Dixon
N4S8 - Dix-Lock® N-Series Interchange Male End x Hose Barb Plug
- SKU:
- N4S8
- Availability:
- Usually Ships Within 24 Hours
- Weight:
- 0.92 LBS
*Images are for visual reference only.
Description
Details
Available Options
- Staked ferrule option available, contact Dixon
- 316 stainless steel available in some versions upon request, contact Dixon
Compatibility & Interchange Data
- Bowes Interchange Bayonet Style
- Interchangeable with Bowes 51000-Series, National Series 'B', MacDonald Quick-Action, Campbell Single-Lock
Construction
- Machined components are manufactured using solid bar stock.
- Stainless steel retaining ring and spring maximize corrosion resistance and extend service life.
- Steel componentry is plated using ROHS Compliant Trivalent Chrome.
- Coupling sleeve constructed of cast zinc steel
Safety Notes
- Operating pressure for couplings utilizing hose barb connections may be dramatically reduced to that of the hose rating and/or hose end connection combination. Consult hose manufacturer's catalog for hose end connection ratings. If in doubt, test under controlled conditions for suitability to application.
- Dixon cannot assume liability for misapplication of production resulting in equipment down-time, lost production, and/or personal injury including death.
- It is important to be safe when installing quick disconnect couplings into a pneumatic circuit. Never install a pneumatic coupling directly into an air tool, use a piece of hose that is at least 18" long, between the tool and the coupling, to prevent damage to the coupling. To protect the operator, safety devices, such as a safety check valve and safety cable should be installed in case there is a hose or coupling failure.
Specifications
- Rated pressure for connected Steel Coupler & Steel Plug: 500 PSI (35 bar) Maximum Working and 11,000 PSI (755 bar) Burst
- Conforms to MIL-C-3486 and A-A-50431A standards
WARNING: This product contains lead, a chemical known to the State of California to cause cancer and birth defects or other reproductive harm.