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Look Out Below!

Nov. 4, 2016
"Struck by" usually shows up on the Top 10 lists of causes of injuries and fatalities, often caused by tools and other objects falling from heights. While hard hats potentially will protect the workers below from fatal head injuries, preventing the dropped object from falling also is key to preventing head injuries.

Whether or not they realize it, fans of the old Looney Tunes cartoons understand vertical velocity. How many times did Wile E. Coyote think he'd rigged the perfect rock-and-rope device to squash the Road Runner? Invariably, things went south for the poor prairie wolf, and his panicked look flashed on-screen before he vanished from sight as his own invention dragged him down.

Thanks to gravity, falling objects gain speed the longer and farther they have to fall. While this may be funny in cartoons, it's scary for those who work at heights. It's this same principle of physics that can turn a harmless torque wrench into a plummeting projectile streaking down from the sky.

Fortunately, there are several solutions designed to improve worker safety by reducing the forces required to slow that moving object back to zero.

The Tool Stops Here

If a falling object decelerates abruptly upon impact against the ground, pavement or another solid surface, that object likely will be bent or broken. If that same object strikes a person below, the impact could be fatal. There are solutions to help protect or cover people and objects below, but a better approach is to prevent that impact in the first place.

An accepted way to keep tools and other gear secure at heights is by tethering. Essentially a leash, the following have been used as tethers:

  • Cables
  • Chains
  • Ropes
  • Webbing

But those options can't eliminate gravity – or improve deceleration. A falling object "caught" by a tether is subject to "shock" loads instead of impact. This shock is force transmitted instantly to the whole system: the tool, its attachment point, the tether itself and the tether's anchor. Each of these components needs to be considered.

Normally, shock load is not a concern for a hardened steel tool, like a wrench or a pry bar. But a power tool or sensitive instrument is a different story. Internal components may break free or collide. Those lessons were learned by studying worker fall protection: a rigid, static lifeline might keep a body from hitting the ground, but could be the indirect cause of whiplash or severe internal injuries.

Similarly, the point of attachment – where the tether meets the tool – and the anchor point – at the other end of the tether – have to survive shock loading. If not designed for these sudden forces, both attachment points and anchors can deform, break or tear loose.

When the worker is used as the anchor, shock can be transmitted to the worker's body. In a worst-case scenario, that falling object can be the initiator that pulls the worker down with it.

Tying It Together

The tether ties this all together. Ideally, it not only will prevent the tool from hitting the ground but also absorb some of the dynamic force, decelerating the tool to a smooth, safe, uneventful stop. This reduces shock loads on the tool, the attachment point and the anchor.

The same rationale that discourages bungee jumpers from using steel cables applies to smaller objects as well.

But a shock-absorbing tether has to be more than a bungee cord from the local home improvement center. Improvised tethers are a risky proposition, since often they rely on poorly constructed loops, connections, knots or other weak points. An engineered tether will be designed and independently tested in both static (hanging) and dynamic (falling) modes, including safety factors for each.

Can it be "over-designed?" Sure. A tether designed to catch a falling Jeep would be pretty clumsy to use for an ordinary hammer.

Key selective criteria include the object weight and method(s) of attachment to the tool and anchor. Minimizing the length of the tether reduces the maximum time and distance that the tool can travel, and as a result, the acceleration and forces that must be absorbed.

For example, a wrench on a 3-foot tether, held fully extended overhead, could drop a total of 6 feet (3 feet above the anchor point, plus 3 feet past the anchor point) before fall arrest starts. The same tool on a 2-foot tether has a maximum fall distance of 4 feet until deceleration begins.

Generally, anchoring tools to the worker is discouraged, unless the tools are relatively small and light. Even if the potential shock loads are limited, tools anchored to a worker can snag as he or she moves about. Railings, worker hoist buckets and other designated anchor points usually are a better choice.

As with personal fall arrest systems, components need to be selected appropriately and inspected regularly. Worn or damaged tethers and attachments need to be replaced. And anchors may need to be replaced or repaired. If a tether has sustained a severe fall, it has done its job and should be replaced, even if there's no obvious damage.

Formulas Are Your Friend

Some people want hard numbers without the degree in physics. But even simple calculations get confusing, when "mass" technically isn't "weight" and unfamiliar terms like "Newtons" and "Joules" get thrown around when identifying the dynamic damage caused by a moving object.

As an industry-wide initiative focused on preventing dropped objects, DROPS (Dropped Objects Prevention Scheme) has published some user-friendly charts, in both metric and imperial versions, along with a calculator that works in a spreadsheet. These plot the mass of a dropped object against the distance it falls, taking the pain and the exponents out of quantitative answers for the bean counters.

Vertical velocity may be fun during skydiving, but on the job, slow, controlled deceleration of worksite tools is preferable. As complex as the calculations can be, the concept itself is much like dropped forces: easy to absorb.

When you're working at heights, dropped objects prevention is important not only for those working on the ground below – but for you as well. Because your tools should help you out, not drag you down.

Nate Bohmbach is a senior product manager at Ergodyne.

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