Crane safety is always the concerns. Crane safety tips and 6 misconceptions on crane safety are presented for you to ensure your crane safety. Crane safety is always the top concern. Tips on Crane Safety Periodically read the manual and review the rules to ensure the crane safety. At the beginning of your shift, check your hoist. Examine the load chain for damage or twists, or the wire rope for kinks or fraying to ensure the crane safety. Check the hook. If it's out of shape, don't use it. This may indicate internal damage. Don't try to lift more than the hoist rating. If you don't know the hoist's rating, find out. Avoid shock loads. Don't run the hook with a slack chain. Bring the chain or wire to a taut position before lifting. To avoid damage to the hoist, the rope or chain should always be in a straight line from hoist to hook. Avoid snagging a load while lifting. Avoid jogging a load ton guarantee the crane safety. Balance a load carefully. Use the right sized sling. Be sure your load is secure so that nothing can slip out and cause damage or injury to ensure the crane safety. On two-part reeved hoists, keep the lower block from capsizing to avoid chain or wire rope damage. Never use the load chain or wire rope for a sling and make sure the load chain or rope is straight...no kinks, bends or breaks. Don't bend the rope or chain over sharp edges. When welding near a hoist, avoid heating the chain and making it weak; keep weld spatter off the chain, and never use the hoist as a ground. Never get help to lift something with a chain block. If it can't handle it alone, don't lift it. Don't use a pipe cheater on a lever hoist. When using a wire rope hoist, check the wire on the drum. Don't let it get out of the grooves and pile upon itself. Side pulls with a wire rope hoist may fray the rope and make it unsafe and/or damage the hoist. Never leave a suspended load unattended. That load is your responsibility. Never carry a load over another person...or get under a load yourself. Never lift people with a hoist. When moving a load, look where you are going. Push, don't pull. Misconceptions on crane safety With safety measures, the crane safety can be guaranteed. However, the following six common misconceptions will save your crane and even your life. Be aware of the following misconceptions on crane safety. Overload Misconception. I don't need to worry about overloading the crane; the manufacturer built a big safety factor into the design.
Fact. This is the single most dangerous misconception about overhead cranes and crane safety. Although some parts of an overhead crane are designed with a built-in safety factor, this is not true of the whole crane system. Furthermore, the crane is attached to a building that does not have these same safety factors. Picture an overloaded crane sitting on the floor amid a collapsed building because the crane safety factors were greater than the building's.
The crane and building probably were supplied by the lowest bidder. Do you really want to bet your life that the low-priced bidder put in extra capacity that wasn't asked for?
It's also important to know that only some hoists are equipped with overload protection. Since 1974 all chain hoists are required to have an overload protection system, but wire rope hoists are not.
Economical load-checking devices can be added to almost all brands and types of hoists. Do you know exactly what 30 tons is when you see it? Without markings, who could tell? Even when the load was clearly marked, countless problems have occurred when operators failed to remove all tie-down chains or anchor bolts. These new overload devices are inexpensive insurance against easy-to-make and potentially deadly mistakes, which endangers the crane safety. Side Pull Misconception. As long as the hoist has enough rope, I can pull a small piece of steel out of the adjoining bay without a problem. After all, the piece I'm picking up is well below capacity.
Fact. This is one of the most common mistakes made with overhead crane safety. Side pull causes a number of dangerous conditions. First, the wire rope often comes out of its grooves and "scrubs" against the remaining rope or drum, resulting in damaged rope. Sometimes the rope actually jumps the drum and tangles itself around the shaft, resulting in stress to the rope.
In addition, side pull causes stress in unintended ways even worse than rope problems. In a somewhat oversimplified example, let's say a bridge beam is taller than it is wide, because its primary loading is vertical. Pulling at a 45-degree angle would put equal lateral and vertical stresses on the crane, possibly causing bridge beam failure, even with a pick that's only half of the rated capacity. Upper Limit Switch Misconception. When I lift, I need all the height I can get, so I must lift until I hit the upper limit switch.
Fact. Again, this seems like common sense, but it's dead wrong. The upper crane limit switch in a hoist is designed to prevent the hook assembly from colliding with the drum. It is a safety device, not an operational device. If the ultimate upper limit switch fails, the hook block and the drum will collide and the wire rope probably will fail, dropping the load. If you need an operational upper limit switch, install a second switch that is wired in a fail-safe mode. That way, if the operational limit switch fails and the ultimate upper limit is struck, the hoist still will turn off. Failure of the ultimate limit switch shuts down the hoist in the full up position, telling the operator to get help. If you don't wire it in this manner, you won't be able to tell when the first switch has failed until they both fail and the crane drops the load. Secondary Braking Misconception. All hoists have a secondary brake, so I can work underneath a load without fear of injury.
Fact. Like the previous misconceptions, this one seems to be common sense too, but the practice is terribly dangerous. All hoists are required to have a primary and a secondary brake. All electric hoists have a primary brake that usually is a fail-safe disk brake or drum brake. This means that if you have a power failure, the brake will continue to hold the load until power is restored.
For the secondary brake, some hoist manufacturers use a mechanical load brake. Others—about 80 percent—use a regenerative brake.
A mechanical load brake will hold the load if the primary brake fails. However, this brake generates a lot of heat and usually isn't used for applications with more than 30 tons or for high-usage applications of any capacity. Also, it is expensive and seldom used anymore.
The critical fact about a regenerative brake is that it does not hold the load in the event of primary brake failure, but rather will lower the load at its normal operating speed.
You should never stand under a loaded hoist. Doing so will definitely "split your skull," whether the load is free-falling or falling at a so-called "controlled speed." Reverse Plugging Speed Control Misconception. When the crane is traveling in one direction, the easiest way for me to control velocity is to "feather" the reverse button.
Fact. In the old days this was a reasonable method to control speed. Motors and contactors were much larger and heavier. They could take the abuse and were big enough to dissipate the heat. Modern motors and contactors are much more compact, and heat means premature component failure.
The Occupational Safety and Health Administration (OSHA) legally mandated crane brake s in the 1970s. Although this mandate was intended to increase safety, it just compounded the problem with hard decelerations and swinging loads. Adjusting the brakes for one speed and load results in wild gyrations at another speed and load.
In an effort to protect more delicate electric components and OSHA-mandated motor braking, manufacturers have developed various methods of soft start and soft stop, usually with variable AC inverters. These devices provide definable acceleration and deceleration curves. They also eliminate motor contactors and provide dynamic braking.
Reverse plugging is no longer an option. You can push the reverse button all you want, but until the crane comes to a complete stop, the reverse button does not work.
With older hoists, the load stops immediately. With new inverter-controlled hoists, every stop and every start goes through a prescribed deceleration ramp. It's much like driving a car—you have to decelerate before stopping and accelerate before hitting top speed. Daily Inspections Misconception. The crane worked yesterday, so I can assume it will work today.
Fact. Daily inspection is the simplest but most overlooked rule of crane operation, which will endanger the crane safety. OSHA requires it, but few companies comply. This inspection doesn't require a maintenance person, just a commonsense check list. It should take one operator about one minute at the beginning of each shift: Look. Take a quick survey of the area to ensure the safety. Does the crane look to be in operable condition? Have any parts fallen to the floor? Is anything hanging? Are there any signs of collisions or damage? Listen. Start running up the hoist. Do you hear any unusual sounds? Does the hook stop when it hits the upper limit switch or when it is lowered to the ground? (Not all hoists have lower limit switches, so check with a supervisor before performing this test.) Does the trolley and bridge movement sound right? Does the hoist appear to be working in all directions, and are the buttons' directions consistent with the movement? (Remember, if the power phases have been reversed, the directions buttons will be wrong, and all safety circuits will be disabled.) Are the end stops in place and functioning? Document. On the daily inspection sheet, check off that the crane looks and sounds operational and that it performed normally. Afterward write your initials. The misconceptions discussed here probably represent a small fraction of the issues involved with crane safety, but they comprise the overwhelming majority of crane accidents and breakdowns. Make sure you and those around you understand these six topics, and chances are you'll have a safe and productive day.
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