Guide system and method for guiding a pipeline from a laying vessel onto the bed of a body of water

The invention is claimed as follows: 1. A pipeline guide system comprising: a float unit; a trolley selectively connectable to a pipeline which can span a designated path between a laying vessel and a bed of a body of water, said trolley being configured to roll along the pipeline, parallel to the designated path, to adjust a position of the float unit along the pipeline, said trolley including a plurality of grip rollers configured to roll along a bottom of the pipeline, said grip rollers being selectively movable between: (i) a release position, in which the pipeline is insertable between the grip rollers, and (ii) a closed position, in which the grip rollers are positioned contacting the pipeline, wherein each grip roller has a truncated-cone-shaped outer surface and is configured to rotate with respect to a respective arm about a first axis, said respective arm is configured to selectively rotate with respect to a frame of the float unit about a second axis parallel to said first axis; and at least one powered roller motor configured to drive a powered roller contacting the pipeline to adjust a distance between the float unit and the laying vessel. 2. The pipeline guide system of claim 1 , wherein the at least one powered roller motor includes a reversible motor. 3. The pipeline guide system of claim 1 , wherein the trolley includes a brake configured to act on the pipeline. 4. The pipeline guide system of claim 3 , wherein the brake includes a pad configured to grip the pipeline. 5. The pipeline guide system of claim 1 , which includes a drive on board the laying vessel, said drive including a winch connectable by a cable to the trolley, and a winch motor configured to drive the winch to decrease the distance between the float unit and the laying vessel. 6. The pipeline guide system of claim 1 , wherein the frame of the float unit includes a compartment configured to house the trolley and the pipeline, and at least two seats located on opposite sides of said compartment, said at least two seats configured to house a plurality of floats. 7. The pipeline guide system of claim 6 , wherein the trolley includes a further frame selectively connectable to the pipeline and the frame of the float unit. 8. The pipeline guide system of claim 7 , wherein the further frame supports a plurality of additional powered rollers divided into a plurality of sets of aligned additional powered rollers, said sets of additional powered rollers configured to fit around the pipeline. 9. The pipeline guide system of claim 8 , wherein the further frame includes a plurality of actuators configured to produce a relative movement between the sets of aligned additional powered rollers to selectively grip and release the pipeline. 10. The pipeline guide system of claim 8 , wherein the frame of the float unit and the further frame include a plurality of respective connecting members configured to selectively connect the frame of the float unit to the further frame. 11. The pipeline guide system of claim 1 , wherein the frame of the float unit is configured to rest stably on the bed of the body of water. 12. The pipeline guide system of claim 1 , wherein the trolley includes a plurality of guide rollers configured to roll along a top of the pipeline. 13. The pipeline guide system of claim 12 , wherein the guide rollers are selectively movable, based on a diameter of the pipeline, with respect to the frame of the float unit. 14. The pipeline guide system of claim 1 , wherein the grip rollers remain within the confines of the frame of the float unit regardless of the respective positions of the grip rollers. 15. A pipeline guide system comprising: a float unit including a frame including a compartment configured to house a trolley and a pipeline, and at least two seats located on opposite sides of said compartment, said at least two seats configured to house a plurality of floats; the trolley selectively connectable to the pipeline which can span a designated path between a laying vessel and a bed of a body of water, said laying vessel including a drive having a winch connectable by a cable to the trolley, and said trolley being configured to roll along the pipeline, parallel to the designated path, to adjust a position of the float unit along the pipeline, wherein the trolley includes a further frame selectively connectable to the pipeline and the frame of the float unit, wherein said further frame supports a plurality of powered rollers divided into a plurality of sets of aligned powered rollers, said sets of powered rollers configured to fit around the pipeline, and said further frame includes a plurality of actuators configured to produce a relative movement between the sets of aligned powered rollers to selectively grip and release the pipeline; and a winch motor connected to the trolley and configured to drive the winch to decrease a distance between the float unit and the laying vessel. 16. The pipeline guide system of claim 15 , wherein the frame of the float unit and the further frame include a plurality of respective connecting members configured to selectively connect the frame of the float unit to the further frame. 17. The pipeline guide system of claim 15 , wherein the frame of the float unit is configured to rest stably on the bed of the body of water. 18. A pipeline guiding method comprising: selectively fitting a trolley of a float unit to a pipeline spanning a designated path between a laying vessel and a bed of a body of water, said laying vessel including a drive having a winch connectable by a cable to the trolley and said trolley including a plurality of grip rollers fitted to a frame of the float unit; moving the grip rollers between a release position and a closed position within the confines of the frame of the float unit; and utilizing a winch motor connected to the trolley to drive the winch to move the trolley, parallel to the designated path, along the pipeline to decrease a distance between the float unit and the laying vessel. 19. The pipeline guiding method of claim 18 , further comprising adjusting the trolley based on a size of the pipeline. 20. The pipeline guiding method of claim 18 , further comprising fitting the trolley to the pipeline, and then fitting the float unit to the trolley. 21. A pipeline guide system comprising: a float unit; a trolley selectively connectable to a pipeline which can span a designated path between a laying vessel and a bed of a body of water, said laying vessel including a drive having a winch connectable by a cable to the trolley, and said trolley being configured to roll along the pipeline, parallel to the designated path, to adjust a position of the float unit along the pipeline, wherein said trolley includes a plurality of guide rollers configured to roll along a top of the pipeline, the guide rollers being selectively movable, based on a diameter of the pipeline, with respect to a frame of the float unit; and a winch motor connected to the trolley and configured to drive the winch to decrease a distance between the float unit and the laying vessel. 22. A pipeline guide system comprising: a float unit; a trolley selectively connectable to a pipeline which can span a designated path between a laying vessel and a bed of a body of water, said laying vessel including a drive having a winch connectable by a cable to the trolley, and said trolley being configured to roll along the pipeline, parallel to the designated path, to adjust a position