The MSA Dyna-Lock® Self-Retracting Lanyards (SRL) are fast-acting fall arresters that limit free-fall distance, deceleration distance and fall arrest forces while allowing user freedom of movement. The Dyna-Lock SRL is ideal for climbing applications where vertical mobility is needed.
Three independent locking mechanisms provide proven dependability in corrosive or freezing environments
Integral shock absorber limits fall arrest forces to 900 lbs or less
Visual impact loading indicator on snaphook that alerts the user when the unit has been subjected to a load
Wire rope available in galvanized or stainless steel
Swivel snaphook to prevent birdcaging or kinking of lifeline
Roller nozzle reduces wear on cable
Durable stainless steel and extruded aluminum housing on web Dyna-Lock SRLs
Durable galvanized steel housing on cable Dyna-Lock SRLs
Integral carrying/mounting handle
4.5 feet per second locking speed
Markets: Construction, Oil & Gas, Utilities, General Industry, Mining Applications: Confined Space, Working at Heights
The MSA Dyna-Lock® Self-Retracting Lanyards (SRL) are fast-acting fall arresters that limit free-fall distance, deceleration distance and fall arrest forces while allowing user freedom of movement. The Dyna-Lock SRL is ideal for climbing applications where vertical mobility is needed.
- Three independent locking mechanisms provide proven dependability in corrosive or freezing environments
- Integral shock absorber limits fall arrest forces to 900 lbs or less
- Visual impact loading indicator on snaphook that alerts the user when the unit has been subjected to a load
- Wire rope available in galvanized or stainless steel
- Swivel snaphook to prevent birdcaging or kinking of lifeline
- Roller nozzle reduces wear on cable
- Durable stainless steel and extruded aluminum housing on web Dyna-Lock SRLs
- Durable galvanized steel housing on cable Dyna-Lock SRLs
- Integral carrying/mounting handle
- 4.5 feet per second locking speed
Markets: Construction, Oil & Gas, Utilities, General Industry, Mining Applications: Confined Space, Working at Heights