EXAIR’sSuper Air Knives are the go to when you need to dry your parts as they’re traveling along a conveyor. The high velocity, laminar airflow from the Super Air Knife does a fantastic job of stripping away moisture, leaving your part dry for the next stage of the process. With models available in both 303 & 316 Stainless Steel, Aluminum, and polyvinylidene fluoride and at lengths ranging from 3″-108″, there’s a knife for every application.
I was recently working with a customer that manufactures knee replacement devices. He was designing a new blowoff station to eliminate having to have operators manually dry the parts after a washing operation. He created a test rig to test out his theory of using Super Air Knives. While conducting his tests, he was having issues completely removing the water from the parts. Due to some of the grooves and pockets, the underside was not drying in one pass. This led to him having to manually blow the parts off after they exited the basket. This would not be acceptable as the purpose was to remove the operator from this part of the process. After taking a look at some photos of the setup, I noticed that he had the knives angled so that the airflow was blowing perpendicular to the parts. In doing this, the amount of time that the part is exposed to the airflow is greatly reduced. In any blowoff application, maximizing the time & contact that the part has with the airflow is critical in maximizing effectiveness. By angling the knives so that the parts were exposed to the airstream just as they exited washing, he was effectively able to dry the parts in one pass.
We’re frequently contacted by customers who may have the right product for the application, but are not seeing the results they expected. EXAIR has a highly trained team of Application Engineers that are ready and waiting to help you optimize your installation. In addition, EXAIR offers an unconditional 30 Day Guarantee on all stock products. We want you to have an opportunity to test the product out in your application before committing to the purchase. In doing this, we have the unique opportunity to work with you as you troubleshoot the application. If you have an EXAIR product installed and still aren’t seeing the results you expect, give us a call. We’d be happy to look into your setup and determine if there’s anything that can be done to enhance the performance.
Last week I was contacted by a local machining company who was stamping oil pans for a large automotive manufacturer. Stamping, also referred to as pressing, is an industrial machining process where a flat material, like sheet metal, is placed into the stamping press and a press die stamps down to form a specific shape or mold.
As the oil pan exits the stamping press the parts are sent through a water rinse to remove any particulate and then hung from a drying rack. After the parts are dry they are sent to a paint booth then an oven for the paint to cure. They were beginning to see reject parts after the curing process due to residual water droplets being present which caused the paint to bubble or streak in this particular area. As a quick fix, on each side of the drying rack they ran compressed air to long lengths of 1″ PVC pipe with approximately (21) 1/8″ drilled holes spaced about every 4 inches to try and dry the parts more efficiently. While this did improve the dry cycle time, they were still seeing the rejects due to gaps in the airflow continuing to leave water drops. Another concern was their compressed air usage as they have a large number of rotary presses requiring compressed air so this particular application was, as the customer stated – “getting whatever air is left”, and potentially starving other processes of required air.
Once again EXAIR had the perfect solution, the Super Air Knife. The Super Air Knife produces an even, high velocity curtain of air across the entire length of the knife. Extremely efficient, the unit uses only 1 part of compressed air while entraining 40 parts of surrounding, ambient air. In this particular application, I recommended the customer mount one 84″ knife on the front and another 84″ unit on the back of the rack, allowing the parts to pass through the laminar airflow removing the excess water from both sides of the part.
Addressing the compressed air usage – each 1/8″ drilled hole is going to consume roughly 21.4 SCFM @ 80 PSIG, so for a quantity of (21) drilled holes, the total would be 449 SCFM per PVC pipe. In contrast, an 84″ Super Air Knife is going to consume only 243.6 SCFM @ 80 PSIG, or just a little over half of what they are currently using!