The apparatus of claim 2 wherein each of said pile guides extends from said platform, and through said large diameter legs, further forming said flexure joint housing.ġ0. The apparatus of claim 7 wherein the longitudinal axis of each of said piles forming said flexure joint lies within a surface of revolution which defines a hyperboloid of one sheet.ĩ. The apparatus of claim 6 wherein said piles forming said flexure joint extend downwardly in a clustered arrangement from a single large diameter leg and thereafter form portions of each concentric ring of said flexure joint.Ĩ. The apparatus of claim 4 wherein said piles forming said flexure joint are vertically slanted and arranged in at least two concentric rings, said vertical slanting piles of one ring inclined with respect to each other in a direction opposite to the direction of the piles of the adjacent ring.ħ. The apparatus of claim 4 wherein said piles are spaced equidistant from said central axis to form a generally circular pattern.Ħ. The apparatus of claim 3 wherein each pile forming said flexure joint is inclined in substantially the same direction with respect to the pile adjacent thereto and at substantially the same angle with respect to said central axis, said pile being spaced from said axis at a symmetrically arranged predetermined distance when viewed in a horizontal cross-sectional plan view taken at any point of said flexure joint, and with said predetermined distance being less at one generally horizontal plane taken adjacent the bottom of said body of water which passes through said flexure joint than at any other horizontal plane.ĥ. The apparatus of claim 2 further including piles carried within said pile guides, said piles forming a flexure joint having upper and lower portions, said upper portion being formed by said piles within said flexure joint housing, the lower portion of said piles being adapted to extend downwardly and outwardly below said flexure joint housing into said bottom of said body of water, to form said flexure joint lower portion.Ĥ. For use in offshore well operations, a buoyant tower structure adapted to extend to the bottom of a body of water having a central vertical axis comprising:Ī plurality of pile guides of a diameter less than said legs extending downwardly through and below each of said large diameter legs, the portion of said pile guides extending below said legs curving inward towards each other around the central vertical axis of the lower portion of said buoyant tower structure to form a flexure joint housing, and wherein said flexure joint housing is formed by the pile guides at a point where said pile guides are in close proximity to each other about said central vertical axis of said buoyant tower structure, said flexure joint housing adapted to be located adjacent said bottom of said body of water.ģ. For use in offshore well operations, a buoyant tower structure adapted to extend to the bottom of a body of water having a central vertical axis comprising:Ī platform adapted to be positioned above the surface of said water Ī buoyant tank means located adjacent the upper end of said tower structure and being located beneath and connected to said platform Īt least three large diameter legs extending downwardly substantially parallel to said central vertical axis from said buoyant tank means a selected distance, said legs being spaced substantially equally about the circumference of said buoyant tower structure and ending at a selected distance above said ocean floor andĪ plurality of pile guides of a diameter less than said legs extending downwardly through and below each of said large diameter legs, the portion of said pile guides extending below said legs curving inward toward each other around the central vertical axis of the lower portion of said tower structure to form a flexure joint housing.Ģ.
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