History:
Wanted a lift, found a used one, bought it and installed it in my pole barn. The concrete was about 4 inches thick when I drilled the holes, I don't know the concrete psi rating.
The lift is a knockoff of a Worth 12000 floorplate lift. The manual calls for 4 inches of 3000 psi concrete. The baseplate is massive at 24 inches by 34.
It has ten 3/4 inch Simpson Wedgeit anchors torqued to 150 ft#. According to this table, each anchor is rated at 6760 pounds in tension. The table also show "allowable pounds" of 1690# which gives a 4x safety factor in 2000 psi concrete...
http://www.strongtie.com/products/anchorsystems/mechanical/wedge-all/loads_carbonsteeltension.html
Fuzzy math: By some crude notepad calculations I think I need each anchor to hold 2400 pounds if I load the lift with 12000 pounds. That puts my safety factor at 2.8.
Reading this thread made me think of ways to make the upright lift columns more stable since they have no crossbar over the top to transfer any tipping forces to the opposite upright.
http://www.garagejournal.com/forum/showthread.php?t=314935
I'm thinking of either building a crossbar up high to tie the uprights together or connecting the uprights to the buildings posts with cables. Again crude calculations tell me that there would be 2500 pounds of tipping pressure at the top of the 10 foot uprights when the lift is loaded at its capacity. Two strands of 3/8 cable tied to the walls would give me 4880 pounds of tension capacity if all the anchors in the floor pulled out.
anyone want to check my math?
I think it would take 3 hours to rig cables, 3 days to build a crossbar and 3 months to pour a new concrete base....
Wanted a lift, found a used one, bought it and installed it in my pole barn. The concrete was about 4 inches thick when I drilled the holes, I don't know the concrete psi rating.
The lift is a knockoff of a Worth 12000 floorplate lift. The manual calls for 4 inches of 3000 psi concrete. The baseplate is massive at 24 inches by 34.
It has ten 3/4 inch Simpson Wedgeit anchors torqued to 150 ft#. According to this table, each anchor is rated at 6760 pounds in tension. The table also show "allowable pounds" of 1690# which gives a 4x safety factor in 2000 psi concrete...
http://www.strongtie.com/products/anchorsystems/mechanical/wedge-all/loads_carbonsteeltension.html
Fuzzy math: By some crude notepad calculations I think I need each anchor to hold 2400 pounds if I load the lift with 12000 pounds. That puts my safety factor at 2.8.
Reading this thread made me think of ways to make the upright lift columns more stable since they have no crossbar over the top to transfer any tipping forces to the opposite upright.
http://www.garagejournal.com/forum/showthread.php?t=314935
I'm thinking of either building a crossbar up high to tie the uprights together or connecting the uprights to the buildings posts with cables. Again crude calculations tell me that there would be 2500 pounds of tipping pressure at the top of the 10 foot uprights when the lift is loaded at its capacity. Two strands of 3/8 cable tied to the walls would give me 4880 pounds of tension capacity if all the anchors in the floor pulled out.
anyone want to check my math?
I think it would take 3 hours to rig cables, 3 days to build a crossbar and 3 months to pour a new concrete base....


