14 Foot Telescoping Light Mast - 8' to 14' Light Boom - Stationary Mast - Supports 500lb Payloads

14 foot telescoping light mast - 8' to 14' light boom - stationary mast - supports 500LB payloads. Made in the USA the Larson Electronics lm-14-8-fm-500lb fixed mount 2-stage light mast provides a safe and effective way for operators to quickly deploy lights, security cameras and other Equipment to elevations of up to fourteen feet. This light tower features a 500LB Max payload rating, rotating boom that allows for 360 degree of rotation and a removable mast head for storing mounted Equipment when not in use. Please note: any free shipping offers do not apply to light masts or light towers this telescoping two stage steel light mast from Larson Electronics' is designed to allow operators to quickly and safely deploy lighting, cameras, and other electrical Equipment in locations where this Equipment must be elevated to heights up to 14` for effective coverage. This light boom can be Extended to 14` for maximum area coverage and collapsed to 8` for applications where a smaller footprint is required. The tower is constructed of square steel tubing with a lower section 6.73` in length and 7 inch by 7 inch by 1/4 inch thick and an upper section 7.36` in length and 5 inch by 5 inch by 1/4 inch thick with a 1` overlap. The mast is Extended to its full HEIGHT using an included 2,000 Lbs hand winch with 1/4 inch galvanized cable. Click image to enlarge the Lm series of towers are powder coated with glossy blue finish for corrosion resistances and aesthetics. These light masts are typically mounted to trailers or other stable surfaces Via a 18 inch by 18 inch by 3/8 inch thick mounting base-plate which has been drilled to accept six 9/16 inch anchor bolts. A 44 inch wide and 3 inch by 3 inch by 1/4 inch thick mounting plate is attached to the upper section of the mast which provides a strong and stable platform for light fixtures and Equipment. The Lm family of telescoping towers feature a proprietary mast guidance system, which provides increased stability during high winds.