3M DBI-SALA
3M DBI-SALA 6 ft Nano - Lok Twin - Leg Quick Connect Self Retracting Lifeline - Web 3101502
- SKU:
- 365R-3101502
- UPC:
- 840779101641
- MPN:
- 840779101641
- Availability:
- Call or Email for Availability!
- Shipping:
- Calculated at Checkout
Description
3M DBI-SALA Nano-Lok Twin-Leg Quick Connect Self Retracting Lifeline for Hot Work Use - Web 3101502 - 6 ft. (1.8m)
6 ft. (1.8m) twin-leg lifelines with 3/4" (19mm) Kevlar web and steel locking rebar hooks, quick connector for harness mounting.
Nano Lok is ergonomically designed for ease of use and is ideal for direct connection to most harnesses. The extremely compact and lightweight design is virtually unnoticeable on your back, staying out of the worker's way and making it ideal as a lanyard replacement. Whether your application requires single or twin leg configurations, mounting to an overhead anchor or for connection directly to harness, there are dozens of models to choose from to suit almost any application. Nano Lok locks quickly-stopping a fall within inches-providing more protection at low heights. In addition, tension is always kept on the lifeline, which reduces dragging, snapping and trip falls. Both features are key safety improvements.
- For hot work use
- Twin-leg 100% tie-off design
- Built-in connector for twin-leg SRL direct attachment to harness
- 6 ft. (1.8m) twin-leg lifelines with 3/4" (19mm) Kevlar fiber webbing
- Locking gate/nose steel rebar hook on each lifeline
- Tough and impact resistant thermoplastic housing
- Swiveling anchorage loops
Product Number | 3101502 |
Brand | DBI-SALA |
Dimensions | 23.45x3.05x2.03in |
Housing Material | Nylon Thermoplastic |
Housing Type | Thermoplastic |
ISafe Equipped | Yes |
Length | 6 |
Lifeline Hook Material | Zinc Plated Steel |
Lifeline Material | Fire Resistant Web |
Mounting Type | Direct to Harness Back |
Product Series | Nano-Lok |
Product Type | Twin-Leg Quick Connect Self Retracting Lifeline - Web - For Hot Work Use |
Recommended Industry | Construction |
Standards/Approvals | ANSI A10.32 |