Please let me know how I can provide assistance with your compressed air application or technical questions.
Spring is here in the Midwest, and it’s a darn fine time to be outside doing stuff. I took the opportunity the other day to set out a few tomato plants in the pitifully small area we have in our yard that actually gets enough sunlight to be effective at promoting photosynthesis – a term my 7th Grade son picked up on in science class, and I’m hoping will prove to be more interesting…at times…than his video games.
Anyway, in order to do this Real Gardening Work, I had to get some tools out of their winter hibernation. I was pleased to recall that, last fall, I had taken extraordinary measures to clean, lubricate, repair, and properly store my small arsenal of dirt-working implements. So, I didn’t have to:
*push the hand spade’s handle back in, every time I pulled it from the dirt.
*pull the pruner blades back open every time I squeezed them closed.
*reassemble my “garden weasel” tilling tool with bailing wire.
I was able to do all of that, last fall, with glue, oil, and fasteners that I already had in my garage, so it cost me nothing but the time to do it. Which paid off the other day.
There are plenty of ways to extend the life of your tooling – but it all boils down to how you operate and maintain it. I was able to apply the latter successfully, and I recently had the pleasure of discussing an application with a machine shop’s maintenance supervisor, about applying the former. He was interested in making operational improvements by replacing their messy mist coolant systems, and extending the life of their tooling. It was almost like he’d been reading our Cold Gun literature (full disclosure: he had.)
The Cold Gun Aircoolant System has proved to be a highly successful solution to both of these problems. In fact, the improvements in tool life has been documented in this detailed, long-term study by a major university’s Forestry Products Department.
Over the weekend, my wife and I were doing some “re-organizing” upstairs (actually throwing away some old toys and clothes), when our son decided to make a snack. I heard the pantry door close so I asked, “hey bud, what are you doing down there?” He promptly replied, “I’m just making a snack dad. How long do you normally microwave my soup?” While we questioned making soup at 9:00 AM for a snack, I reluctantly replied 2 minutes and heard the microwave begin. Slowly, a strange (awful) odor started to fill the house so I went downstairs to investigate. To my horror, I opened the microwave door to discover that he wasn’t making a snack for him, he was actually heating up a can of dog food, so his partner in crime (our dog), “could have a warm meal like us”. I immediately took the snack to the garbage outside and attempted to remove the stench from the house. I opened a couple windows and turned on the stove exhaust but this was still not working. That’s when I started thinking it sure would be nice to have a Super Air Amplifier handy, to help evacuate some of the odor and make the house livable again.
Using a small amount of compressed air, the Super Air Amplifier entrains a large volume of surrounding air and pulls this air through the unit, resulting in a high velocity, high volume of air on the exhaust side. The intake, or vacuum, side of the Super Air Amplifier pulls in 25 parts of surrounding air for every one part of compressed air. This high volume of ambient air being moved makes the Super Air Amplifier ideal for venting and exhaust applications.
Additionally, the vacuum and exhaust ends can be ducted, which makes this a good product for moving air from one place to another or from inside to outside. They are used in many applications for assisting air circulation and available in styles which are placed in ovens (and other high temp areas), corrosive environments, and remote locations. With the large volumes of air being moved, they are also an ideal choice where cooling and drying is required.
Air Amplifiers are some of the most efficient products in the extensive EXAIR line of compressed air products. They use a patented internal shim to minimize air consumption and increase air volume on the output side. The operate exceptionally quiet, are OSHA safe and CE compliant.
If you have a ventilation or fume exhausting application, please contact an application engineer for assistance.
Day 619 /365 – Radiation Burns, Jason Rogers Link
Years ago, I used to work at a transmission shop, pulling, rebuilding, and reinstalling transmissions and transaxles. Along with the transmission work came other drivetrain related needs like rebuilding differentials.
I recently visited with our Thai distributor, and while in Thailand we investigated a blow off need for a customer at an axle factory. The specific need was to improve blow off of a banjo axle (A banjo axle is (typically) a rear axle used commonly in trucks or heavier-duty vehicles. The significance of a banjo axle is that the differential unit can be completely unbolted and serviced, apart from the actual axle housing. Other styles house the differential unit within the pumpkin in a little bit of a different manner. Banjo axles allow for easy service and quick replacement if needed (a big plus for trucks putting heavy strain on the differentials) after welding and intermediary finishing operations.
The blow off needs were two-fold in this application. First, the axle assembly is sent through a washing process to remove any fines present from deburring, after which the exterior needs to be blown dry. Next, the internal sections of the tube, especially the baffles for oil flow, need to be blown off for the same reasons.
The first step of the process is experiencing efficiency problems, most notably a drop in line pressure for the surrounding applications when the blow off turns on. We counted over 120 nozzles in use when the first stage of the blow off engages, placing a huge demand on the compressed air supply. (This machine was fed with a 2” line from a 6” header.)
Immediately, we wanted to know the demand of air using the existing nozzles, but we also noticed that they were dangerous in their design. If the existing nozzles were to come into contact with a person for any reason, they could be dead-ended, which poses a safety concern. Next, we thought about a way to limit the air demand after efficient and safe nozzles are installed.
We recommended a series of model 1101 EXAIR Super Air Nozzles, with a cascaded blow off from left to right, then right to left, and finally from the center outwards. The process would require installation of some additional air controls and logic, but the compressed air demand from the logic controls alone could reduce demand significantly. Couple this with the efficiency improvements of the EXAIR nozzles, and the the efficiency improvements are compounded.
The second step of the process fed a lance into the axle assembly, blowing debris toward the center. To improve this stage of the blow off, we advised to install a 1006SS Back Blow nozzle, “pulling” the fines away from the center area of the axle. The center area of the axle contains baffles used to divert and direct oil flow, and the fines were accumulating in the folds of these baffles. So, rather than blowing the debris into this problematic area, we opted for the Back Blow nozzle to remove the debris and keep it away from the critical folds of the baffles.
It was good to see the solutions an EXAIR product can offer for this application in person, even if it was halfway around the world. If you have something similar or would like to discuss your particular application, contact an EXAIR Application Engineer.
When my sons were little boys, I would find myself looking forward to their teenage years, so they’d be more mature and I’d be able to relate to them better. Those of you with older kids may begin laughing now. My thinking was, I distinctly remember being thirteen. What I failed to recall was just exactly how peculiar I appeared to my parents (and they to me), and now, I’ve got the view from the other side.
In the interest of time and good taste, I’ll limit this discussion to the subject of food. I always liked (and still do like) ketchup almost as much as the french fries. Same for the “fixin’s” on a sandwich. In fact, as an adult, I’ve discovered a universal truth, that bacon or peanut butter can be used to improve the quality of ANY sandwich.
My sons, however, don’t feel this way at all. My fifteen year old won’t put anything but cheese (American cheese, at that) on a hamburger, and his thirteen year old brother won’t even do that. Curiously, the older one prefers cheese pizza, and the younger one will eat anything that used to be an animal on his. And neither one will put any sort of condiment or sauce on ANYTHING they eat. If it’s on their plate, it better not “have stuff on it.”
I was reminded of that phrase this morning during a conversation with a caller about an Air Knife application. It will be operated in the fairly aggressive chemical environment of a plating line. We discussed the chemical compatibilities of our different material offerings, and found that the Model 110006-PVDF 6” Super Air Knife was the one he was looking for. The body & cap are PVDF (Polyvinylidene Fluoride,) the shim is PTFE, and the fasteners are Hastelloy© C-276 alloy. It’s impervious to a long list of acids, caustics, and other harsh chemicals that even the higher grade stainless steels don’t stand a chance with.
Our PVDF Super Air Knives provide the same highly efficient and quiet performance as their aluminum, 303SS, and 316SS counterparts – plus you can get a lot more “stuff” on them without damaging them.
Regardless of where you need to install it, or what kind of stuff you might get on it, EXAIR has a Super Air Knife that will hold up in your application. Give us a call, and we’ll find the right one for you.
Did you know that EXAIR Super Air Nozzles are one of the most energy saving products that we sell? They are! To highlight this fact, we have developed a completely separate, EXAIR Blowoff Guide to educate our customers about the benefits of our Super Air Nozzles, Air Jets and Safety Air Guns. Benefits include compressed air volume reduction, compressed air noise reduction, and maintaining OSHA safety standards.
The last page in the guide discusses many of the other product groups that we offer for solving application problems. Many options are highlighted within the guide. Everything from use of Digital Flow Meters to measure savings, to use of Chip Shields, Extension Pipes and Magnetic bases and Swivels for easy installation.
The Blowoff Guide is a 26 page document with dimensions of 135 mm x 216 mm and has a weight of 50 grams. This is our third edition of the document that we use to make specialized promotions about these products. It is a handy reference that can fit into your back pocket.
Ask for your EXAIR Blowoff Guide to be sent to you. Simply click the following link to order your copy today! EXAIR Blowoff Guide
Neal Raker, International Sales Manager