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Rigging forces

stewmo

By stewmo
in Rigging and roping

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jfc
jfc

Sorry jules, you are totally wrong on this, very unusual for you to make a wildly inaccurate statement. I decided to do a we demo. Photo 1, drill on weighing scales. Approx 2kg. Photo 2, drill on pu

jfc
jfc

Two times loading only applies to a static load. When pieces are freefalling (before the slack is taken up) the forces multiply significantly. Up to 12 times the weight of the piece, although up to ab

jfc
jfc

I cant remember the exact figure from my rigging ticket. There is some good research by the hse on rigging forces. They were dropping some big sections and I think it was 4 to 6 times the weight of pi

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jfc Experienced

jfc

Posted
Posted
Yes - it will be (theoretically) twice the load applied.
Two times loading only applies to a static load. When pieces are freefalling (before the slack is taken up) the forces multiply significantly. Up to 12 times the weight of the piece, although up to about 6 times is more the norm. With a good groundie letting stuff run and slowly decelerate that greatly lessens shock loading the system.

If you have a 100kg piece, rigged from below, with 1 to 2m slack, stopped dead you could create a force equivalent to 600kg on each side of the pulley, meaning 1200kg at the rigging point.[emoji15]

Something to think about.

J.
  • Like 3
Pete Mctree Grand Master

Pete Mctree

Posted
Posted
15 minutes ago, jfc said:

Two times loading only applies to a static load. When pieces are freefalling (before the slack is taken up) the forces multiply significantly. Up to 12 times the weight of the piece, although up to about 6 times is more the norm. With a good groundie letting stuff run and slowly decelerate that greatly lessens shock loading the system.

If you have a 100kg piece, rigged from below, with 1 to 2m slack, stopped dead you could create a force equivalent to 600kg on each side of the pulley, meaning 1200kg at the rigging point.emoji15.png

Something to think about.

J.

I know the math and have destroyed rigging & rigging points. Well explained 

daltontrees Grand Master

daltontrees

Posted
Posted

The 'twice the load' idea in most rigging situations is a myth. The pulley in rigging is being used for a change in direction, not to create a mechanical advantage.

 

That is the case with static and dynamic situations.

jfc Experienced

jfc

Posted
Posted
8 hours ago, Pete Mctree said:

I know the math and have destroyed rigging & rigging points. Well explained 

Hi Pete, I was just expanding on your answer for the OP.

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jfc Experienced

jfc

Posted
Posted
The 'twice the load' idea in most rigging situations is a myth. The pulley in rigging is being used for a change in direction, not to create a mechanical advantage.
 
That is the case with static and dynamic situations.
Sorry jules, you are totally wrong on this, very unusual for you to make a wildly inaccurate statement.

I decided to do a we demo.

Photo 1, drill on weighing scales. Approx 2kg.
Photo 2, drill on pulley with rope, approx 4kg.

To hold the drill steady, you have to apply a 2kg downward force on the other side to oppose the 2kg drill, total 4kg.

RIGGING POINTS EXPERIENCE DOUBLE LOADING VIA PULLEY.

J.20200826_073551.jpeg20200826_073638.jpeg
  • Like 4
Dan Maynard Grand Master

Dan Maynard

Posted
Posted
The 'twice the load' idea in most rigging situations is a myth. The pulley in rigging is being used for a change in direction, not to create a mechanical advantage.
 
That is the case with static and dynamic situations.
Got me confused with that one.

I'd say most rigging situations have two ropes leading down from the pulley, close to straight up and down? At least once the piece is getting closer to the floor.
Mr. Squirrel Mentor

Mr. Squirrel

Posted
Posted
8 hours ago, daltontrees said:

The 'twice the load' idea in most rigging situations is a myth. The pulley in rigging is being used for a change in direction, not to create a mechanical advantage.

 

That is the case with static and dynamic situations.

I mean you're right in a sense, in that peak forces at the anchor point will likely be significantly higher than twice the load. 

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