Machine and method for making a protective joint about an annular junction portion of a pipeline

The invention claimed is: 1. A machine comprising: a guide system selectively clampable about a pipeline on opposite sides of an annular junction portion of the pipeline, wherein the guide system defines an annular path about the annular junction portion; a heating unit moveable along the annular path and configured to heat the annular junction portion; a spray unit moveable along the annular path and configured to apply a polymer material to the annular junction portion; and an extrusion die moveable along the annular path and configured to apply a protective foil about the annular junction portion. 2. The machine of claim 1 , wherein: the heating unit has a width commensurate to a width of the annular junction portion and the heating unit is configured to heat the annular junction portion in one revolution about the annular junction portion, the spray unit has a width commensurate to the width of the annular junction portion and the spray unit is configured to apply the polymer material to the annular junction portion in one revolution about the annular junction portion, and the extrusion die has a width commensurate to the width of the annular junction portion and the extrusion die is configured to apply the protective foil about the annular junction portion in one revolution about the annular junction portion. 3. The machine of claim 1 , further comprising a control system configured to control a position of the heating unit along the annular path, a position of the spray unit along the annular path, and a position of the extrusion die along the annular path. 4. The machine of claim 1 , further comprising a control system configured to control an operating status of the heating unit, an operating status of the spray unit, and an operating status of the extrusion die. 5. The machine of claim 1 , further comprising a carriage advanceable along the annular path in a first direction about the annular junction portion and advanceable in a second direction opposite to the first direction, wherein the heating unit, the spray unit and the extrusion die are each mounted on the carriage. 6. The machine of claim 5 , wherein the heating unit, the spray unit and the extrusion die are sequentially arranged along the carriage. 7. The machine of claim 5 , further comprising another heating unit and another spray unit mounted on the carriage. 8. The machine of claim 7 , wherein the heating unit and the other heating unit are mounted on opposite ends of the carriage. 9. The machine of claim 7 , wherein the heating unit and the other heating unit are mounted 180° apart from each other. 10. The machine of claim 7 , wherein each spray unit is mounted between the extrusion die and one of the heating units. 11. The machine of claim 1 , wherein the heating unit and the spray unit are part of an assembly comprising: a plurality of nozzles distributed along a direction parallel to a longitudinal axis of the pipeline, and a U-shaped inductor arranged about the plurality of nozzles. 12. A method for making a protective joint about an annular junction portion of a pipeline, the method comprising: clamping a guide system to the pipeline about the annular junction portion, wherein the guide system defines an annular path about the annular junction portion; simultaneously advancing a heating unit, a spray unit, and an extrusion die along the annular path; heating, via the heating unit, the annular junction portion; applying a polymer material, via the spray unit, to the annular junction portion; applying a protective foil, via the extrusion die, about the annular junction portion and end portions of a coating that delimits the annular junction portion; and uncoupling the guide system from the pipeline. 13. The method of claim 12 , wherein: the heating unit has a width commensurate to a width of the annular junction portion such that heating the annular junction portion occurs in one revolution about the annular junction portion, the spray unit has a width commensurate to the width of the annular junction such that applying the polymer material to the annular junction portion occurs in one revolution about the annular junction portion, and the extrusion die has a width commensurate to the width of the annular junction portion such that applying the protective foil about the annular junction portion occurs in one revolution about the annular junction portion. 14. The method of claim 12 , further comprising controlling, via a control system, a position of the heating unit along the annular path, a position of the spray unit along the annular path, and a position of the extrusion die along the annular path. 15. The method of claim 12 , further comprising controlling, via a control system, an operating status of the heating unit, an operating status of the spray unit, and an operating status of the extrusion die. 16. The method of claim 12 , further comprising advancing a carriage along the annular path in a first direction about the annular junction portion and advancing the carriage in a second direction opposite to the first direction about the annular junction portion, wherein the heating unit, the spray unit and the extrusion die are each mounted to the carriage. 17. The method of claim 12 , wherein heating the annular junction portion, spraying the polymer material and applying the protective foil sequentially occurs during a revolution of the carriage in a first direction about the annular junction portion and returning the carriage occurs in a revolution of the carriage in a second direction opposite to the first direction. 18. The method of claim 12 , further comprising advancing along the annular path another heating unit and another spray unit. 19. The method of claim 12 , wherein applying the protective foil occurs after the polymer material has been applied along the entire annular junction portion.