Pipe-joining apparatus for producing underwater pipelines

The invention claimed is: 1. A pipeline field joint coating unit comprising: an extrusion outlet of an extruder for extruding a protective sheet about a cutback area along a pipeline, wherein the extrusion outlet is positioned adjacent and facing the cutback area and dimensioned so that the protective sheet exceeds the axially extending width of the cutback area; an extruder comprising a tank operatively connected to the extrusion outlet; a roller configured to be advanced about the pipeline for compressing the protective sheet on the cutback area while simultaneously winding the protective sheet there about; and a mechanism supporting the extruder, the extrusion outlet and the roller around the pipeline, the mechanism being configured to simultaneously advance the extruder, the extrusion outlet and the roller rotationally about the pipeline as the protective sheet is extruded from the extrusion outlet, and maintaining the position of the extrusion outlet relative to the cutback area. 2. The field joint coating unit as claimed in claim 1 , wherein the roller is fitted to the mechanism to simultaneously apply and compress the protective sheet. 3. The field joint coating unit as claimed in claim 1 , wherein the roller is supported by a further mechanism adjustably fixed to the mechanism to adjust the position of the roller with respect to the extrusion outlet. 4. The field joint coating unit as claimed in claim 3 , wherein said further mechanism comprises a spring for exerting thrust on the roller when applying the protective sheet. 5. The field joint coating unit as claimed in claim 1 , wherein the roller is preferably divided into a number of independent portions to effectively compress a respective portion of the protective sheet on cutback area, and the portions of the protective sheet overlapping a first coating. 6. The field joint coating unit as claimed in claim 1 , wherein the extruder includes an inlet receiving the plastic material. 7. The field joint coating unit as claimed in claim 1 , wherein the extruder includes a piston slidably positioned inside the tank; a rod fixed to piston; and an actuator for moving the rod and piston back and forth inside tank, towards the extrusion outlet when extruding the protective sheet, and in the opposite direction when extrusion is completed. 8. The field joint coating unit as claimed in claim 1 , wherein the tank includes heating elements for maintaining a temperature which enables extrusion of the protective sheet. 9. A pipe-joining and coating apparatus comprising a field joint coating unit; a plastifying unit adjacent the field joint coating unit for plastifying and transferring a plastified polymer material to the field joint coating unit; wherein the field joint coating unit comprises: an extrusion outlet for extruding a protective sheet about a cutback area located between two joined pipes being formed into a pipeline, wherein the extrusion outlet is positioned adjacent and facing the cutback area; an extruder comprising a tank operatively connected to the extrusion outlet; a roller configured to be advanced about the pipeline for compressing the protective sheet on the cutback area while simultaneously winding the protective sheet there about; and a mechanism supporting the extruder, the extrusion outlet and the roller around the pipeline, the mechanism being designed to rotate the extruder, the extrusion outlet and the roller about the pipeline as the protective sheet is extruded from the extrusion outlet, and to maintain the position of the extrusion outlet relative to the cutback area; the extrusion outlet being dimensioned so as to exceed the axial width of the cutback area. 10. The apparatus as claimed in claim 9 , wherein the plastifying unit plastifies the polymer material, originally in the form of granules or flakes, and comprises a hopper, a screw extruder, and a nozzle. 11. The apparatus as claimed in claim 9 , wherein the plastifying unit has a fixed position with respect to the field joint coating unit. 12. The apparatus as claimed in claim 9 , wherein the mechanism includes a first actuator for advancing the extruder, the extrusion outlet and the roller circumferentially about the cutback area. 13. The apparatus as claimed in claim 9 , wherein field joint coating unit includes a second actuator for setting the extruder into a feed position, in which the plastifying unit is connected to the field joint coating unit for transferring the plastified polymer material. 14. The apparatus as claimed in claim 9 , wherein the field joint coating unit is movable relative to the plastifying unit to permit feeding of plasticized material to the field joint coating unit. 15. The apparatus as claimed in claim 9 , wherein the field joint coating unit and the plastifying unit are interconnected by a pipe. 16. The apparatus as claimed in claim 9 , further comprising a control unit to control the movement and operation of the field joint coating unit, and the operation of the plastifying unit. 17. The apparatus as claimed in claim 16 , wherein the control unit coordinates the rotation speed about the cutback area of the extrusion outlet, when applying the protective sheet, with the displacement speed of the piston at the extrusion stage. 18. The apparatus as claimed in claim 17 , wherein the control unit relates the piston speed to the extrusion speed of protective sheet so as to avoid “stretching” or “folding” of the protective sheet as it is applied. 19. A pipeline field joint coating unit comprising: an extrusion outlet for extruding a protective sheet about a cutback area located along a pipeline, wherein the extrusion outlet is positioned adjacent and facing the cutback area and dimensioned so that the protective sheet exceeds the axially extending width of the cutback area; an extruder comprising a tank, which is connected to the extrusion outlet; a piston, which moves inside the tank; a rod fixed to the piston; and an actuator for moving the rod and piston back and forth inside the tank; a roller configured to be advanced about the pipeline for compressing the protective sheet on the cutback area while simultaneously winding the protective sheet there about; and a mechanism supporting the extruder, the extrusion outlet and the roller around the pipeline, the mechanism being configured to advance simultaneously the extruder, the extrusion outlet and the roller about the pipeline as the protective sheet is extruded from the extrusion outlet, and to maintain the position of the extrusion outlet relative to the cutback area. 20. The field joint coating unit as in claim 9 wherein the mechanism is movable axially between a first position at the plastifying unit and a second moved position aligned with the cutback area. 21. The field joint coating unit as in claim 1 wherein the mechanism comprises a wheel assembly having a central opening through which the pipeline is fed axially, the wheel assembly having a pair of spaced apart rings with the extruder being adjustably suspended there between, and a rotation drive to rotate the wheel assembly and the extruder in a circular path around the pipeline. 22. The field joint coating unit as in claim 9 wherein the mechanism comprises a wheel assembly having a central opening through which the pipeline is fed axially, the wheel assembly having a pair of spaced apart rings with the extruder being adjustably suspended there between, and a rotation drive to rotate the wheel assem