Sargent 10XG15-3-LMW Exit or Twin Communicating Function Cylindrical Lock, "L" Rose, "MW" Lever Design, 2 3/4 Backset, 4 7/8 Strike, Grade 1
The Sargent 10XG15-3-LMW Exit or Communicating function lockset has a Deadlocking latch, blank rose outside no lever, Latch by lever inside, an L Rose, a 2-3/4" Backset, a 4-7/8" Strike, and is Grade 1. Sargent 10XG15-3-LMW is available in US26D Satin Chrome, US10B Oxidized Dull Bronze, US3 Bright Brass, US4 Satin Brass, US26 Polished Chrome, and BSP Black Suede Powder Coat Finish.
The SARGENT 10X Line bored lock is engineered to secure and protect high-traffic, high-abuse spaces. It doesn't simply meet ANSI/BHMA Grade 1 performance standards for durability, strength and performance, it exceeds them - by as much as 20 times. That means occupants will experience reliable performance throughout its lifecycle.
Features
- Compatible with several security key systems (Degree, Signature, KESO, etc.)
- Prevents entry and maintains egress against more than 3,100 in-lb locked lever torque (2.6x ANSI/BHMA A156.2 requirements)
- Withstands 1,600 lbs offset lever pull (8x ANSI/BHMA A156.2 requirements) and continues to restrict entry
- Ensures latch retraction with 100lb preload (2x ANSI/BHMA A156.2) while maintaining operation in warped doors or doors with latch bind
- Prohibits entry after more than 100 vertical impacts (20x ANSI/BHMA A156.2 requirements)
- Innovative push/turn button design prevents damage from door stops and walls
- 26 mechanical functions offered
- Available in 14 finishes with multiple lever designs
- Optional Microshield ® antimicrobial coating available
- Lockbody design supports all cylinder formats - from fixed to interchangeable core
- Provides maximum resistance to vandalism and other malicious attacks
- Certified above & beyond testing to withstand high volume traffic
- Complements the look of any design style
- Minimizes inventory stocking requirements
- Simplifies installation in new and retrofit applications
- Integrates with new or existing facility key systems