630111-00EU V-Tec Mini Personal Fall limiter 1.8M Aluminium Scaffold hook Twin Leg Description The V-TEC 1.8M Mini retactable lanyard is the most compact & lightweight self-retracting lanyard ever developed using multiple spring radial energy-absorbing technology. This new design eliminates the need for an external energy-absorber outside of the housing making it the smallest personal fall limiter on the market. The V-TEC Twin Mini uses a TwinLink to connect two Mini PFLs. This lightweight attachment allows the con?guration to provide all the features of a Mini PFL, with greater mobility and continuous attachment, whilst working on complex structures. Integral energy absorber, Requires zero recalibration or adjustment, The energy absorber is completely sealed from external contaminants, A fully rotating attachment point for complete ?exibility -both 360? and 180? providing a free range of motion, Structurally reinforced pawl mechanism through precision engineering, highly durable polycarbonate case houses the SRL, and its transparency allows for easy visual inspection of critical internal components, High quality components manufactured from high-grade stainless steel and engineered plastics, Twin Leg, Aluminium rebar lightweight hook anchorage point, TwinLink connector harness connection, 60-140KG including tool weight limit, EN360:2002 Personal protective equipment against falls from a height. Retractable type fall arresters
- General
- 630111-00EU V-Tec Mini Personal Fall limiter 1.8M Aluminium Scaffold hook Twin Leg Description The V-TEC 1.8M Mini retactable lanyard is the most compact & lightweight self-retracting lanyard ever developed using multiple spring radial energy-absorbing technology. This new design eliminates the need for an external energy-absorber outside of the housing making it the smallest personal fall limiter on the market. The V-TEC Twin Mini uses a TwinLink to connect two Mini PFLs. This lightweight attachment allows the con?guration to provide all the features of a Mini PFL, with greater mobility and continuous attachment, whilst working on complex structures. Integral energy absorber, Requires zero recalibration or adjustment, The energy absorber is completely sealed from external contaminants, A fully rotating attachment point for complete ?exibility -both 360? and 180? providing a free range of motion, Structurally reinforced pawl mechanism through precision engineering, highly durable polycarbonate case houses the SRL, and its transparency allows for easy visual inspection of critical internal components, High quality components manufactured from high-grade stainless steel and engineered plastics, Twin Leg, Aluminium rebar lightweight hook anchorage point, TwinLink connector harness connection, 60-140KG including tool weight limit, EN360:2002 Personal protective equipment against falls from a height. Retractable type fall arresters
Brand | V-Tec |
Manufacturer | MSA Safety Inc |
Type | Harnesses |
Weight | 2.6Kg |
630111-00EU V-Tec Mini Personal Fall limiter 1.8M Aluminium Scaffold hook Twin Leg Description The V-TEC 1.8M Mini retractable lanyard is the most compact & lightweight self-retracting lanyard ever developed using multiple spring radial energy-absorbing technology. This new design eliminates the need for an external energy-absorber outside of the housing making it the smallest personal fall limiter on the market. The V-TEC Twin Mini uses a TwinLink to connect two Mini PFLs. This lightweight attachment allows the con?guration to provide all the features of a Mini PFL |
A fully rotating attachment point for complete ?exibility -both 360? and 180? providing a free range of motion |
and its transparency allows for easy visual inspection of critical internal components |
highly durable polycarbonate case houses the SRL |
Integral energy absorber |
Requires zero recalibration or adjustment |
Structurally reinforced pawl mechanism through precision engineering |
The energy absorber is completely sealed from external contaminants |
whilst working on complex structures |
with greater mobility and continuous attachment |