The Bureau of Labor Statistics (BLS) reported that 865 U.S. workers died from slips, trips, and falls in 2022 and missing or ineffective fall protection has been the Occupational Safety and Health Administration's (OSHA) most-cited violation for over a decade.
It doesn't have to be this way. Employers and qualified employees can work together to save lives and improve safety by understanding fall arrest systems and properly calculating fall clearance distance.
This informative infographic helps employers by breaking down fall clearance distance calculations, outlining the necessary elements of an effective fall arrest system, and explaining OSHA's fall arrest requirements.
Using a shock-absorbing lanyard & D-ring anchorage connector, calculate the total fall clearance distance by adding the lanyard length, deceleration distance, height of the worker, and a safety factor. The lanyard length is typically 6 feet, as indicated on the packaging.
Calculating fall clearance distance using a retractable lifeline is similar to using a shock-absorbing lanyard, with one key difference: Workers should replace the lanyard length with the maximum freefall distance. This is the distance from the start of a fall to just before the fall arrest system engages. It is calculated by measuring the displacement of harness's attachment point between the onset of the fall and just before the fall arrest system engages; OSHA limits this to 6' or less.
The total fall clearance distance includes several key components:
Employers are required to provide fall protection when construction workers are at heights of 6' or more above a lower level and 4' in general industry; they are also required to provide fall protection when working near dangerous equipment (including vats of dangerous chemicals or machinery with open drive belts), regardless of distance.
The only product recommended by OSHA is a full-body harness with a shock-absorbing lanyard or a retractable lifeline. Anchorages must be able to support 5,000 lbs. per employee attached; these must be independent of any anchorage supports or suspends platforms. Vertical lifelines and lanyards must have a minimum breaking strength of 5,000 lbs. and protect against cuts and abrasion. Employees must use a body harness; a body belt alone is recommended for position and is not considered suitable fall protection, due to the risk of injury during a fall.
The attachment of a body harness must be on the center of the wearer's back, near the shoulder level, or above the head. Self-retracting vertical lifelines and lanyards that automatically limit freefall distance to 2' or less must sustain a load of 3,000 lbs. in the fully extended position. If self-retracting vertical lifelines and lanyards do not limit the freefall distance to 2' or less, they must sustain a load of 5,000 lbs. in the fully extended position.
Falls accounted for 47.4% of all deaths in construction in 2022. Each employee must be attached to a separate lifeline (except during the construction of elevator shafts). D-rings must have a minimum stretchable strength of 5,000 lbs. Fall arrest systems may not be attached to guardrail systems.
Want to learn more about having a safe facility? Download DuraLabel's Slips, Trips, and Falls Prevention Guide. This free guide is an essential training resource for managers to mitigate workplace slips, trips, and falls. Contact DuraLabel at 1-888-695-5670 for all of your fall protection safety needs.
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Guidelines for OSHA Fall Protection Standards and Compliance
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