Model 1100SST 1/4 FNPT St. St. Super Air Nozzle with OD Thread
Applications
- Part cleaning
- Chip removal
- Liquid blowoff
- Part cooling
- Material conveying
- Part ejection
- Fiber conveying
- Air assist
Advantages
- Reduced compressed air cost
- 10 dBA average noise reduction
- Conserve compressed air
- Improved blowoff performance
- Compact
- Improved safety
- Meets OSHA noise level requirements
- Meets OSHA pressure requirments
- Improved production
Materials
Zinc Aluminum alloy - general purpose applications. Max temp 250°F (121°C).
Type 316 Stainless Steel - high temperatures, corrosive environments, and mechanical wear. Max temp 1000°F (538°C)
PEEK Plastic - replaces metals in harsh environments. Offers chemical resistance and is non-marring. Max temp 320°F (160°C).
Super Air Nozzle Performance | ||||
| Air Consumption | Force* | Sound Level | ||
| SCFM | SLPM | Ozs | Grams | dBA |
| 14 | 396 | 13 | 368 | 74 |
*Force measured at 12" (305mm) from target Sound level measured at 3' (914mm) All measurements taken at 80 PSIG (5.5 BAR) | ||||
How EXAIR Air Nozzles Work | |
 | |
Air Nozzles use the Coanda effect to amplify compressed airflow up to 25 times or more. Compressed air is ejected through a series of nozzles on the outer perimeter. As the air travels along the outer wall of the nozzle, surrounding air (blue arrows) is entrained into the stream. The airstream that results is a high volume, high velocity blast of air at minimal consumption. The air is always ejected so it can vent safely, well below OSHA dead end pressure requirements, should the nozzle end be blocked. | |
Super Air Nozzle Dimensions & Airflow |
 |
-
Model 1100SST 1/4 FNPT St. St. Super Air Nozzle with OD Thread