I have received the ALI Standard in the mail. It is an expensive and copyrighted document so I should not make it available here. However, some pertinent points: Lift structure is designed generally with SF of 3. Hydraulic lines SF of 4. Fasteners SF 4. Proof load is 150% cycled up and down two times. Load is applied by rectangular plate of certain dimensions. Test is done twice, once with front arms fully extended, and if necessary with the rear arms fully extended if the two arm conditions are not met with one lift with standard load plate. There is nothing for actually calculating the fore/aft cg and loading asymmetrically beyond what is achieved with the specified arm positions.These documents may have some definitive information. Then again, they might not. They should, at least, explain the standards that these lifts are tested and certified to:
http://www.autolift.org/ali-store/ansiali-alctv-standard-2011/
http://shop.bsigroup.com/ProductDetail/?pid=000000000030176083
There is a lateral asymmetric load that is pretty extreme - 62.5% to 37.5% (at 100% not 150%). I need to look a little closer at the standard to see where these odd numbers come from and what they are after here. Failure is tilting 3 degrees if memory serves. I think the idea here is to challenge the safety latch system, if one side catches and the other doesn't.
There is nothing about floor anchors other than they should be specified and tested in accordance with instructions. There is an implication, I guess, that they conform with the SF of 4 (?), although I need to look closer at this when I have the time. This makes some sense, ALI is not a floor anchor company. On the other hand, a lift designed with one mounting bolt in the center of a 6 inch square baseplate would be a poor lift design no matter what anchor was used.
