A little while back, I was contacted by a customer who was looking for a way to clean chips and debris out of tapped holes in an engine block. They were familiar with our products, having used them in several different areas in their plant, and had done some early research into our Air Nozzles.
They were considering using our small M4 Back Blow Air Nozzle in the process. The Back Blow Air Nozzles produce a 360° airflow that blows away from the end of the nozzle and in many cases, are the ideal solution for treating the inside diameter of hose, pipe, machined holes, etc. These unique nozzles, eliminate the concern of forcing particulate further down into a machined hole or the safety issue of blowing material out of the opposite end of an open tube or pipe.
In this particular case, having the material blown out of the hole increased the risk of possible cross contamination somewhere else in the engine block so they were also thinking of incorporating some type of recovery system like our Chip Vac or one of our Line Vacs but were concerned with having to use two separate devices.
Once again, EXAIR has the perfect solution, the Deep Hole Vac-u-Gun. The Deep Hole Vac-u-Gun features a small blow tube (1/8″ OD) that provides a small blast of air to dislodge or loosen foreign material while simultaneously providing vacuum to carry the debris away.
If you have a similar application or would like to discuss how an EXAIR Intelligent Compressed Air Product can help solve a unique situation, contact an application engineer for assistance.
Above, you see a photo of what our customer calls an “air box”. It is aptly named as it consists of approximately 65 homemade nozzles, connected to a large plenum, which are able to be aimed in a variety of directions to blow out the numerous holes that are machined into the bottom of an aluminum engine block.
Each of the nozzles above were hand-made for the air box fixture with an internal hole diameter of 1.6 mm. and which produced a force of about 50 grams with 6 BARG inlet pressure. The goal of reviewing the application was to see what if any EXAIR nozzles could replace these custom-made units to produce an air savings and thus cost savings for operating their fixture.
The calculated air savings between the existing nozzle and the EXAIR Super Air Nozzle was about 34%. That’s a savings of 1.4 SCFM per nozzle. In terms of sheer air volume, that’s not a lot, BUT when you multiply that up over 65 nozzles, total air savings is 91 SCFM. That is close to saving the full output of a 25 HP air compressor!
And so, if you run out the cost to operate a 25 HP air compressor for a year’s worth of production, the savings becomes quite clear that by simply swapping out these homemade nozzles for an engineered solution with EXAIR Super Air Nozzles, the customer can achieve their goal for reduction in air use. Not to mention a significant reduction in the noise level for the application as well as enhanced safety with OSHA compliant nozzles.
Do you have a blowing application that could benefit from the same kind of simple, swapping of nozzles to bring your production costs down? Give us a call and let us know about your application. We would be happy to discuss with you and provide a similar comparison to determine how much air you could save!