Super Air Amplifier Increases Airflow In Vaccum Hood For Fume Extraction

A couple days ago I  took a call from an extrusion company who was looking to increase the airflow in their plating operation. They manufacture several different shapes and styles of aluminum extrusions by the way of 8 large extrusion presses. On one of the presses they make a specialty line of products that are sent to a finishing operation to be anodized.

Above the anodizing process tanks they use a vacuum hood to capture fumes and send them to a scrubber system so the air can be cleaned before being exhausted. They were starting to see an increase in the level of VOC (Volatile Organic Compound) gases in the area and, after some internal testing, determined the existing system wasn’t moving enough air through the system for the gases to be adequately delivered to the scrubber tank.

Example of a scrubber system

After further discussion, the customer ordered our Model # 120022 2″ Super Air Amplifier to test under our Unconditional 30 Day Guarantee.  Air Amplifiers are one of the most efficient products in the EXAIR catalog. Using a patented internal shim, they use a small amount of compressed air that passes through an internal chamber where it is exhausted through a thin gap at high velocity. This directed airflow creates a lower pressure at the intake side which draws in a large amount of free air. The 2 combining air flows result in a large volume of “amplified”, high velocity exhausting airflow, making them ideal for increased air movement.

Air Amplifiers entrain enormous amounts of “free” air, at ratios of up to 25:1!

If you have an application where you need to increase airflow or if you’re looking to vent or exhaust noxious fumes, an Air Amplifier is the ideal choice. For help selecting the best Model or to discuss a particular process, please contact an application engineer for assistance.

Justin Nicholl
Application Engineer
justinnicholl@exair.com
@EXAIR_JN

 

Pueblo Chemical Agent-Destruction Pilot Plant Agent Processing Building courtesy of PEO ACWA via creative common license.

 

E-vac and Vacuum Cups for Lifting Saw Cut Aluminum Bar Stock

E-vac brick
E-vac and vacuum cups lift, large, heavy objects!

Our Chinese distributor had a customer who was producing the aluminum pieces that are formed into wheels for the automotive industry. Their process involved saw cutting large diameter, aluminum bar stock so it could be further processed.

The problem was once the parts were saw cut, they were slippery and difficult to handle. So, the customer was looking for a good way to handle these parts that was safe and effective for the operator as well. Our distributor offered the idea of using vacuum cups and an EXAIR E-vac for the project.

We determined that the aluminum raw stock that would be picked up would have an effective diameter of 254 mm on which vacuum cups could pick up the part for transfer. Also, the parts could weigh up to 45 kilos. So, we needed to find a vacuum cup (or cups) that could pick up that much weight with the surface area allotted to us. After reviewing our options, we came to the conclusions that (3) model 900759 vacuum cups would have a combined lifting capacity of 100 kilos when powered at -71 kPa vacuum. These vacuum cups have a 108 mm diameter and so can fit nicely in a triangular orientation on the saw cut area of the aluminum part.

Then came the part where we recommend which E-vac generator to use. We already calculated in our usual 2X safety factor for weight being lifted. So we are quite confident that the cups can do their job as long as sufficient vacuum could be maintained. We are lifting solid aluminum, so we know the material is non-porous. So, that’s the version of the E-vacs we will take into consideration for the project.

The part about determining which E-vac to recommend is not as clear cut and well defined as picking the vacuum cups is. So we must use our best judgement based on the weight of the item, the size and number of vacuum cups being used, and the surface finish of the material. Since the material will be somewhat on the heavy side and it would be a real problem if it were dropped, I recommended our distributor go with one E-vac vacuum generator per each vacuum cup. The vacuum generator I recommended was from the middle of the available models from a performance standpoint. That was model 810008M (8.4 SCFM Non-porous E-vac with straight through muffler). In this way, if one cup were to lose vacuum for whatever unforeseen reason, the other two could still support the full weight of the object as it is being lifted and moved.

Once the customer had their lifting fixture fabricated and the E-vacs with vacuum cups mounted, the lifting unit worked very well to address the customer’s concerns about worker productivity and safety.

E-vacs can be used for a variety of tasks, but lifting and placing applications tend to be the more prevalent ones. If you have a lifting or moving application of your own and think that vacuum technology might be useful, contact us with your questions. We thrive on helping folks like you solve such problems in industry.

Neal Raker, International Sales Manager
nealraker@exair.com
@EXAIR_NR

Safety Air Gun Improves Aluminum Extruding Machining Process

I was doing some work around the house Saturday when I heard my wife shouting out from our laundry room….”Something is wrong with our dryer. This is the 3rd time I’ve restarted it and the clothes are still wet!”. Now having been in this situation before, I knew this meant that the exhaust was probably clogged with lint (again).

See, our laundry room runs parallel to our family room and the exhaust ducting goes up and then across the laundry room, across the family room and then exhausts on the side of the house. (I would like to find the person who thought this was a good idea!). I have thought about re-routing the ducting but the only other option would be to have the exhaust on the front of the house which will “never happen” (per my wife). So I usually end up taking my vacuum and attaching as many extensions as possible to reach as much of the ducting as I can. I have tried a few other methods with no success – like taking my leaf blower and, from the outside of the house, blow the lint back towards the laundry room and into a garbage can. (hint: make SURE your wife is not in the laundry room when attempting this…. They don’t react too well when they get covered in lint!)

This made me think of an application I worked on last week with an aluminum extrusion company. The customer cuts lengths of aluminum siding from 1’ up to 10’ in length and, standing at one end of the material, are using a standard blow gun to try and blow out the chips but are unsuccessful. They reviewed our website but were still unsure what product may fit their needs best, so they gave us a call.

We discussed their application and the customer was able to email pictures. After reviewing the pictures I recommended using one of our Soft Grip Safety Air Guns with our Model # HP1125, 2” Flat High Power Super Air Nozzle and a 72” extension.  The Soft Grip Safety Air Gun is constructed of cast aluminum and includes a hook for hanging in a convenient location. The Model # HP1125, 2” High Power Flat Super Air Nozzle, produces 2.2 lbs. of force @ 80 PSIG and utilizes 37 SCFM with a sound level of 83 dBA. This would also meet or exceed the OSHA standards for safety, per Standard 1910.242(b) for 30 psi dead end pressure, and allowable noise exposure per Standard 29 CFR – 1910.95(a).

HP1230
An EXAIR model HP1230 Soft Grip Safety Air Gun

To discuss your application or help with selecting the right product, contact an application engineer.

Justin Nicholl
Application Engineer
justinnicholl@exair.com
@EXAIR_JN