A few years ago I was in a car accident and injured my back. I know that as I get older, I will have to be even more careful not to damage it more so as I've been building my shop, I've planned to include some things to help with lifting. When the pole barn structure was engineered, I included footings to allow for the load that a relatively small bridge crane would need. The space is 11' x 28' with a supporting post at the center of the 28' span. This is a free standing bridge crane in the center of my work space running above my welding table and above a parking/unloading area.
I'm not an engineer and like most of us I'm building this shop on a budget as time and money permits. I have a friend who just offered me some I-beams removed from a large gas station canopy that he replaced. The beams are 12" tall, top and bottom flanges are 4" wide, the web is 1/4" and the flanges are 3/8". There are no markings on the steel but they are coated in a silver paint or other coating to resist corrosion, were protected from weather and are in excellent condition.
The design is a top running bridge crane similar to this image below but with only three vertical posts. My posts are 4" x 8" x 1/4" square tubing anchored to the footings with expansion anchors. The span between posts is 14' centered. I will have to come up with some kind of rail above the beam for the bridge to ride on and I have a heavier 11' I-beam to carry the trolley. I do plan to use some gussets and additional bracing not included in the picture. The timing for these beams is really good as I should be ready to lift them up in place later this winter or first thing in the spring.

I'm hoping for some help determining the load capacity of these I-beams. I have a 1 ton pneumatic hoist that will probably do most of my lifting and I have no concern about the structure supporting that weight but I plan to include another trolley for a manual chain fall and will likely use something with more capacity there. I want to include markings showing maximum carrying capacity and I want this to be reasonably over engineered and as safe as a DIY can be.
Any proper calculations would be greatly appreciated and any suggestions regarding design that will help with safety and convenience would be helpful. I have tried using some of the online calculators but can't seem to wrap my mind around their use, probably because there are so many different ways I-beam is used and each of them are calculated differently.
~Shane
I'm not an engineer and like most of us I'm building this shop on a budget as time and money permits. I have a friend who just offered me some I-beams removed from a large gas station canopy that he replaced. The beams are 12" tall, top and bottom flanges are 4" wide, the web is 1/4" and the flanges are 3/8". There are no markings on the steel but they are coated in a silver paint or other coating to resist corrosion, were protected from weather and are in excellent condition.
The design is a top running bridge crane similar to this image below but with only three vertical posts. My posts are 4" x 8" x 1/4" square tubing anchored to the footings with expansion anchors. The span between posts is 14' centered. I will have to come up with some kind of rail above the beam for the bridge to ride on and I have a heavier 11' I-beam to carry the trolley. I do plan to use some gussets and additional bracing not included in the picture. The timing for these beams is really good as I should be ready to lift them up in place later this winter or first thing in the spring.

I'm hoping for some help determining the load capacity of these I-beams. I have a 1 ton pneumatic hoist that will probably do most of my lifting and I have no concern about the structure supporting that weight but I plan to include another trolley for a manual chain fall and will likely use something with more capacity there. I want to include markings showing maximum carrying capacity and I want this to be reasonably over engineered and as safe as a DIY can be.
Any proper calculations would be greatly appreciated and any suggestions regarding design that will help with safety and convenience would be helpful. I have tried using some of the online calculators but can't seem to wrap my mind around their use, probably because there are so many different ways I-beam is used and each of them are calculated differently.
~Shane












