Flame coating machine and method

The invention claimed is: 1. A flame coating machine configured to coat a field joint of a pipeline, the flame coating machine comprising: a flame spray system comprising a flame spray unit configured to at least one of: (i) heat an annular junction portion and two annular end portions of an applied coating that delimits the annular junction portion, and (ii) coat the annular junction portion and the two annular end portions with a thermoplastic polymer; and a control system comprising: a temperature sensor configured to acquire a plurality of temperature values along a surface defined by the annular junction portion and the two annular end portions, a control unit configured to actuate, based on the acquired temperature values and at least one threshold value, the flame spray unit in one of: a polymer flame spraying mode and a flame heating mode, a first position sensor configured to acquire a position of the flame spray unit with respect to the surface, and a second position sensor configured to acquire a position of the temperature sensor with respect to the surface. 2. The flame coating machine of claim 1 , wherein the control unit comprises a microprocessor configured to associate each acquired temperature value to an area of the surface, and compare each temperature value with a respective threshold value associated with that area of the surface. 3. The flame coating machine of claim 1 , wherein the temperature sensor is one of a pyrometer and a thermal imaging camera. 4. The flame coating machine of claim 1 , further comprising a guide system selectively clampable to the pipeline within a designated distance of the annular junction portion and configured to advance the flame spray unit and the temperature sensor along an annular path and a linear path to cover the surface. 5. The flame coating machine of claim 4 , further comprising two flame spray units and two temperature sensors. 6. The flame coating machine of claim 5 , wherein the guide system comprises: a main frame selectively clampable to the pipeline; a rotor selectively rotatable with respect to the main frame and about the pipeline; and a carriage moveable along the rotor parallel to an axis of rotation of the rotor. 7. The flame coating machine of claim 6 , wherein the carriage comprises a frame and two supports arranged at 180° apart about the axis of rotation of the rotor, each support configured to support one of the flame spray units and one of the temperature sensors. 8. The flame coating machine of claim 7 , wherein each support is adjustable in a radial direction along the main frame with respect to the axis of rotation of the rotor. 9. The flame coating machine of claim 1 , wherein the flame spray system comprises a fuel supply device configured to supply a fuel to the flame spray unit and a polymer supply device configured to supply the thermoplastic polymer to the flame spray unit.