Light Post Base Design
Light Post Base Design
(OP)
Hi,
I'm currently working on a project which is a 12 story hotel renovation. There isn't too much going on structurally. However, they are adding some light posts to the outdoor pool deck, which is an elevated 7" slab. This was designed in the late 1960's. The slab is designed as a two way beam supported slab.
My boss was saying that these poles usually require large connections due to larger loads at taller heights. So I started to calculate the wind load applied to the to ornamental part of the light fixture, and also the eccentric weight due to the shape of the light fixture. See attached cut sheet from the manufacturer.
How would I calculate the wind load? I used ASCE 7 Ch. 6 and used design for a round chimney to determine the wind speed to apply to the area at the top of the light.
This particular light is 14' tall. I used a 10 ft^2 area and only 11 psf for wind. My moment from this is only 1540 #-ft. roughly. That doesn't seem like of real concern to me. Am I missing something?
Thanks for the feedback.
I'm currently working on a project which is a 12 story hotel renovation. There isn't too much going on structurally. However, they are adding some light posts to the outdoor pool deck, which is an elevated 7" slab. This was designed in the late 1960's. The slab is designed as a two way beam supported slab.
My boss was saying that these poles usually require large connections due to larger loads at taller heights. So I started to calculate the wind load applied to the to ornamental part of the light fixture, and also the eccentric weight due to the shape of the light fixture. See attached cut sheet from the manufacturer.
How would I calculate the wind load? I used ASCE 7 Ch. 6 and used design for a round chimney to determine the wind speed to apply to the area at the top of the light.
This particular light is 14' tall. I used a 10 ft^2 area and only 11 psf for wind. My moment from this is only 1540 #-ft. roughly. That doesn't seem like of real concern to me. Am I missing something?
Thanks for the feedback.
RC
All that is necessary for the triumph of evil is that good men do nothing.
Edmund Burke






RE: Light Post Base Design
The catalogue will also have a base detail with anchor bolts (number and sizes) for every pole. You can either design for the capacity of the anchor bolts (conservative) or apply the EPA at some conservative height (not all the way at the top), use the wind load from ASCE 7, and design for that.
Whatever you do, don't depend on the light pole manufacturer to design anything. All you'll do is delay the day when you have to do it yourself.
RE: Light Post Base Design
I don't think your last statement can be emphasized enough. I ran around chasing my tail, even calling Canada, for them to tell me, oh we don't design anchor bolts, it is not what we do. I wanted to reach through the phone and smack him, because why the heck do you size the bolts and arrange them then? Why can't you just weld to my plate whatever size I want to make it.
Anywho, sorry about the rant, I realized that result. Also, the type that I'm using doesn't publish EPA, so I just looked at some examples, measured the area (my guess), and added a factor of 4 on it.
The loads just seemed smaller than what my boss was hinting at.
Is it odd that 3/4" epoxy bolts would work for this? Or is that something you've seen before?
Jed - star for you, I just wish I posted here before I ran around claiming SOMEONE HAS TO KNOW WHAT THE **** IS GOING ON!
Thanks again.
RC
All that is necessary for the triumph of evil is that good men do nothing.
Edmund Burke
RE: Light Post Base Design
The other thing I've learned, time and time again, is that the pole manufacturer will have nothing to do with isolated pole foundations. Our typical detail (an electrical detail) calls for the pole manufacturer to specify a depth and diameter for the foundation. The next time they do that will be the first time. And I just can't get the detail changed.
RE: Light Post Base Design
RE: Light Post Base Design
RE: Light Post Base Design
I agree. However, when I calculate 90 mph to a wind pressure I get closer to 15 psf. I'm at a height of 35 or so feet above grade.
If I use qz = 0.00256*Kz*Kzt*Kd*V2*I
I =1
V = 90 MPH
Kz = 0.73 (Table 6-3 35' height)
Kd = 0.95 (Table 6-4: Round chimney, tanks, etc)
Kzt = 1.0
qz = 14.38 psf.
Also, if the bolt circle diameter has 4 bolts can't I use 2 bolts in tension with the distance between assuming they are in a 2 x 2 grid arrangement? This obviously puts less tension on the bolts, but I don't see why we can't do that. What do you think?
Thanks for the feedback guys!
RC
All that is necessary for the triumph of evil is that good men do nothing.
Edmund Burke
RE: Light Post Base Design
RE: Light Post Base Design
However, the bulk of the moment at the base is from the area of the fixture. If the wind blows on an angle to the face, how do I reduce that area to account for this?
The wind on the face of the pole, (6" tapers to 3", average 4.5") is only ~15psf * (.6 ft^2)/ft height. This is equal to ~9 #/ft for wind on the pole itself.
What do you think.
Thanks for the feedback and clarifying that for me.
RC
All that is necessary for the triumph of evil is that good men do nothing.
Edmund Burke
RE: Light Post Base Design
Thanks for pointing that out. I missed your post previously, but you are correct. I'll have to review this to determine what to do.
The reason I'm trying to use epoxy bolts is because there are 14 of these lights on the elevated deck. If I have to through bolt it is going to add a lot of cost, and this job is already as tight as can be.
Thanks again.
RC
All that is necessary for the triumph of evil is that good men do nothing.
Edmund Burke
RE: Light Post Base Design
You also might want to look at the rated temperature range of the epoxy. I am not sure where you are, but 105 - 120F high end temp for epoxy could be a problem many places in an exterior application.
LRHG
RE: Light Post Base Design
Well, I agree, I would worry about the epoxy at that temperature. But in order for the epoxy to reach that temperature the surrounding slab (which is exposed to controlled air below) would have to reach those temperatures. There will be a setting bed and light paver on top of the slab. I doubt the slab will reach temperatures higher than those experienced below the slab in the controlled environment.
Thanks for the concern though.
Any ideas about the question posed to civilperson - with regard to wind hitting on an angle. What do you guys think?
RC
All that is necessary for the triumph of evil is that good men do nothing.
Edmund Burke
RE: Light Post Base Design
Also,
Hilti, shows the depth of the slab should be controlled by 2" greater than the depth of the embedment. So while they give a hard 8-3/4" minimum thickness that is based on hef = hnom, which in that case is 6-3/4". I'm able to get away with a 4-3/4" embedment so I have an extra 2-1/4" > 2" so I'm still ok.
Thanks again.
RC
All that is necessary for the triumph of evil is that good men do nothing.
Edmund Burke
RE: Light Post Base Design
RE: Light Post Base Design
RE: Light Post Base Design
RE: Light Post Base Design
Any idea of the name of the article or publication?
Thanks.
RC
RC
All that is necessary for the triumph of evil is that good men do nothing.
Edmund Burke
RE: Light Post Base Design
JB
RE: Light Post Base Design
I was going throught the May 2008 Structure magazine and found on page 51 a refernce to the March 2008 artical I was telling you about. I know its probably a bit late but I finally found it..
JB