![]() The rated sling capacity needed is then 2308 (1154×2) pounds in BASKET CAPACITY to safely lift the 2000 pound load. Multiply the load factor times the minimum weight to be supported by the leg, i.e.The load factor for 60° from the load factor chart is 1.154. Determine the load factor by observing the load factor chart below.The above will give a total minimum weight on each leg of the sling of 2000 pounds divided by 2 legs or 1000 pounds. For example, assume a 2000 pound load is to be supported by 2 legs of a sling. With a purely resistive load the current and voltage changes. Take the total weight of the load and divide this by the number of legs supporting the load. A Power Factor is usually stated as leading or lagging to show the sign of the phase angle. ![]() To calculate the load on a particular sling leg proceed as follows: Because the angle of pull on the leg of a sling varies with the leg angle, forces may be exerted on a sling greater than the user may expect. Fell free to consult the sling angle factor chart. ![]() Remember that the rated lifting capacity of the sling must often be greater than the weight of the load to be lifted. After identifying the material type, the next consideration must be the rated lifting capacity required.
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