPE, give an Application Engineer a call. We’ll help walk you through the selection process and make sure that when the OSHA inspector comes knocking you’re prepared!

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

Sanitary Flange Line Vacs for Bulk Conveying

Piping systems have been a hallmark of human civilization for almost as long as people have been living in community with each other. Evidence of complex earthen pipe systems, with flanged fittings & asphalt sealants, date to 2700 BC. These were used for crop irrigation, potable water distribution, and wastewater removal in ancient civilizations from the Mediterranean to the Far East.

Over the centuries, new ways to use pipe led to new ways to make pipe.  Scientists and engineers figured out ways to make pipe stronger, lighter, cheaper, and in a variety of materials.  One of the more recent milestones is the development of sanitary piping and fittings.  The stringent cleanliness controls in certain industries (food and pharmaceutical, I’m looking at you) require highly corrosion resistant materials of construction.  The inside & outside surfaces of the pipe have to be finely finished so that they can be thoroughly and positively cleaned, with no crevices, “nooks & crannies,” etc., for material to gather or cling.  And since regular cleaning & sterilization is performed, the fittings must be able to be made & unmade in a manner that still provides for positive sealing when the system is restored to operation.

EXAIR Line Vac Air Operated Conveyors have always been well suited for applications like this.  With their open, unobstructed throats and smooth bores, they’re intuitively easy to clean, by design.  And we’ve made them, for years, in Type 316 Stainless Steel – the preferred material of construction for many food and pharmaceutical applications.  Many users in these industries were able to install them in sanitary piping systems by welding the flanges on our Stainless Steel Line Vacs, or by installing adapters on our Threaded Stainless Steel Line Vacs.

In the spring of 2017, EXAIR released the Sanitary Flange Line Vac with those same users in mind – eliminating the need to weld or thread flanges onto existing products.  They feature the same conveyance power as our Stainless Steel Line Vacs, and can even be modified to meet Heavy Duty Line Vac performance, if needed.  There are four sizes: 1-1/2″, 2″, 2-1/2″, and 3″…which covers the most popular size range of sanitary pipe systems.

While the sanitary piping systems are certainly most often found in those cleanliness-critical food & pharma type applications, other users incorporate them because of the smooth, continuous bore of the pipe and fittings, as opposed to a threaded pipe system, where the OD of the pipe threads into the ID of the fittings, causing a “step” in the throughput.  Because sanitary fittings mate via face-to-face flange seals, this eliminates that “step” which can make for a catch-point for certain items.  It’s for this very reason that a popular ammunition manufacturer uses sanitary pipe systems to convey shell casings…because they tumble with such turbulence in the air flow, they are especially prone to hanging up on any kind of catch-point.  So, they use sanitary piping & fittings, long radius elbows, and EXAIR Model 161150-316 1-1/2″ Sanitary Flange Line Vacs.

Air conveying of certain items, like these ammo shell casings, can be prone to clogging or jamming in systems where pipe, hose, and/or fittings are inserted into each other, creating catch-points.

EXAIR has a wide selection of engineered compressed air products that are “textbook” solutions for certain applications, but also make perfect sense for use in places you might not have thought of.  If you have a bulk material conveyance operation you’d like to discuss, give me a call.

Russ Bowman
Application Engineer
EXAIR Corporation
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Shells photo courtesy of hydropeek  Creative Commons License

Proper Air Supply Line Size Equals Proper Performance

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Properly sized piping will allow your compressed air operated equipment to operate efficiently!

On any given day myself and my Application Engineering Brethren here at EXAIR have discussions with customers on air starvation of any given EXAIR Product.  The calls generally start off the same, “The Line Vac is not performing like it should”.  We at EXAIR absolutely want to help you get the most out of our products and we certainly want them to perform to your expectation.  However they must be supplied with clean/dry compressed air at sufficient pressure and volume.

Just the other day I was discussing a performance issue with a customer on a 1″ Line Vac.  The customer thought he needed a larger Line Vac.  I asked the questions regarding the diameter of his Supply Line and if he was using Quick Connect or Push Lock connectors.  He was attempting to feed this Line Vac with 1/4″ Poly Tubing through a elbow Push to Loc fitting.

This 1″ Line Vac was being severely starved for air and therefore not performing as expected.  The 1″ Line Vac require’s 14.7 SCFM @ 80PSI to reach the rated performance of 42″ of water column.

Below is a table for Pipe/Hose sizing from the Line Vac installation manual that you can use as a reference guide.  It is recommended that if using hose for the supply air to go up to the next size over the pipe recommendation.

Chart2

Don’t forget that quick connects and Push Lock fittings are not recommended and could restrict the air flow which will have a negative impact on performance.

If you would like to discuss Line Vacs or any EXAIR product,  I would enjoy hearing from you…give me a call.

Steve Harrison
Application Engineer
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EXAIR’s Case Study Library

Did you know that you can find 35+ published Case Studies regarding many of the EXAIR products and how customers were able to save on compressed air and increase safety simply by installing and using one of our Intelligent Compressed Air Products?  Case studies provide real world results and highlight any dollar savings, production increases, quality improvements, safety improvements, and/or problems solved. The Case Studies are a valuable tool which can help determine success within your plant or aid in convincing a manager to implement an air savings project. With registration, they can be found under the Knowledge Base tab on the main page of the website, or simply click here.

Once on the Case Study page, you can search and sort by Product type or Application. Reading through the Case Studies of the type of product(s) of interest can provide valuable information on the compressed air savings and safety improvements that others have achieved, and that you might be able to realize as well.

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The Case Studies involve measurable data from actual processes and offer learnings that can relate to applications and processes that are similar to those in your facility.

  • Each Case Study begins with the Application Goal – what was it that was to be achieved by the installation and use of the EXAIR product.
  • Then, we review the Before EXAIR condition –  what was the problem, and what was being used initially.
  • Next, we show the After EXAIR process – this details the EXAIR product(s) that were implemented, and how it was able to improve the process.
  • Finally, the Summary section – this shows the cost savings attained, from less compressed air usage, faster operation rates, lower quality defects, reduced sound levels, and so forth that have been achieved and documented.

We invite you to read, download, and share the Case Studies, and use them as another tool available to you to learn about EXAIR products and how they can improve your processes.

We are always interested in learning about the compressed air savings and increased safety that have been realized by the use of an EXAIR product, and if you could share that information with us and have it result in a Case Study, we would love to talk to you and discuss how we can work together.

To discuss your application and how an EXAIR Intelligent Compressed Air Product can improve your process, feel free to contact EXAIR, myself, or one of our other Application Engineers. We can help you determine the best solution!

Brian Bergmann
Application Engineer

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Gen4 Super Ion Air Knives Remove Pesky Dust from Crepe Paper Manufacturing Process

Paper Measuring Equipment

A paper manufacturer was having issues with their measuring equipment (reference photo above).  They were producing 6” (152mm) wide crepe paper which is very thin and dusty.  As it would pass through the machine, a real-time measurement of basis weight and moisture content was being performed.  The basis weight of the sheet was around 14g/m2 which is like facial tissue.  The machine was giving false errors in the basis weight measurement.  As they opened the device, they noticed dust particles on the optical lens.  Because the basis weight was so small, any dust would cause a false reading.  They contacted EXAIR to see if we could help with their problem.

With a dry fibrous material like crepe paper, static can be a big issue.  Static has a strong force that can cause small fragments to “stick” to surfaces.  As you can see in the photo, the paper material is sticking to the sides and lens of the measuring device.  For this application,  I recommended two pieces of the model 112206 Gen4 Super Ion Air Knife Kits.  The Gen4 Super Ion Air Knife is uniquely designed to have two functions; remove static and blow off dust.  The Gen4 Ionizing Bar creates both positive and negative ions to remove any type of static charge.  The Super Air Knife creates a laminar air stream to carry the ions and also generate an even blowing force to remove the dust particles from the surface.  With this combination, it becomes a very effective non-contact way to remove the contamination.  This was an important requirement as the crepe paper is very thin and could break very easily.  They were able to mount one Super Ion Air Knife above and below the paper in order to blow the dust particles in a counter-flow direction.  This would keep the particles from entering the measurement device.

Super Ion Air Knife Kit

The Super Ion Air Knife Kit includes the Super Air Knife with a Gen4 Ionizing Bar attached.  The kit also includes a power supply, filter, regulator, and a shim set.  The power supply is specifically designed for the Gen4 Static Eliminators.  The Gen4 Super Ion Air Knives use the high voltage from the power supply to generate enough ions to remove static from the paper at a running speed of 49.5 ft/sec (15m/sec).  The filter will remove any contamination and liquid water from the compressed air system before it enters the Super Ion Air Knife.  This is important to keep the product clean.  The shim set is a set of three different shims with a thickness of 0.001” (0.025mm), 0.003” (0.076mm), and 0.004” (0.1mm).  They are used to dramatically change the blowing force from the stock shim at 0.002” (0.05mm) thick.  Being that the paper was extremely thin, they opted to put the 0.001 (0.025m) thick shim inside the Super Ion Air Knife.  With the regulator in the kit, the customer could “dial” in the correct amount of force to keep the machine running optimally without breaking the delicate paper.

When the customer installed the Gen4 Super Ion Air Knives just before the entrance into the measuring device, the air stream was able to carry the ions to neutralize the static and to remove the dust from the paper surface.  The system was now able to make accurate measurements without disruptions.

For this customer above, the Gen4 Super Ion Air Knives made their system run accurately and consistently by removing any pesky dust particles.  If you have an optical device that needs to stay clean, you can contact an Application Engineer to review your application.

John Ball

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

NFL is Back! But So is Static……

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View of Paul Brown Stadium

I awoke on Sunday with a bit more pep in my step. It’s been a long and dreary past 7 months (8 or more months for unlucky fans like me), but this day marked another early season NFL Sunday. Wives across the U.S. were collectively rolling their eyes as their husbands perched themselves comfortably on the couch, cold beer in hand, glued to the television screen from dawn ‘til dusk. It’s an exciting time for many, especially us Bengals fans, as the season is ripe with hope and cautious optimism. Fantasy leagues are in full swing, and my apologies to any of you who elected to draft Le’Veon Bell with your 1st pick this year….. However, with the arrival of football season, there is  an unwelcome guest that begins to rear its ugly head: static electricity.

As summer ends and moves towards fall and winter, the air becomes much drier. And because moisture in the air can mitigate some static charge, the dry air allows more static to be present. You may be familiar with the unpleasant shock you get from the door knob after walking across a carpeted surface. While this type of shock doesn’t generally cause any sort of problems, in many industrial processes this static electricity can cause a wide range of different issues. These may manifest simply as nuisance shocks to the operator similar to the door knob example, but it can also cause problems with finish quality, materials jamming/tearing, sheet feeding problems, product clinging to itself or rollers, and dust clinging to product.

In many painting applications, particularly in the automotive industry, dust and debris from the ambient environment can settle on the part prior to painting. Just blowing them off with a standard air gun won’t remove all of the particles if they’re statically charged. The static must be removed in order to remove it or it’ll cause imperfections in the finish after painting. This often results in a high amount of rejected parts that must be scrapped out. I recently visited with a company who handles the painting of small interior automotive parts. The parts are housed on shelves in a dusty environment. This dust settles on the parts while they’re waiting to be painted and just using an air gun alone wasn’t taking care of the problem. In this setup, they were rejecting nearly 60% of all painted parts after inspection.

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Automotive parts after painting

We brought with us a Model 8193 Gen4 Ion Air Gun to replace their regular compressed air gun. The Ion Air Gun is an ergonomic handheld gun that combines low air consumption along with an incredibly fast static decay rate. After taking a reading both before and after with a Model 7905 Static Meter, it was clear that the Ion Air Gun was the right tool for the job. The static eliminating ions were carried to the surface of the part which not only removed the static charge, but also the dust particles clinging to the surface. By replacing their two standard guns with Ion Air Guns, the reject rate was reduced to just under 10% after painting!!

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Model 8193 Gen4 Ion Air Gun

Break out your favorite football team’s gear and enjoy the cooler weather and activities that accompany the coming of Fall, but don’t let static wreak havoc in your processes. EXAIR has a wide range of solutions available that are designed to solve these problems. Give an Application Engineer a call and we’ll be happy to help recommend the best solution. And to all of my fellow Bengals fans out there, WHO DEY!

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

 

Bengals photo courtesy of  Nunya Biz via Flickr Creative Commons License