I need to build a hoist system, and I plan to have two arches with two hoists, starting with two pairs of vertical 6x6" wooden posts. On the top, I need two beams that span all the way across, which is no more than 15 feet, and I need for it to handle a minimum of 1,000 pounds, with 2,000 being better. I need to know that if I get a particular size of beam that it is unquestionably strong enough. I cannot figure out where to find this information. I have tried all the steel yards and lumber yards around here, they're all afraid of getting sued or something, or maybe they just really haven't got a clue.
2006-08-29 09:15:31 · 3 answers · asked by Anonymous in Home & Garden ➔ Do It Yourself (DIY)
15ft is a pretty wide span.You would probably have to go with at least a 8"/1/4"thick I beam minimum(for the 1/2 ton(12" would be better)(especially since you are talking of 1 tonTo do it in wood would require laminating 2 by12's with metal plates
2006-08-29 09:30:16 · answer #1 · answered by paulofhouston 6 · 0⤊ 1⤋
1
2016-12-24 04:38:04 · answer #2 · answered by Anonymous · 0⤊ 0⤋
You are talking about some pretty serious structural work for a wooden beam.
As you indicated a steel beam or a glue-lam beam may be more appropriate. If you are in the US then try looking for a Louisiana Pacific LVL (2950Fb-2.0E). I've included the link to the technical manual from LP. A number of other manufacturers make similar products (note that the Fb and E numbers represent the bending strength and modulus of elasticity - equal beams will have equal numbers).
The Wood Frame Construction Manual is a great source for some of this information, but it is not easy to find. If you have a college library around where they teach structural engineering or architecture you might be able to find it. . .
A steel beam is easier to design if you can get your hands on the AISC Manual of Steel Construction (in the US). Check a library. A simple beam with a concentrated load in the middle would work like this: Take the load (in thousands of pounds) and multiply it by the length in feet and divide by 4 (2 times 15'/4=7.5kip.ft.). This will give you the maximum moment on the beam (technical term). According to the manual you could use a W6x12 for this example.
Of course you understand that all this load will require a column to support it. The size of a column is related to its height, so you will need to verify this as well. And then a column will need a footing.
I would recommend finding a local architect that can help you. It seems silly until your roof is sitting on your head.
2006-08-29 09:59:13 · answer #3 · answered by Moose C 3 · 1⤊ 0⤋
According to the Boise Beam Calculator it looks like a 5-1/8" x 13 1/2" glulam beam will suffice to carry a 2000# load both at center or each end. I understand you are trying to accomplish a hoist system? For a garage or similar use? The only thing I would advise to you is lateral bracing. Stacking this beam atop the 6x6 posts and then applying a 2000# load would be like stacking two golfballs one on top of the other and then attempting to stand on them. If you dont have some kind of bracing this system will fall. Remeber when bracing, triangles are a must. Dont forget to brace both parallel and perpendicular to the beam.
2006-08-30 09:14:54 · answer #4 · answered by Tj R 1 · 0⤊ 0⤋
It is probably over engineered, but I would rather have overkill. Also to save you time and energy, attach the plate at each end then jack up the middle or jack at intervals to make it flush on the bottom all the way accross. I would also wait about drilling holes until both were up and when jacking, drill holes and use carriage bolts to through bolt. This would eliminate the possibility of the lag screws pulling loose and having a similar problem in the future.
2016-03-17 04:11:39 · answer #5 · answered by Anonymous · 0⤊ 0⤋
If you are planning to start on your woodworking project, this isn't something you should use, it's something that you would be insane not to. Go here https://tr.im/2AO3H
Truth is, I've been a carpenter for almost 36 years, and I haven't found anything like this for less than 10's of thousands of dollars.
2016-02-10 17:36:10 · answer #6 · answered by ? 3 · 0⤊ 0⤋
dont know
2006-09-02 03:37:36 · answer #7 · answered by JESUS loves 4 · 0⤊ 0⤋