One of the major structural components in a space frame tower is the tower leg. A novel and nonobvious tower leg structure is provided which provides significant advantages and benefits over previously available structures.
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1. A wind tower comprising: a plurality of legs, each of said plurality of legs comprising a structural member, said structural member having an open cross section defining a substantially unobstructed inner surface facing toward a midpoint of the tower, said open cross section comprising:two flange
1. A wind tower comprising: a plurality of legs, each of said plurality of legs comprising a structural member, said structural member having an open cross section defining a substantially unobstructed inner surface facing toward a midpoint of the tower, said open cross section comprising:two flange portions for attaching said structural member into said wind tower,a framed portion connecting said flange portions so as to define an outermost cavity of said structural member, wherein said cavity extends radially outward from the midpoint of the tower, andwherein said flange portions and said framed portion are extended substantially normal to the open cross section thereby forming said structural member. 2. The wind tower of claim 1, at least four legs comprising said structural members. 3. The wind tower of claim 2, said structural members further comprising a joining structure disposed thereon for joining. 4. The wind tower of claim 1, five legs comprising said structural members. 5. A space frame wind tower comprising: a plurality of legs, each of said plurality of legs comprising a structural member, said structural member having an open cross section defining a substantially unobstructed inner surface facing toward a midpoint of the tower, said open cross section comprising:two flange portions for attaching said structural member into said wind tower,a framed portion connecting said flange portions so as to define an outermost cavity of said structural member, wherein said cavity extends radially outward from midpoint of the tower, andwherein said flange portions and said framed portion are extended substantially normal to the open cross section thereby forming said structural member. 6. The space frame wind tower of claim 5, wherein the structural member further comprises a flat portion. 7. The space frame wind tower of claim 6, wherein said flat portion is disposed between a convex portion and a concave portion. 8. The space frame wind tower of claim 7, wherein said concave portion is adjacent to one of the flange portions. 9. The space frame wind tower of claim 7, wherein the concave portion has a radius of curvature that is less than 5 times the thickness but greater than a thickness of any portion of the cross section. 10. The space frame wind tower of claim 7, wherein the convex portion has a radius of curvature that is equal to or greater than a thickness of any portion of the cross section. 11. The space frame wind tower of claim 6, wherein said flat portion is disposed between said flange portions. 12. The space frame wind tower of claim 5, wherein the structural member further comprises a plurality of flat portions. 13. The space frame wind tower of claim 5, wherein the ratio between moment of inertia and the area of the cross section is in the range from about 25 to about 300 in4. 14. The space frame wind tower of claim 5, wherein the moment of inertia is in the range from about 800 to about 10000 in4. 15. The space frame wind tower of claim 5, wherein the moment of inertia is in the range from about 1500 to about 4500 in4. 16. The space frame wind tower of claim 5, wherein the area of the cross section is in the range from about 30 to about 210 in2. 17. The space frame wind tower of claim 5, wherein the area of the cross section is in the range from about 50 to about 110 in2. 18. The space frame wind tower of claim 5, wherein the cross section is asymmetric. 19. The space frame wind tower of claim 5, wherein the cross section is symmetric about an axis. 20. The space frame wind tower of claim 5, wherein the structural member is formed by more than one segment bonded together by a fastener across the length of the cross section. 21. The space frame wind tower of claim 5, wherein the structural member is formed by just one continuous piece of material. 22. The space frame wind tower of claim 5, wherein the length of the flange portions is between about 15% to about 25% of the total perimeter of the cross section. 23. The space frame wind tower of claim 5, wherein the length of the flange portions is substantially about 10% to about 15% of the total perimeter of the cross section. 24. The space frame wind tower of claim 5, wherein the angle between the flanges is dependent on the number of legs to be used in the wind tower structure. 25. The space frame wind tower of claim 5, wherein the angle between the flanges is the product of 180 degrees multiplied by the number of legs to be in the final tower structure minus two; and wherein the product is then divided by two multiplied by the number of legs to be in the final tower. 26. The space frame wind tower of claim 5, wherein the ratio between the width of the cross section and the perimeter of the frame portion is within the range from about 0.8 to about 0.2. 27. The space frame wind tower of claim 5, wherein the ratio between the width of the cross section and the perimeter of the frame portion is substantially about 0.7 to about 0.35. 28. The space frame wind tower of claim 5, wherein said structural member further comprises a brace spanning at least a portion of said framed portion. 29. The space frame wind tower of claim 5, wherein the thickness of the cross section is in the range from about 0.25 to about 1.125 in. 30. The space frame wind tower of claim 5, wherein the thickness of the cross section is in the range from about 0.375 to about 1 in. 31. The space frame wind tower of claim 5, wherein the thickness of the cross section is in the range from about 0.4375 to about 0.875 in. 32. The space frame wind tower of claim 5, wherein the ratio of the thickness and the perimeter of cross section is in the range from about 0.005 to about 0.03 in. 33. The space frame wind tower of claim 5, wherein the ratio of the thickness and the perimeter of cross section is in the range from about 0.005 to about 0.02 in. 34. The space frame wind tower of claim 5, wherein the thickness of the cross section is constant along the length of the leg. 35. The space frame wind tower of claim 5, wherein the thickness of the cross section varies along the length of the leg. 36. The space frame wind tower of claim 5, wherein an angle formed between said flange portion and said frame portion ranges between about 80 degrees and about 175 degrees. 37. The space frame wind tower of claim 5, wherein the structural member further comprises a brace wherein said brace comprises a first end and a second end and wherein said first end is affixed to a flange and wherein said second end is attached to another flange. 38. The space frame wind tower of claim 37, wherein said brace is affixed to said framed portion. 39. The space frame wind tower of claim 5, wherein the structural member has the ratio between the depth dimension, length (l), of the shape and the perimeter of the box shaped frame as about 0.5>(l/box perimeter)>about 0.15. 40. The space frame wind tower of claim 5, wherein the structural member has the ratio between the depth dimension, length (l), of the shape and the perimeter of the box shaped frame as about 0.35>(l/box perimeter)>about 0.2. 41. The space frame wind tower of claim 5, wherein the outer perimeter of the cross section is in the range from about 50 to about 130 in. 42. The space frame wind tower of claim 5, wherein the outer perimeter of the cross section is in the range from about 50 to about 100 in. 43. The space frame wind tower of claim 5, wherein the structural member is made of a metal. 44. The space frame wind tower of claim 5, wherein the structural member is fabricated by a metal forming process. 45. The space frame wind tower of claim 44, wherein the structural member is fabricated out of a steel plate using a press brake forming process. 46. The space frame wind tower of claim 44, wherein the structural member is fabricated out of coil using a press brake forming process. 47. The space frame wind tower of claim 44, wherein the structural member is fabricated out of steel plate using a cold roll forming process. 48. The space frame wind tower of claim 44, wherein the structural member is fabricated out of coil using a cold roll forming process. 49. A wind tower comprising: a structural member for use in constructing a wind tower comprising, wherein said structural member comprises an open cross section defining a substantially unobstructed inner surface facing toward a midpoint of the tower, wherein said structural member forms a framed portion and flange portions, wherein the framed portion defines an outermost cavity of said structural member, wherein said cavity extends radially outward from a midpoint of the tower, wherein the framed portion and flange portions are extended substantially normal to a cross section of said structural member:means for attaching other structures to said structural member for constructing a lattice thereby forming said wind tower;means for resisting compressive loading for preserving the structural integrity of said wind tower; andmeans for resisting torsional loading for preserving the structural integrity of said wind tower.
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