The Prevention Of Dropped Tools & Objects While Working At Height

Dropped tools can do harm to people, damage to machinery as well as generate costs associated with lost production time.Some typical examples of the consequences associated with dropping tools and object shows the likely-hood of injuries or even death from falling objects, relative to the mass as well as height from which a drop occurs. A bolt dropped from 23 metres is actually equivalent of being dropped from the 6th floor of a building. The actual speed attained is 50mph / 80kph on impact. The bolt achieves a mass impact weight of 49.5kgs at this time, resulting in a fatal injury even though struck on the head while wearing a hard hat. A screw driver dropped from 14 metres is equivalent of being dropped from the 4th floor of a building. The velocity attained is 38mph / 61kph on impact. The screw driver achieves a mass impact weight of 73.5kgs at this time, causing a fatal injury even though hit on the head whilst wearing a hard hat. A claw hammer dropped from 6 metres is equivalent of being dropped from the 2nd floor of a building. The speed attained is 24mph / 39kph on impact. The claw hammer achieves a mass impact weight of 117kgs at this point, resulting in a fatal injury even if struck on the head whilst wearing a hard hat. This is a guide only and in reality even a light-weight object dropped from a significant height may well turn out to be fatal.

Prior to when work starts
Prior to work being performed there needs to be a risk assessment and a method statement which details types of procedures, specifications for tools, equipment, systems and provides where required checklists.

Read: Tool Safety Guidance Risk Assessment Checklist

Workers require Know-how, Awareness, Expertise, and also Compliance

Dropped Tools
There is a significant possibility of dropped tools and objects any time handling tools at height. Before beginning any type of task, think about the possibility of dropped tools and objects:


Dropped transportable equipment
A number of reported occurrences relate to dropped radios, pagers, gas detectors along with other mobile or portable equipment.


The likelihood for fallen items in the course of repair and installation.
Work at height is serious and it is shown in a considerable amount of reported incidents.


Constantly keep your worksite tidy


Further Considerations
Even when you're current activity is not at height, take into account the surroundings in which you will perform the activity as well as any other activities which may be taking place close to you.
Low-level applications include things like stopping tools from falling into motors and gearboxes, food and pharmaceutical production lines, underground shafts etc.
High-level applications may include construction sites, wind turbines, cranes, buildings, bridges, telecommunications masts, electrical power lines, railway gantries, aircraft hangers, steel structures, buildings, Scaffolding, towers etc

Sectors in which control of tools is critical includes:
Airline Industries, Aerospace, Automotive, Civil Engineering, Construction, Demolition, Energy,
Environment, Factory, Food, Inspection at height, Marine, Nuclear, Mechanical and Electrical,
Military, Oil and Gas, Onshore and Offshore, Pharmaceutical, Plant and Machinery,
Powered Access, Process and Chemical Plant, Rail, Roof and windows, Shipping, Steel, Telecommunication, Utilities,
to name merely a few.

Tool Safety (Leading Edge) answer to these kinds of pressing needs
One of the greatest issues using tools at height relates to conduct, work procedures and inadequate securing of tools and equipment. Leading Edge (exclusively distributed by Leading Edge in Australia) has produced a range of tool lanyards, tethers, bags and belts to offer satisfactory securing of tools and equipment while working at height.

Click Here for more : Information on tool safety guidance

Author: Drew Beardmore October 2011

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