WERNER® 94-2 Extension Stabilizing Ladder Cinch, For Use With All Fiberglass Series Extension Ladders, Aluminum/Steel
The 94-2 LADDER-CINCH™ for use as a quick tie down. Strap designed for all diameter poles. One LADDER-CINCH™ assembly, storage bag and instructions are included.
-
BrandWERNER®
-
UPC051751023992
-
Manufacturer Part Number94-2
-
CountryUSA
-
MaterialAluminum/Steel
-
TypeExtension Stabilizing
-
Suitable For Use WithAll Fiberglass Series Extension Ladders
- Use as a quick tie-down
- Strap designed for all diameter poles
-
UNSPSC30191600
-
IncludesLADDER-CINCH™ Assembly, Storage Bag and Instructions
Recently Viewed
WERNER® 94-2 Extension Stabilizing Ladder Cinch, For Use With All Fiberglass Series Extension Ladders, Aluminum/Steel
The 94-2 LADDER-CINCH™ for use as a quick tie down. Strap designed for all diameter poles. One LADDER-CINCH™ assembly, storage bag and instructions are included.
Koyo 1307 Caged Cylindrical Bore Medium Self-Aligning Ball Bearing, 35 mm Dia Bore, 80 mm OD, 2 Rows, 21 mm W, 25.1 kN Dynamic/7.95 kN Static Load
Self-aligning ball bearings have a spherical outer ring raceway, the center of whose curvature meets that of the bearing itself, so that the inner ring, balls and cage continue to rotate, aligning themselves if they have become misaligned within design limits.
Koyo 1204 Caged Cylindrical Bore Light Self-Aligning Ball Bearing, 20 mm Dia Bore, 47 mm OD, 2 Rows, 14 mm W, 9.9 kN Dynamic/2.65 kN Static Load
Self-aligning ball bearings have a spherical outer ring raceway, the center of whose curvature meets that of the bearing itself, so that the inner ring, balls and cage continue to rotate, aligning themselves if they have become misaligned within design limits.
Koyo 1313 Caged Cylindrical Bore Medium Self-Aligning Ball Bearing, 65 mm Dia Bore, 140 mm OD, 2 Rows, 33 mm W, 61.7 kN Dynamic/22.9 kN Static Load
Self-aligning ball bearings have a spherical outer ring raceway, the center of whose curvature meets that of the bearing itself, so that the inner ring, balls and cage continue to rotate, aligning themselves if they have become misaligned within design limits.
