Horizontal Lifelines
7400045 – SecuraSpan Loop Rebar HLL Stanchion w/ Base, Fits: 1/2″ to 4-1/2″ dia. & from 3.5″ to 8″ tall with 3 in. or greater spacing
$800.007400052 – SecuraSpan I-Beam Stanchion Conversion Kit: Rebar/shear stud to I-beam
$318.007400053 – SecuraSpan Rebar/Shear Stud Conversion Kit: I-beam to Rebar/Shear Stud
$1,051.007400087 – SecuraSpan Perpendicular I-Beam HLL Stanchion w/ Base, Fits: 8″ to 14″ high with flanges up to 2-1/4″ thick
$1,088.00Permanent Multi-Span Horizontal Lifeline System – (20 ft. – 180 ft.) Cable Lifeline, Bracket, Tensioner, Energy Absorber
$1,898.00 – $3,028.00Sayfline Cable Horizontal Lifeline System – ALL-METAL: (20 ft. – 100 ft.) Lifeline, Wedgegrip, Tensioner & Energy absorber.
$1,658.00 – $1,977.00SecuraSpan I-Beam HLL COMPLETE System, (20 ft. – 60 ft.) Lifeline, Fits flanges from 6″ – 12″ & up to 2-1/4″ thick
$1,732.00 – $1,795.00SecuraSpan Rebar/Shear Stud COMPLETE HLL System, (40 ft. – 60 ft.) Lifeline, fits 1/2″ to 1″ dia. and 4″ to 12″ center-to-center
$3,861.00 – $3,889.00Showing all 8 results
Description
Horizontal Lifelines (HLL)
Horizontal lifelines are more than a mere line connected between 2+ anchors, it is a secure attachment point for users working across a large horizontal surface. These systems are used to protect workers operating in the horizontal plane who may not have continuous access to suitable anchorage points.
Choosing the right horizontal lifelines depends on:
- The attachment structure – like I-beam, rebar stub, concrete, column or roof/
- Lifeline material type – Synthetic lines are extremely lightweight and compact while galvanized or stainless steel options offer added corrosion and abrasion resistance and typically require less fall clearance.
- Your clearance requirements – The distance between the work area and the next level or obstruction is often called “fall clearance,”
- Number of users – Systems are available for one, two, and even up to six workers depending upon your job-site needs.
In short – horizontal lifelines allow users to move across large work areas while remaining connected to a continuous system.