Deaths From Aerial Lifts
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An average of 26
construction workers die each year from using aerial lifts. This is 2
to 3% of all construction deaths. On aerial lifts, the major causes are
falls, electrocutions, and collapses or tipovers. For this article, aerial
lifts include boom-supported aerial platforms, such as cherry pickers
or bucket trucks, and elevating platforms, such as scissor lifts (OSHA
regulates scissor lifts as mobile scaffolds, not aerial lifts). There
are also 2 to 3 deaths each year from working on crane personnel platforms.
Electricians had
the most deaths (25%), followed by construction laborers (15%), electrical
power installers and repairers (13%), painters (8%), and carpenters (5%).
These results do not show which trade is most at risk, because we don't
know how many workers in the various trades use aerial lifts.
1. Causes of deaths
in construction by type of aerial lift, United States, 1992-99
Cause |
Boom-supported
lifts |
Scissor lifts |
Unknown type
of lift |
Total |
Electrocutions |
62 |
6 |
- |
69 |
Falls |
35 |
23 |
6 |
64 |
Collapses or
tipovers |
23 |
21 |
- |
46 |
Caught in/between |
11 |
- |
- |
14 |
Struck by/against |
6 |
- |
- |
9 |
Other causes |
5 |
- |
- |
5 |
Total deaths |
142 |
55 |
10 |
207 |
fewer than 5
deaths
Note: Other causes include 6 fire deaths.
Source: U.S. Bureau of Labor Statistics data
Boom lifts
accounted for almost 70% of the aerial lift deaths:
- Half of the falls
from boom lifts involved being ejected from the bucket after being struck
by vehicles, cranes, or crane loads, or by falling objects, or when
a lift suddenly jerked.
- Two-thirds of
the deaths from collapses/tipovers of boom lifts occurred when the bucket
cable or boom broke or the bucket fell; almost one-third were due to
tipovers.
- Half of the boom
lift electrocutions involved body contact with overhead power lines,
mostly involving electricians or electrical power installers and repairers.
Over one-third of the electrocutions involved an overhead power line
contacting the lift boom or bucket.
- In most of the
caught in/between deaths, a worker was caught between the bucket edge
and objects such as roof joists or beams while repositioning the bucket.
Michael McCann, Ph.D.,
CIH, is director of safety and ergonomics at CPWR – Center for Construction Research and Training, the research and development arm of the Building and Construction
Trades Department, AFL-CIO.
Scissor lifts
accounted for over 25% of the aerial lift deaths:
- The causes of
scissor lift falls were unknown for over half of the fall deaths; in
one-fifth of the falls, the worker was ejected from the scissor lift,
mostly when the scissor lift was struck by an object. The rest of the
fall deaths occurred after removal of chains or guardrails, or while
standing on or leaning over railings.
- Three-quarters
of the tipovers of scissor lifts resulted in fall deaths; for the rest,
workers died from being struck by the falling scissor lift. About two-fifths
of the tipovers occurred when the scissor lift was extended over 15
feet, mostly while driving the lift.
Recommendations
CPWR – Center for Construction Research and Training is continuing to do research on the safe operation of
aerial lifts. In the meantime, here are some suggestions.
To prevent electrocutions:
- Non-electrical
workers should stay at least 10 feet away from live overhead power lines.
- Avoid sudden
jerks of buckets which can cause contact with live overhead power lines.
- According to
OSHA, electrical workers working on or near live power lines must wear
Class E (old Class B) insulated hard hats and voltage-rated shoes, rubber
gloves, rubber sleeves, and other protective clothing as needed. Insulated
tools must be used where necessary. If possible, de-energize or insulate
live power lines. Boom buckets must be insulated or the aerial lift
grounded. Insulated buckets must be tested regularly to ensure the insulation
meets requirements.
For safe operation
of aerial lifts, general OSHA requirements include:
- Qualified individuals
must train aerial lift workers in the operation and limitations of each
aerial lift they will be using.
- Do not modify
an aerial lift without written permission of the manufacturer or other
recognized entity.
- Boom lifts used
for carrying people must have easily accessible controls in or beside
the platform.
- Make sure aerial
lifts are properly maintained. (This is particularly a concern with
rented lifts.) Workers should inspect safety devices and check the operation
of lift controls before using an aerial lift.
- Do not drive
an aerial lift when the lift is extended, unless designed for that purpose.
- Set brakes and
outriggers (if available). Use wheel chocks on slopes.
- Do not exceed
weight or load limits.
- Stand on the
floor of the lift platform; do not climb or sit on guardrails.
- For boom lifts,
full-body harnesses are required although a safety belt with a 2-foot
lanyard may be used instead. Tie off to the boom or basket, not nearby
structures.
- For scissor lifts,
fall protection is not required if there are guardrails.
This paper appears in the eLCOSH website with the permission of the
author and/or copyright holder and may not be reproduced without their
consent. eLCOSH is an information clearinghouse. eLCOSH and its sponsors
are not responsible for the accuracy of information provided on this web
site, nor for its use or misuse.
© CPWR – Center for Construction Research and Training, 2001. All rights reserved.
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