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16D399 8111FP UNSPSC # 46182401

Emergency Shower, Wall Mount, ABS Plastic, 11 in Head Dia.

  • Item # 16D399
  • Mfr. Model # 8111FP
  • UNSPSC # 46182401
  • Catalog Page # N/A
Country of Origin USA. Country of Origin is subject to change.

This AXION MSR® freeze-protected drench shower features a hydrodynamic shower design to minimize physical pressure in the showerhead and make the distribution equal across the entire footprint of the flow. This shower is more effective and also more comfortable by breaking the streams of water into smaller individual droplets.

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Emergency Shower, Wall Mount, ABS Plastic, 11 in Head Dia.

  • Item # 16D399
  • Mfr. Model # 8111FP
  • UNSPSC # 46182401
  • Catalog Page # N/A
Country of Origin USA. Country of Origin is subject to change.

This AXION MSR® freeze-protected drench shower features a hydrodynamic shower design to minimize physical pressure in the showerhead and make the distribution equal across the entire footprint of the flow. This shower is more effective and also more comfortable by breaking the streams of water into smaller individual droplets.

Technical Specs

  • Item Emergency Shower
  • Eye Wash and Shower Mounting Wall
  • Shower Head Material ABS Plastic
  • Head Dia. 11 in
  • Shower Head Activates By Pull Lever
  • Flow Rate 20 gpm
  • Ball Valve Type 1 in IPS Brass Stay Open
  • Handle Material Stainless Steel
  • Fitting Size 1 in NPT
  • Pipe Material Galvanized Steel
  • Standards CSA Certified to ANSI Z358.1
  • Includes The Axion MSR(TM) Hydrodynamic Designed ABS Plastic Showerhead with Flow Control, and Brass Stay-Open Ball Valve Equipped with Stem and Stem Extension for 15 in Max Wall Thickness, a Stainless Steel Push Flag, Universal Sign, and 1 in IPS Supply, Freeze Resistant
  • ANSI Compliant Yes
  • ADA Compliance No

This AXION MSR® freeze-protected drench shower features a hydrodynamic shower design to minimize physical pressure in the showerhead and make the distribution equal across the entire footprint of the flow. This shower is more effective and also more comfortable by breaking the streams of water into smaller individual droplets.

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