This will explain why the typical ham radio method of erecting
guyed towers with the bottom section buried in the concrete base is not a good idea.
A study of what happens when we make changes to a tower configuration
Preface
The following discussion is aimed at observing tower behavior subsequent to changes in configuration, and has selected the EIA/TIA RS-222-F spec as the standard for the comparisons. The information presented is just part of the work pursued here to understand how guyed towers work. I found the results interesting, and contrary to some amateur folklore, making it a shame not to share with others.
For many years I've seen hundreds of commercial installations with tapered bases. Until now, I always wondered why the commercial installations had tapered bases and the amateur ones did not.
After looking at my new Rohn commercial catalogue, the first thing I noticed is that all sections for guyed towers from 45G and up are offered with tapered bases. One of the rigid tube towers "J" offers a roof mounting base that actually has a ball and socket connection. This is exactly what was modeled in Configuration Variant #4.
This indicates that Rohn and their commercial users understand the problem, and agree that the base of the tower should not only be free to rotate about the vertical axis to reduce torsional load development, but also be free to lean over just as far as the guys will allow. The small tapered bases sit on bearing plates on a pier pin. It is obvious from the drawings that these connections will allow enough rotation, about the horizontal axes, to prevent development of significant bending loads.
Note: Rohn does (or at least did) make a tapered base for the 25G. It is called a 25TG. I have one on my tower.
http://k7nv.com/notebook/towerstudy/towerstudy1.html
