3M™ DBI-SALA® Smart Lock Self-Retracting Lifeline- Arc Flash, Rope, 3503805 Front
3M™ DBI-SALA® Smart Lock Self-Retracting Lifeline- Arc Flash, Rope, 3503805_right side
3M™ DBI-SALA® Smart Lock Self-Retracting Lifeline- Arc Flash, Rope, 3503805_leftside
3M™ DBI-SALA® Smart Lock Self-Retracting Lifeline- Arc Flash, Rope, 3503805_backside
Attribute Name
|
Value
|
---|---|
Anchor Connection Type
|
Swivel Snap Hook
|
Anchor Hook Material
|
Zinc Plated Steel
|
Brand
|
DBI-SALA®
|
Carabiner/Hook Material
|
Zinc Plated Steel
|
Connected Safety ID Equipped
|
Yes
|
Connector
|
Snap Hook
|
Dimensions
|
23.5" x 9" x 4"
|
Features
|
Carabiner, Ergonomic Handle, Patented Magnetic Retraction Control, Requires 4 ft Clearance, Secondary Inspection System, Swiveling Anchorage
|
For Use With
|
Full Body Harness & Anchor Point
|
Harness Connection Type
|
Carabiner
|
Housing Material
|
Glass-Filled Nylon
|
Housing Type
|
Thermoplastic
|
Includes
|
Carabiner
|
Install Type
|
Removable
|
Lifeline Hook Material
|
Zinc Plated Steel
|
Lifeline Length (Imperial)
|
20 ft
|
Lifeline Length (Metric)
|
9 m
|
Lifeline Material
|
Rope
|
Mounting Type
|
Overhead Anchor Point
|
Net Weight (Imperial)
|
10.95 lb
|
Product Color
|
Blue
|
Product Series
|
Smart Lock
|
Product Type
|
Self-Retracting Lifeline- Rope
|
Recommended Application
|
Assembly, Climbing, Electrical, Maintenance
|
Recommended Industry
|
Construction, General Industry, Industrial, Manufacturing, Mining, Oil & Gas, Renewable, Transportation, Utility
|
Specifications Met
|
ANSI Z359.14, ASTM F887, CSA Z259.2.2, OSHA 1910.140, OSHA 1926.502
|
Weight Capacity
|
420 lbs. (190 kg)
|
Weight Capacity (Imperial)
|
420 lb.
|
Weight Capacity (Metric)
|
190 kg
|
3M™ DBI-SALA® Smart Lock Self-Retracting Lifeline are our smartest SRLs yet. From reducing nuisance lockups, to simplifying inspections, every detail of the new 3M™ DBI-SALA® Smart Lock Self-Retracting Lifeline is designed with helping workers perform with safety and convenience
Using advanced motion capture technology, we studied the forces applied to the SRL during typical at-height tasks. This data helped us engineer a new arrest mechanism that can more easily detect the difference between a fall and normal work motion, tailoring a SRL for your work application.
Specific product and application questions