In order for something to tip over, the center of mass has to move outside the area of the base and most of the weight is in the bottom part of the lift. So it is basically impossible without actively trying to tip it over.
It’s only “basically impossible” if it’s on a firm platform. If it’s on a gimbal, like a plastic floating thing, then you don’t really now where the tipping point is going to be because it depends on the flexibility of the platform.
Probably why the bottom is also anchored to the floating work surface. This implementation looks like exactly what you’re supposed to do. There’s lots of pearl clutching for some reason.
Who says this is exactly what you’re supposed to do?
If you’re ever working at height and you think it’s safer without a harness so you’re not killed to death by whatever you’re standing on it’s probably a good time to reassess.
The floats are EZDocks, each with a carrying capacity of 3,000lbs, total capacity is 12,000lbs.
The lift is a JLG 3246es, which has a weight of less than 5,000lbs.
What if the lift tips over?
In order for something to tip over, the center of mass has to move outside the area of the base and most of the weight is in the bottom part of the lift. So it is basically impossible without actively trying to tip it over.
It’s only “basically impossible” if it’s on a firm platform. If it’s on a gimbal, like a plastic floating thing, then you don’t really now where the tipping point is going to be because it depends on the flexibility of the platform.
Probably why the bottom is also anchored to the floating work surface. This implementation looks like exactly what you’re supposed to do. There’s lots of pearl clutching for some reason.
Safe work sites aren’t “pearl clutching”.
Who says this is exactly what you’re supposed to do?
If you’re ever working at height and you think it’s safer without a harness so you’re not killed to death by whatever you’re standing on it’s probably a good time to reassess.