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Safety

Preventing Telehandler Tip-Overs with the Stability Triangle

Articles - May 24

Preventing Telehandler Tip-Overs with the Stability Triangle

Wade Runk
Product Training Manager
____
JLG Industries

JLG uses an all-encompassing four-step approach to teaching accident avoidance on telehandlers. Here are the steps and the important questions to ask for each:

 

  1. Workplace Inspection: Is the workplace safe?  What are the hazards?  Is the Safe Use Plan Completed?
  2. Pre-Start Inspection: Is the machine safe visually?  Is the machine safe functionally?
  3. Proper operation: Am I operating safely?  Do I have 360◦ awareness?
  4. Proper shutdown: Is this a safe and secure location?

 

Four Steps to Avoiding Telehandler Accidents

Tips to prevent telehandler tipover


At the center of these four steps is a machine that stands on a triangular footprint and lifts heavy weights to impressive heights. Of course, there are other dangers, but the key objective is to keep the telehandler upright.

 

Telehandler Center of Gravity

The two front wheels and the rear-axle pivot point form a telehandler's triangular base. The rear wheels are not part of the base because the rear axle typically oscillates. As long as the machine's center of gravity (the point in three dimensions around which the machine's weight is balanced) remains oriented inside this stability triangle, the telehandler remains upright.

 

Shifting the Stability Triangle Forward (right) and Shifting the Stability Triangle Up (right)

Telehandler stability triangle

Adding a load to the forks while the boom is down moves the center of gravity forward and down. Raising the load will move the center of gravity up and to the rear, while at the same time causing the stability triangle to shrink. The higher you lift a load, the less margin for error you have because the stability triangle becomes smaller.

 

The Stability Triangle on a Telehandler

A small stability triangle leaves less room for the center of gravity to wander left or right if the frame is not perfectly level. Imagine the center of gravity as a plumb bob hanging from the boom. You'll always find the center of gravity somewhere on a perfectly vertical line between a point on the boom and the center of the Earth. If the frame's not level, the center of gravity will not be oriented over the machine's centerline. But the stability triangle is always aligned with the telehandler centerline.

With the boom raised and extended (the stability triangle is very small), the frame only has to be slightly out of level to make the center of gravity drift to either side of the triangle. The laws of physics are as certain as gravity. The moment the machine's center of gravity moves beyond the boundaries of the stability triangle, the telehandler begins to tip.

 

Shifting the Center of Gravity Outside the Stability Triangle

At any job site, there are things affecting the stability of a telehandler other than where you put the boom. You may be on a 1-degree side slope, in a 5-mile-per-hour wind. There may be a little ice under your wheels, and one tire a little low on air pressure. If the machine goes over, there may be no single cause. It was a combination of factors that are all things you can catch and correct or avoid if you do all of the Four Steps.

A safe lift starts well before putting the boom in motion, or even before the operator assesses the site for hazards. Most of today's telehandlers are designed with a quick-attach coupler at the end of the boom. Before installing an attachment, be sure it's approved by the telehandler manufacturer and that its specific capacity chart is in the cab of the telehandler.

It's an OSHA violation to run a machine if the proper load chart for that particular combination of machine and attachment isn't in the machine.

Make sure forks haven't been tampered with. Other than block forks, all forks should be used in matched pairs. Block forks are used in matched sets.

Telehandler stability triangle

The maximum capacity of a telehandler-and-attachment combination will be the lightest of these: capacity stamped on the attachment identification plate, the fork capacities stamped on the side of each fork (fork capacity is multiplied by the number of forks on the attachment, not to exceed the maximum on the attachment ID plate), maximum capacity indicated on the proper load chart, or the load rating of the telehandler.

Whenever you test the limits of the load chart you should do a test pick without a load on the forks — position the telehandler as you plan for the actual lift and run the forks up to where you plan to place the load. By noting the boom extension and boom angle at the extreme point of the lift, this exercise confirms the vertical height from ground level where the load is to be placed, and the horizontal distance from the front tires to where the load will be placed.

On the capacity chart, find the horizontal line for the height of the lift and follow it over to where it intersects the line for the distance. The point where the two lines meet should fall within a load zone marked on the chart. If it doesn't, the machine and attachment can't complete this lift. The weight indicated in the zone where the height and distance lines intersect is the maximum capacity for this lift. If the two lines meet on a boundary between zones, use the lighter of the two weights for this lift's limit.

Check the boom-extension and boom-angle limits of this load zone on the capacity chart. When the load is in the air, no matter what happens, do not exceed those boom-extension and angle limits or the machine will tip.

All of the loads shown on capacity charts are assigned with the assumption that the machine is on firm ground with the frame level; forks positioned evenly on the carriage; load centered on the forks; proper size tires properly inflated, and the telehandler in good operating condition. Failing to comply with any of these conditions could tip the machine over.

Once you've determined that the lift is within the telehandler's and attachment's capabilities, it's time to set up the machine. Never engage a load or lift a load more than four feet above ground unless the telehandler is level. 

Stop the machine on a stable surface in the best place to lift and place the load, set the parking brake, and shift the transmission into neutral. Before raising the boom, check the level indicator to see if the frame needs to be leveled from side to side. Many telehandlers have hydraulically tilting main frames that allow you to compensate for uneven terrain. Some have outriggers. Set the boom in the "carry" position — forks less than four feet off the ground — and level the machine. The machine should be ready to make the lift.

Never use the leveling system (sometimes called "frame level") or outriggers to level the telehandler after the load is more than four feet off the ground. After the load is in the air, if you discover that the telehandler is not level, bring the load back down before leveling the frame.

The higher up you go, the closer the sides of the stability triangle are — you don't have to go very far to move the center of gravity outside the triangle. If you use the frame level with a load high in the air, the boom only has to move a couple of degrees right or left and the machine may tip over.

If the telehandler isn't level when you reach the limits of the frame-leveling system, don't attempt the lift until the problem is solved. Reposition the telehandler on more-level ground or have the surface where it is standing leveled.

Always lift the load slowly, watching closely for changes in the footing or other conditions that could cause the frame to shift out of level. Don't move the machine once the load is more than four feet off the ground.

Placing a load at height requires a careful combination of multiple functions — boom down, boom out, while holding the forks level.

Once the lift is complete, the boom should be retracted and lowered to the carry position before the telehandler is moved.

Telehandlers are designed to handle rough terrain, but that doesn't mean they can be driven without regard for the terrain. Risk of tipping or load loss is much greater when traveling on slopes. If you must drive on a slope, keep the load low, tilted back, and proceed slowly with care. If the load exceeds the height of the carriage, a backrest extension will be needed. Before you get on the slope, downshift to a lower gear as engine braking will help control the telehandler's speed. Avoid turning on a slope.

Never drive across excessively steep slopes under any circumstances. Ascend and descend slopes with the heavy end of the telehandler pointing up the incline. When there's no load on the forks, the counterweighted rear of the machine is the heavy end, so you should back up slopes. When the telehandler is loaded, the front of the machine is the heavy end, so you should back down slopes.

The load or the forks cut the widest swath in a tight turn on a four-wheel-steer machine. But on the rear-pivot machine, it's the counterweight or the outermost rear wheel that's at the edge of the turning radius. In either case, the operator must look in the direction of travel to be sure the path is clear. But in cases where the operator is using a machine with rear-pivot steering, it's especially important to be aware of the counterweight.

It is vital that the operator ensure safe use of a telehandler. Accidents tend to happen when people neglect basic safety requirements in the name of speed.


Training Options

Industry-leading training programs from the access industry leaders, bringing safety and confidence to your team: JLG Training. Make sure you are compliant with the most up-to-date ANSI and OSHA regulations with expert-designed training plans. From online supervisor training to telehandler operator and equipment service training, JLG offers comprehensive training to fit your telehandler needs.

Visit JLG University to learn more about flexible training options, online or in-person, by clicking here.

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