TECHNICAL FIELD
Structural Analysis and Reinforcing of tower base in existing guyed Towers.
BACKGROUND OF THE INVENTION
Reinforcing of guyed tower base have long been known and widely used when the loads increase above the soil, and stresses becoming higher than the capacity of soil. Engineers used to propose new concrete pad, connected to the existing pier (or pile) through inserting dowels into the exiting pier (or pile). The procedure of this reinforcing is to remove the soil up to the founding depth with the proposed footprint, drilling holes into the pier (or pile) all around, inserting dowels into these holes and adding adhesive material to make the dowels as part of the pier (or pile) structure. Then laying rebar mesh top and bottom around the pier (or pile), placing concrete, after concrete dry, backfill to the ground surface. This way of reinforcing is assuming that the concrete of existing pier (or pile) has not changed from the “as new” condition, and the pier (or pile) is good after drilling to insert the new dowels.
SUMMARY OF THE INVENTION
The guyed tower is an assembly of sections; these sections are connected to each other through splice connections. In this invention, the new reinforcing mechanism is carrying the tower from underneath these splice connections by using rigid frame. The rigid frame is supported on lattice legs, these legs are connected at the bottom with movable plates, the movable plates are resting on mat foundation. A steel wire cable is going around all movable plates. A turnbuckle is placed on the steel wire cable. By torquing the turnbuckle, this will result of rising lattice legs then transfer part of the download to the new mechanism. This torque will produce forces into the legs to carry the extra load.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a guyed tower, showing Base (B), Deadman anchors (D) & section height H.
FIG. 2 is showing two types of foundations, spread footing & pile foundation.
FIG. 3 is showing two sections of the tower & part of the existing base.
FIG. 4 is showing what in FIG. 3 plus adding the assembly of new mechanism.
FIG. 5 is showing all assemblies of the new mechanism.
FIG. 6 is showing assembly I.
FIG. 7 is showing assembly II.
FIG. 8 is showing assembly III.
FIG. 9 is showing assembly IV.
FIG. 10 is showing the structural system of reinforcing mechanism.
FIG. 11 is showing how to calculate the required tension then torque.
DETAILED DESCRIPTION
The guyed tower (FIG. 1) is a tower supported by tower Base (No. B) and guy cables which supported by Deadman anchors (No. D). The guyed tower consists of sections as shown in (FIG. 1), each section with height (H). Taking the first two sections as shown in (FIG. 3) to illustrate the existing details of the tower sections before adding the new mechanism. The pivot (No. 1.3) is the center of the tower which allows the tower to rotate only around it but does not allow the tower to move horizontally. This pivot is welded to the tower base plate, this base plate is fixed into the concrete of the pier (or pile) structure. First section of the tower has a circular base plate (No. 1.4) at the bottom and all legs (No. 1.5) are welded to it.
The tower base will be one of two types, isolated spread footing (FIG. 2 Top), pier (No. 1.2), and pad (No. 1.1) or pile foundation (FIG. 2 Bottom) (No. 1.2).
The new mechanism is consisted of (4) assemblies.
Assembly (I) (FIG. 4, 5 & 6) is a rigid frame; the rigid frame consists of weldments (No. I.1) and built-up beams (No. 1.2). Each weldment is located underneath the bottom of top splice pads (No. 1.6) of first tower section. Beams are welded to the weldments and forming closed frame. The weldments are connected to the existing splice pads using longer bolts to accommodate the new thickness. The built-up beam to be welded after installing all weldments on existing splice connections.
Assembly (II) (FIG. 4, 5 & 7) consists of lattice legs. Each lattice leg (No. II) is connected at the top to the rigid frame (No. I) using hinges and connected at the bottom to the movable plate (No. 111.3). Before connecting the lattice leg at the bottom with the movable plate, the movable plate should be inserted first into the fixed base plate (No.III.2) after adding grease in between these two plates.
Assembly (III) (FIG. 4, 5 & 8) consists of mat foundation (No.III.1) and base plates (FIG. 4, 5 & 8). The top of mat foundation is above the ground surface by few inches to keep the water away from it. Base plates are two plates at each lattice leg, one on top of the other. The bottom plate (III.2) is fixed into the concrete using concrete anchors. The top plate is movable (III.2), sliding on bottom fixed plate using grease in between.
Assembly (IV) (FIG. 4, 5 & 9) is a steel wire cable (No. IV.1) with a wire rope thimble (No. IV.2) at each end, this assembly of steel wire cable is going around all movable base plates. A turnbuckle (No. IV.3) is connecting the two ends of the wire assembly. Tightening the turnbuckle to set the wire assembly around the movable plates and ready to apply the required torque.
After all set, apply the required torque to produce tension in the steel wire cable, this tension will produce forces in lattice leg to carry the extra load on the base. This mechanism is to move some of the extra loading to the new mat foundation.
The structural system that is illustrating this mechanism is shown in (FIG. 10). To calculate the torquing required (FIG. 11), start by putting a unit force at the top, then calculate T. Based on the actual force from the tower analysis and how much the existing base could carry, then the extra loading on top of the new mechanism is defined, then the tension in the steel cable is defined and the required torque as well.
DEFINITIONS
B Tower Base.
D Tower Deadman Anchors.
H Section height.
T Tension force due to unit force at the top.
1.1 Concrete pad in spread footing.
1.2 Concrete pier or pile foundation.
1.3 Pivot on top of tower base.
1.4 Bottom base plate of first tower sections.
1.5 1st section in the tower.
1.6 Top splice plate of 1St tower section.
1.7 2nd section in the tower.
I.1 Weldment.
1.2 Beam.
II Lattice legs.
III.1 Mat foundation.
111.2 Fixed base plate.
111.3 Movable base plate.
IV.1 Steel wire cable
IV.2 Wire rope thimble.
IV.3 Turnbuckle.