Electrically insulated boom mountable temporary conductor guard structure

The invention claimed is: 1. An electrically insulated temporary conductor guard structure to capture energized conductors as they sag or drop during stringing operations, wherein the conductor guard structure is mountable to a distal end of a crane or truck boom and comprises: a) at least one elongate electrical insulator adapted to be mounted to the distal end of the crane or boom at one end thereof, wherein, when the conductor guard structure is an operative orientation, the at least one electrical insulator extends vertically from the distal end of the crane or truck boom; b) a rigid U-shaped frame adapted to be mounted to a second opposite end of the at least one electrical insulator, wherein the U-shaped frame includes an elongate horizontal beam having a pair of stub arms extending out of co-linearity with the beam and from opposite ends of the beam, and wherein, in the operative orientation of the conductor guard structure, the beam is perpendicular relative to the at least one electrical insulator and the pair of stub arms extend upwardly from the opposite ends of the beam forming an included angle with the beam wherein each of the pair of stub arms is mounted to the beam so that the included angle is at least 90 degrees to capture the energized conductors upon their sagging or dropping, and the pair of stub arms and the beam define an upper interior perimeter extending along and on upper surfaces of the length of the beam and the length of each of the stub arms of the pair of stub arms; and c) elongate, electrically conductive rollers rotatably mounted, adjacent and parallel to each of the stub arms of the pair of stub arms and the beam so as to form an electrically conductive rolling surface around the upper interior perimeter extending along the lengths of the beam and the stub arms, wherein the electrically conductive rollers have corresponding axes of rotation which are also adjacent to and parallel to each of the stub arms and the beam, and wherein, in the operative orientation of the conductor guard structure, as the sagged or dropped energized conductors are being supported on the electrically conductive rolling surface, a charging current on the sagged or dropped energized conductors is conducted by the electrically conductive rollers to the U-shaped frame to prevent burning or melting of the electrically conductive rollers and the charging current is prevented from reaching the distal end of the crane or truck boom as the U-shaped frame is electrically isolated from the distal end of the crane or truck boom by the at least one insulator. 2. The conductor guard structure of claim 1 , wherein the electrically conductive rollers have exterior surfaces and wherein at least the exterior surfaces of the electrically conductive rollers are electrically conductive. 3. The conductor guard structure of claim 2 , wherein the electrically conductive rollers are selected from the group consisting of aluminum rollers, steel rollers, electrically conductive composite rollers. 4. The conductor guard structure of claim 1 , wherein, in the operative orientation of the conductor guard structure, the U-shaped frame is adapted to be selectively rotatable about a first axis of rotation so as to be perpendicular relative to the at least one electrical insulator and the energized conductors. 5. The conductor guard structure of claim 4 further comprising a selectively rotatable swivel, mounted under the U-shaped frame, for rotatably mounting the U-shaped frame to the second opposite end of the at least one electrical insulator, whereby the U-shaped frame is said selectively rotatable about the first axis of rotation. 6. The conductor guard structure of claim 5 further comprising a mounting bracket mounted to the swivel, and wherein the beam is removably mountable to the swivel by the mounting bracket. 7. The conductor guard structure of claim 5 , wherein the at least one electrical insulator is mounted to an underside of the swivel. 8. The conductor guard structure of claim 7 , wherein the at least one electrical insulator includes a pair of electrical insulators, and wherein, in the operative orientation of the conductor guard structure, the pair of electrical insulators extend between the distal end of the crane or truck boom and the underside of the swivel. 9. The conductor guard structure of claim 5 , wherein the U-shaped frame and the swivel are further pivotable about a second axis of rotation, orthogonal to the first axis of rotation, for pivoting the conductor guard structure from the operative orientation to a storage-for-travel orientation, wherein the beam is positionable so as to lie parallel to the at least one electrical insulator. 10. The conductor guard structure of claim 9 further comprising a pivot connector, located between the swivel and the second opposite end of the at least one electrical insulator, for the pivoting of the U-shaped frame about the second axis of rotation relative to the at least one electrical insulator. 11. The conductor guard structure of claim 9 , wherein in the storage-for-travel orientation, the stub arms are each rotatable about a corresponding pair of pivot connections on the beam such that the stub arms are rotatable so as to lie parallel to the beam. 12. The conductor guard structure of claim 1 , wherein the beam has a beam length, and wherein each of the stub arms of the pair of stub arms has a stub arm length, and wherein the stub arm length is no greater than one half of the beam length. 13. The conductor guard structure of claim 12 , wherein the length of each of the stub arms is adjustable by a length adjustment means selected from the group consisting of telescoping stub arms, modular stub arms, wherein the modular stub arms include stub arm sections which are connectable lengthwise to one another. 14. The conductor guard structure of claim 1 , wherein the included angle is in the range of 100 to 140 degrees. 15. The conductor guard structure of claim 14 , wherein each of the pair of stub arms are rotatably mounted to the beam and selectively adjustable so as to selectively adjust the included angle. 16. The conductor guard structure of claim 15 , wherein the stub arms are rotatably mounted on the beam by a pivot connection between the stub arms and the beam. 17. The conductor guard structure of claim 16 , wherein the pivot connection includes a releasable lock to lock the stub arms at a desired included angle. 18. The conductor guard structure of claim 1 , wherein the beam has a first length and each of the stub arms has a second length, and wherein the first length is at least twice as long as the second length. 19. The conductor guard structure of claim 1 , wherein the beam has a first length and each of the stub arms has a second length, and wherein the first length is at least three times as long as the second length. 20. The conductor guard structure of claim 1 , wherein the beam has a first length and each of the stub arms has a second length, and wherein the first length is at least four times as long as the second length. 21. A method of catching and supporting a high voltage energized conductor using the conductor guard structure of claim 1 , the method comprising the steps of: a) positioning the conductor guard structure of claim 1 below the location of, and perpendicular to, the energized conductor being strung; b) upon sagging or dropping of the energized conductor as the energized conductor is being strung, catching and supporting the energized c