Why Things Fall Off Cranes

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Funny how you always introduce things I didn’t know I wanted to learn

As a helper, crane operator/rigger, then trainer at a nuclear power plant, I first hand found out the importance of rigging inspection. There were rudimentary procedures during construction prior to reactor loading. We were testing engagement of alignment of control rod drives into the reactor penetrations. I reached to grab a sling holding a suspended one, and the swedge collar slid upward in my hand! It had never been swedged. I immediately set the load down and reported it. Huge monetary and engineering problems if it had dropped. Consequently, a complete rigging inspection and tracking procedure was implemented immediately. I will never forget that and I am now 71, seems like yesterday.

“A rigger learning the ropes” wasn’t prepared for Practical Dad Jokes

Another important thing: making sure everything is tight before applying the full load force. Sometimes straps get hung up or stuck in a crevace of the load, then once it's high up in the air, the strap slips free, potentially gets cut by a sharp edge, the load shifts into a drastically different orientation which makes it topple over another attachment point, and the straps get a big shock, potentially ripping them or overloading other things. Things relax especially when the load swings, oscillates or bumps into something. Classic case: you lift an I-beam with two basket straps, then they slide together, the beam shifts, slips out of balance or the straps get cut.

Enjoy your channel. I spent over 20 years working on cranes and rigging signs to be hoisted. I have also worked with construction helicopters who lifted heavy loads to the top of an 800’ building. I loved the challenge my job presented and I was blessed to never have an accident or lose one of my guys.
Maybe you could do a show on construction helicopters.
Thanks for the knowledge.

using the spring scale to demonstrate the increased force on a load suspended out of vertical was simply brilliant! I don't know why I haven't seen that done elsewhere, I had to learn it as a more abstract concept.
I''m not a rigger per'se but pioneering merit badge (quite a few years ago haha) was probably my favorite, and rope behaves the same way as straps. fun fact, even the most well executed knot will reduce a rope's strength by 30% and a bad knot can reduce it a lot more.

I was an ironworker for 32 years, and I love your videos. We use steel chokers on rebar, and slings on epoxy coated rebar, and fiberglass rebar. Slings bother me, because of their tendencies to slip. When unloading a truckload of steel you can't always achieve the optimum picking points, and some operators refuse to wait for you to set the load down and readjust. It's not always the riggers fault.

I love how much you connect the theoretical engineering to the actual work and construction process. Maybe it's just chemical engineering, but as one in training, I often feel like I'm taught that the people doing that manual work are beneath me somehow. Not only is that just plain wrong, but it's essential to listen to the people on the ground because they have familiarity and experience with the tools and equipment that I won't ever develop. All of my equations and models can be made meaningless by a simple defect, and it's up to their expertise to identify and fix it before it becomes a safety hazard. Learning how to listen and communicate with others is a critical, and I would say undervalued, part of engineering training.

Great info. We had an accident once on a heavy lift (~140T). I wasn't involved directly, but we all had a safety-standdown and training on it. It was a heavy machine casing that was to be lifted about 6 inches to work on footings. Was supposed to be combination of crane (using wire-rope slings) and hydraulic jacks. When hydraulics developed a slow leak and pressure slowly dropped, it was 'decided' to not lower the hook and just let it take up the weight (hook was rated for 150T after all). Unfortunately, the wire ropes were NOT and they failed spectacularly. Dropped the load those 6 inches and even at that short height, damaged footings and led to a lot more work. Fortunately, only one injury, arm laceration from splaying rope.
Good lesson in, 'when things change, don't make up procedures on the fly'.

The only incident of rigging failure I've witnessed was when a large change machine from an arcade fell approx.6 meters after one of its feet snapped off, causing the strap to slip. We later found that the failure was caused by shoddy welding. The feet of these machines are designed to bolt them to the floor, they shouldn't have failed and were marked as anchor points by the manufacturer.

As a fresh CE graduate, even finishing COSH, this kind of very specific topics aren't really given point during my study. That's why this kinds of videos are really helpful for a novice like me. Thanks for always giving us these very educational and easy to understand videos.

As a rock climber, this was fun to watch. Shout out for rope access too. Everything has a load rating, all the same stuff matters but the force are often dynamic as well. Can't think of a good engineering example of dynamic loading off the top of my head. I'm sure you could come up with some excuse! A deep dive on multi-point load equalisation for shifting force vectors on anchors would be interesting too! Must be some suspension bridge examples there?

Pretty good video. Exceeding the 30 degree angle is the biggest issue I see on job sites. The ticketed crane operator is almost always the most knowledgeable rigger on site. People think we just sit in cab and lift stuff but most started out rigging and still have to do quite a bit of it. Bottom line if not sure how to lift something ask crane operator.

Saw a rigging accident where they were doing a 50 meter lift inside a power plant. The riggers didn't have long enough cables so they WELDED two wire ropes together. Fortunately no one was under the load and there were no injuries.
There were some people fired though.

As an iron worker for over 20 years this is a pretty good beginner video. Biggest three problems I've ever seen with rigging failures are people not checking their rigging regular enough for wear. Using slings in a basket with a spread which allows them to slip and cut. I almost never use a basket or allow it to be used around me. Also using synthetic slings on Sharp edges without softeners.
I like your example of how the angle affects the load. It's amazing how many people in rigging don't understand how much this affects the load. Pulling on shackles at Angles also affects its load rating.

Rigging is used extensively in the AV production world. Any arena show you go to will have chain hoists supporting the PA and lighting trusses. Where the hoists attach to the structural steel of the building changes with each show, so riggers will walk out on the beams to create the rig points and attach the chains. The stage hands will usually have multiple riggers dedicated to the task.

My father worked at a General Electric locomotive manufacturing plant. The diesel locomotives were shipped overseas from the United States in large cargo vessels. One day a crane operator was unloading a locomotive and the ship started to tilt - and tilt some more - and even more - and the crane operator had to drop the choo-choo train into the ocean to prevent the ship from capsizing.

reminds me of:
a cop spots a guy dragging a chain up the middle of Main St. . . . being a cop, he stops him and asks "why are you dragging that chain up the street?" . . . guy answers "you ever try to push one?"

This was quite fascinating!

One thing that affects the load a crane can carry is management caterwauling that the sling or chain is just fine, keep using it, a little cut won't hurt it. This is more common in steel shops that have a bridge crane.

Thanks for “codifying” something I’ve always felt I have an almost “intuitive” feel for. While watching crane segments being added to the huge crane at SpaceX Boca Chica, I thought that getting that crane from horizontal on the ground where the segments were being added, up to the near vertical working position was going to put some incredible strain on the wire ropes. I was curious as to whether they would have used another crane to help start the lift. . .
Great stuff!
PS. . . as a former “small aircraft” pilot, part of the training involved doing “weight and balance” calculations to ensure that the airplane remained controllable under a wide variety of conditions. That training has transferred nicely to loading up a vehicle for long trips. . . even though I’m not the driver. . .

when slings are slanted, they put extra, sideways tension to bolts and load hooks. failure can occur there as well, by forces working lateral and nοt longitudinal. classic failure hazard in rock climbing, when carabiners get loaded sideways.

I have designed a fair amount of lifting yokes/spreader bars and there are a lot of things to keep in mind to ensure the safety of the workers.

As someone who just recently completed a lifting manager course this video is so useful! The key basic principles condensed into a short period of time well done, much better than a 16 hour powerpoint presentation

Rigging, spreader bars, learning the ropes... those themes are really going somewhere :p

Holy cow, in my statics class, we just hit chpt4 and my first hw problem dealt with determining the load on a single cable ran through a pulley. The issue was that the cables are spread apart as they contact the steel Beam for stability. I had trouble convincing myself that the load was greater on the cable as the angle of spread increases. This darn x-components of the force vector will alluded me for the last time haha 😄
This video was published the exact day I needed it. Thank you for making these high quality videos Grady; what you do matters. I'm happy to help support people like you who make good educational content like this.

I appreciated that little FYI at the end. Many persons, myself included, use youtube videos as a way to quickly understand a topic. I even heard a doctor say once that he googles information when trying to make a decision. It makes sense if he already has an idea of what the answer will be, but I can imagine someone using this video to "train" themselves on rigging. Better safe than sorry.

I used to be a live sound engineer, and I did a *lot* of rigging of loads above stages/audiences.
There's a lot of folk who are convinced that if you put a burlap sack around the beam you may be setting up as a load point, the sling will be protected from the i-beam. But if you're rigging a tonne from that basket, that's a lot of contact pressure on the sling regardless of 4 layers of burlap or not! More often than not we come to de-rig the stage to find that the sack has been cut through and the sling is no longer fit for service! This is especially so when there's an amount of dynamic load on the point, say from a beam of 30 moving lights all moving in concert. It doesn't create the most motion, but it's enough combined with the load to saw right through the sack over time!

This content has me "hooked"
I'll see myself out

At eighteen years old I was rigging cut timber for helicopter lifting in the forests of the Pacific Northwest. I moved onto another career path as a heavy construction worker, as a boilermaker. Rigging was a large part of the apprenticeship training program for us. I was onsite multiple times when mistakes were made and cranes or materials were dropped or collapsed. After seeing the tension guy wires slice a full-size Chevy pickup when the crane attached to them collapsed, I was convinced that there’s no room for mistakes in construction.
As a side note, I still have the Rigging book that I was given back when I first started in construction back in 1979. It fits in a pocket and has vast amount of useful information.

I once saw a 3/4" diameter steel sling fail in a straight pull configuration. I was an apprentice millwright working with two journeymen to extract 1-1/4" diameter epoxy anchors where the epoxy hadn't set up. We were instructed, under much protest from us, to use the 35 ton bridge crane in the building to pull the anchors. It was like a bomb going off when the sling broke and it shot the crane block about 10ft up. The anchors never did come out.

Some of the most interesting rigging Ive seen has been Ron Pratt on youtube. He's a heavy equipment tow truck operator with a rotator truck, so its pretty much just a crane with wheel lift on the back. But the rigging having to all be off-the-cuff, with an approximate weight, best judgement on CG, limited lifting points, and other constraints such as overhead powerlines, traffic lanes still operating nearby, the need to drag stuff either forwards and backwards, or sideway on a variety of surfaces is super impressive to see done.

Tip for the part at 7:00 put a piece (2 pieces) of colored tape on the measure, that makes the difference MUCH easier to see!

There's some interesting principals here for lots of regular practicalities outside of cranes, particularly 6:10 to 7:30. Things like securing loads to your car, boat rigging, various other boat ropes, fastening things in the garage, moving furniture, etc.

having worked as a machinist for years, this was fun, I've used a lot of slings and chain fall hoists, and we've absolutely had abraded slings break, because someone failed to examine the sling before working with it. It's certainly not a 20 ton beam, but we did lose a piece that weighed about a tone off one.
The other part of physics... what happens when someone doesn't secure a work piece into the machine well enough, and doesn't get it balanced well between the chuck and fixtures, definitely seen someone lose a 600 pound part turning at over 100 rpm.
anytime the weights big, or high rpm in high power machines, dangerous things happen, But you can only make things so fool proof, because they'll go on and make a better fool.

I like the fact that you added a disclaimer about this Not being a training / instructional video!

Taking me back to my Air Assault school days in the Army. Whole lotta time spent learning very specific ways of rigging up all sorts of gear for transport by sling load.

Speaking as "just some random dude with a chain hoist and a couple slings in his garage lifting things out his his truck bed," this was rather informative, even if not for training purposes. Just shows me I need to get out and learn a thing or two before I try and pick up something more than a few hundred pounds with my setup. Another fantastic video from Practical Engineering!

"A little learning is a dangerous thing; drink deep, or taste not the Pierian spring: there shallow draughts intoxicate the brain, and drinking largely sobers us again." -Alexander Pope.
I'd say this just scratches the surface of rigging. But I'd also quote Pareto's 80/20 rule, this might cover most of the problems of rigging failures. The rest could be specifics to each case. Then again, I don't know anything about rigging so I might be completely wrong. Who knows.

I worked as a rigger driver and am trying to become a crane operator. You manage to explain so much clearly and concisely, thank your for your excellent work. Love the content keep it up!

I had a dismantled and stripped car body hanging from a synthetic sling when i was lifting it from customer's yard onto my truck. The sling went under the front door frames, which did not have door seals installed anymore. On that day i learned that even painted sheet edges can cut a sling. Ever since having a body fell on ground half a meter in front of me, i have used a lifting chain to lift scrap cars.

6:10 I think each sling would be experiencing 1/cos(30deg) = 115% of the load, not 1/cos(60deg) = 200%. It's so easy to get this backwards. Great content!

I have been a crane operator for 42 years and I would never make a lift unless I was satisfied with the rigging used.

Thanks to Practical Engineering for doing the heavy lifting involved in making these UA-cam videos.

I really appreciate your models you make to demonstrate the topic you're presenting. They make your points more tangible and easier to understand, thank you.

As a industrial mechanic/millwright I learned it in school, I enjoy the way you simplify things and make it accessible to everyone
Sometimes I try to explain something I know but it's hard to find the words.
You do it very well !
Keep it up 👏

All construction workers working around or with cranes should be shown this video

Never have been a rigger, and probably never will be, but securing a lot of stuff to a trailer, and lifting engines etc. with a engine crane was has given enough experience with similar concepts and materials for this video to really make sense and resonate!

I witnessed a chain sling failure on a small crane lifting roofing materials to the top of a building. This was in the summer of 2009 at Arizona State University. Fortunately the workers had kept the area under the hoist clear so no one was hurt. Besides, it was summer, so there were hardly any students on campus anyway.

Former flatbed truck driver here. Lots of ways this can apply to truck drivers as well. Nothing worse than a 40,000 pound steel coil coming loose off the back of a truck and rolling down the highway. When I was just starting out as a flatbed driver, it surprised me that the working load limit of a 4-in strap was higher than some of my metal chains.

Absolutely brilliant insights for lay people like me. I always like watching building works and this helps me appreciate what their doing even more.

I doubt you had this in mind when you made this but - the info here gave me a lot to think about in regards to a different kind of lifting, that still involves rigging the load just right...
In my case the "load" is actually my husband, who is disabled. Anytime we are getting him in and out of the house, there's a small chance that he might fall. Because of that, we have two different things - a lift belt and a sling - to try to help get him back on his feet. We've never had to use the sling so far - thankfully - but I feel a lot more confident that I can at least know what to look at, and how best to get that sling around and under him. I've never needed to hoist anything (or anybody!) in a basket, never had to so much as haul a bale of hay on a pulley and rope. Your examples here and explanations gave me a lot more helpful insight than any of the other stuff I've read. Again I know you didn't intend that, but I wanted to say thanks anyway, because feeling more confident that I'll be able to help my husband if or when he falls again takes a big load off my shoulders! (pun intended)

The biggest failure I’ve seen always has to do with the connection point of riggings. Whether the hook is missing its safety latch or the sling angle is too acute and they should’ve used a cross arm or if they used a choke and the choke slides. Another thing is when the load leaves the ground and rigger with the tag line and the load starts to spin from wind.

An additional very important aspect of rigging is this: Assume you are lifting an object in four eyes or lifting points, with four slings or chains of close to permanent/static length, like all slings and chains made for lifting. This could be the case with a freight container. You may think about dividing the load by four when calculating sling load as there are four slings but DON`T.
Here is why: In three dimensions the load case is statically determined by the first three slings, by triangulation. Adding the fourth one may be a great idea for stability but you will never find the exact length of all four slings where they are all taking the same amound of load at the same time.
Summary: When lifting using four or more slings, always make sure each sling can handle at least a third of the load. Off course, also consider how the center of gravity affects each lifting eye in terms of forces and stability as well.

I used to wear a hoist all the time when I was a warehouse worker and had to use a cherry picker to get to high shelves. And we were required to inspect and sign off on the state of our synthetic hoists for exactly the reason that you covered. They were super vulnerable to abrasion. But thankfully modern-day synthetic hoists have features that make abrasion way more obvious on purpose. Like bright red threads buried in the fabric that become extremely prominent as soon as it reaches a certain abrasion level.
Basically if you see the red threads, you throw out the Hoist and get a new one. Period.

As an industralworker who works with cranes on a daly basis, i can tell you that the shown example are just the basics. Much more dangerous is, when you work with loos Atatchmentpoints (like the shifting on 5:06). And there are a lot of them. Magnets, Liftingclaps, suction cups... Also you have to think about the forces when something is stuck (Heavy tools from the machine fir example)
We use at least 500kg (most of the time 1500 - 2000 kg gear to lift things wixh are "Just" a few hundred kg, so we are on the safe side. These components who fall down are all with loos atatchmentpoints. If you have a fix Atatchmentpoint (thread, Holes....) you are quiet safe.

Your sketches of the center of gravity jarred something in me. The CoG of a suspended load is always directly under the hook.

In 2020 I built a big carport and the steel posts and beams were very heavy, posts 145Kg and beams up to 245Kg. I used my 6x4 steel trailer as a mobile crane base. I then created a 4.5m upright post and at the top a T section. One end for the block and tackle and the other end used to stabilize the post. I made and used a spreader bar for the beam lift. It worked perfectly and made the job relatively easy. I used practice lifts to make sure the trailer crane was not overloaded. Love your vids mate. Subscribed.

Another possibility of failure in lifting with angle in slings is... a failure of the lifted object itself!
Because doing so, you also add significant compression stress within the object. And if you have a slender thin tube* it might break by bending (from its self weight) and then eventually fail by buckling...
* And if you are wondering: yes this is a mistake I saw once. Please use my experience to not replicate this error on your construction site! 😉

I've been operating crane for over 8 years. Great video! Only thing I would add is that in my experience spreader bars are just for loads that are too tall for straight rigging or you want to avoid the rigging crushing the load. Usually you're using a single bar so on a 4 point pick you will still have sling angles on both sides. Not to say there isn't a scenario that would be the case but extremely rare.

What surprised me the most was that those synthetic slings are rediculously cheap compared to the usual industrial stuff. Yet some keep on using them until they fall apart...

I love your remark about rope from a truck. I grew up on a family run dairy farm and sometimes there are things we had to move that required some form of rigging to lift from hooks on our front end loader and of course we never had anything resembling proper gear. Fortunately it was infrequent and they were very light loads compared to anything you're discussing here, and we're at very low heights. Still, I hated doing it every time we had to.

No one wants to be the subject of an all-hands meeting, getting proper rigging equipment is always cheaper than the damage bad rigging can cause. Not to mention the costs of a safety shutdown and a full blown investigation.
Be your brother's keeper.

You've done a lot of great demos of concepts over the years, but using that scale to show the changing force in real time was maybe the best one yet. Such a perfect visual.
The only rigging I've personally done is lifting engine blocks from time to time. I'm glad I way overspec'd the chain, I was working a really working with really shallow lift angles due to vertical constraints. If I'd gotten the 500 pound chain I would have been way over. I'm a pretty mathematically inclined guy and I knew that changing the angle would affect the load on the chain, but it never occurred to me how much. My 200 pound engine block was probably putting 800-1000 lbs of tension on the chain.

"A rigger learning the ropes." I wonder if that pun was intended.

Things I learned:
• Each sling has to have a tag or else it’s considered unusable.
• There are three different slinging methods.
• Center of gravity is critical to slinging a load.
• Sling angle is critical to a lift.
• The horizontal vs vertical forces remind me A LOT of the forces acting upon an aircraft wing in banked flight.
• A spreader bar can be used to help distribute the single lifting force on the hook.
Keep up the great work!

Mobile crane operator here! 9 Years of experience and i would like to correct one mistake you made early in the video. Not every hoist is done with a hook. I've lifted plenty of stuff in confined space with only the thing at the end of the wire. Ofc this limits your lifting capacity to what ever one line can pull and you need to use correct shackles; But sometimes you indeed lift stuff with the line that's on the cranes winch.

Fantastic video on a very interesting topic!! I never knew about the added load from the angle of the sling, or the exact purpose of a spreader bar, very cool to know!

"Putting you in the shoes of a rigger, learning the ropes." I see what you did there.

One of my favourite channels - Ron Pratt - shows a lot of his rigging for recoveries. I think I've heard nearly every thing said in this video on his as well.

"You don't use ratchet straps..."
**nervous laughter**

I really appreciate your videos. I worked on new ship construction projects at the beginning and near the end of my career. The first shipyard at assigned riggers to each crane. Only trained certified riggers and crane operators were allowed to rig, attach, lift, land, and detach loads. The crews were responsible for inspection of all rigging gear and routine maintenance .such as greasing sheaves and wheel bearings.
In the secong shipyard routine crane maintenance was done by a single crew

As a forklift op, I can say from experience that you never truly know where the center of gravity is just from visual inspection. Many a time I’ve lifted just a few inches to see if I’m right or how far off I am. Would highly recommend being on a forklift that is over loaded, that way you can learn what it feels like when the machine is getting tippy, so you can stop whatever you were doing and rethink the lift. It’s your fault if something goes wrong, not the guy who told you “it will work, trust me”

I was unloading 60ft 1/2 inch rebar off a big rig using a forklift with 30ft boom the basket method in poor weather and didn’t check the straps before use. The strap was showing red and shouldn’t have been used all n all lost a load smacked right back onto the bed in the truck and sent me jumping from the side. Scary days but great video!

Felt like I was back in the Army in Air Assault school. Failing the sling load portion was the single most common reason for people to drop out of the school.

From a crane operators point of view Grady has explained this perfectly, brilliant video

As a theatrical/concert rigger this was a great video to watch! It would be fun to see you do a video on the FOY flying system for actors, which was developed for Peter Pan. I think you'd enjoy it!
Question though, at 7:39 (beam lift), I can't help but notice that both hooks are in the same direction...meaning the one on the left is backwards and has a better potential of falling out if there is a shift in load due to wind or placement on the structure being built...

My uncle is a boater and told me a story that ties into the rigging load limits here.
Say you need to tie up a boat on shore and it needs (arbitrary numbers) a 200lb line to secure it. Ideally you grab a 200lb-rated rope, tie one end to the boat, and one end to a sturdy tree. Or you tie two 100lb ropes. But if you only have one 100lb rope surely you can loop it around the tree and tie both ends to the boat (same setup as a basket hitch, told ya this was relevant), right?
This spawned a huge argument on a boating forum, some people were positive that would work. The trick is that if you map out the forces everything seems ok, each part only has 100lbs load max, until you get to the loop around the tree. Then there's 100lbs pulling one way and 100lbs the other, for a total of 200lbs and the rope snaps. Everything works except for one point, but one failure point is all it takes.

Hey grady, could you do a collaboration with ToldInStone to show how the ancient Romans would build their buildings before modern equipment? It could be really cool. Also I love your channel I've watched since forever

As an electrician, hobbyist, builder, etc. , I love learning about all sorts of engineering aspects as they relate to real world. Great video !

just recently I have seen a crane lifting steel rods for concrete. lifting is nicely offcenter with worker below it. nothing happened, but it looked like there wasnt much needed for a few rods to slip out and fall

10 years I took a course including securing loads properly. Our teachers presented a loaded truck at a small local logistic exhibition as an example of what load securing looks like. I knew the people, so I asked "Did you really drive like that?" Rules in your country might be vary, but: they loaded 3x1000l IBCs with water (3+ tons) and every one of them was secured differently. The tags on most of the rigging was unreadable and if it was readable, they were far past their lifetime.
It was the exact same equipment we used in training a few days before. They used that for ages, it could have been easily damaged by improper handling from trainees and they were 'securing' 3 tons with it. What a great example of 'how not to do it' that was.

For 30 years I never had a problem with rigging failing when using fabric straps. I'll stop an entire project and go out and buy straps before I use a chain. Chain slips way more often than straps. I also way overrated my lifting straps, 4 straps rated 6400 pounds each to lift a 4000-pound piece.

I operate a 75-ton crane on at least a once per week basis, and these fundamentals are drilled into us. We primarily rely on synthetic rigging, and at times we have to employ shallow angles due to clearance concerns. We're not allowed to hook up anything unfamiliar without checking total weight, CG and strap angle.

If you see a worn or contaminated/dirty sling anywhere on the work site, just cut it into pieces and discard of it. In my experience if someone can us it, they will.

This may not be a training video, but it does cover a lot of the key concepts and does a much better job of keeping people awake!

Thanks for giving me a concrete answer to the question: "But Dad, when am I ever going to need trigonometry?"

I worked in commercial and industrial construction for 20 years as a plumber/gas fitter. Anytime there was a lift near me I stopped what I was doing and paid attention to the lift. I saw many close calls of riggers improperly rigging loads. The worst I saw was a 10 ton air handler drop from about 3' as they lifted it. The crane operator could see from his cab 200' up there that the spreader bar was incorrectly set. As soon as he raised it the bar swung and the straps slipped under the air handler. It happened so quickly. It fell and damaged the under frame of the unit. Many other close calls. But that was the only load I saw fall.

*"Why Things Fall Off Cranes"*
*Human error, and gravity... Done.*

Robert A I have run pickers and many types of ground cranes for more than 45 years . Retired now ,I would give you A+ you do a grate job explaining the things in our world 👍🏽

Why things fall off or the cranes hook?
Incompetent riggers, often pulled off the streets with little to no training.
Companies also dont offer training very often, more companies require you to have experience and certifications before hire. This leads to buying certs, or just passing a test without actual experience. Then lying on the job application to just have a chance to learn on the job.
Poor pay means it hard to keep good riggers around. Most big crane companies start pay scale fairly low and by the time those people hired are decently skilled they often leave for higher paying rigging job.
As a rigger by trade with nearly 10years of experience ive seen many bad rigger and even good riggers using bad rigging practices.
Another thing is time frame and site limitations. On paper you can alway do things perfect but reality is sometimes you are forced to do scetchy things.

Been putting off watching this because I just didnt have any interest in the topic. Decided to watch it today because I try to watch all of your videos and this has been one of my favorites. The presentation of the information was the best I've ever seen. It's the small things that make the biggest difference like the thermal camera and the spring scale to demonstrate the reality. Great video.

Another common mistake is to divide the lifted object weight by the number of slings. If using 4 chains (or other rigid rigging), the weight will be balanced between two or three lifting points and the other lifting point(s) will balance the load. This is due to small length differences between each sling
With synthetic slings, the stretch help spread the load. With rigid slings, other measures can be taken to limit this phenomenon

When I did rigging while working in a harbor, they didn't really give us any kind of training to calculate whether the rigging would hold. But then again, we were always lifting the same kinds of loads every day, either bundles of steel bars or bales of rolled up steel sheets from the nearby steel mill, both of which came in a set of standard sizes, so presumably somebody had calculated beforehand that the type of rigging we were using for each load was able to handle the weight.

oh the impeccable timing.. I'm on site right now with a tower crane in front of me

Thanks! Love your channel

PROTIP: If you have to pay a guy biweekly because he disappears for three days every time he gets a check, don't let him sling a load.

Great video! I’ve been rigging for 7+ years and you had great information. Was hoping to learn something my self but sadly I didn’t. Still a great information video none the less haha
As a rigger, my safest advice would be lift the load low. Test your rigging. Rather drop the load 1ft than 50ft if it does. Be surprised how many errors or things you can save by doing this. I do it with every load. It’s saved my ass a few times and NEVER under any circumstances stand under a load unless absolutely necessary. Many guys in the field ignore this rule. But I’ve seen it cost men their lives.

"You can't push a rope after all"
Don't tell my wife!