Method and unit for thermal conditioning, which comprises emitters with gradual ignition and extinguishment

The invention claimed is: 1. Method for thermal conditioning of a queue of preforms of containers made of plastic material within a thermal conditioning unit that defines a heating cavity and that is equipped with a row of adjacent emitters that border the cavity and that each comprise a number of monochromatic electromagnetic-radiation sources, with each preform being attached to an individual support that travels from upstream to downstream along a predetermined path in the cavity, with the queue of preforms ending on the downstream side by a head preform or on the upstream side by a tail preform, with each emitter being able to adopt an ignited state, in which the electromagnetic-radiation sources emit radiation into the cavity, and an extinguished state, in which the electromagnetic-radiation sources do not emit radiation into the cavity, this method comprising: Periodically determining the position, on the path, of the head preform, or, respectively, of the tail preform; As the queue of preforms moves along, gradually igniting the emitters that are located downstream and in the vicinity of the head preform or, respectively, gradually extinguishing the emitters that are located upstream and in the vicinity of the tail preform. 2. Method according to claim 1 , wherein the determination of the position of the head preform or the tail preform is made by means of one or more sensors. 3. Method according to claim 1 , further comprising the ignition of the emitter that is located immediately downstream from the head preform, with the emitters that are located downstream from this emitter being kept extinguished and the emitters that are located upstream from this emitter being kept ignited. 4. Method according to claim 1 , further comprising the gradual increase in electric power that is provided to multiple emitters that are located downstream and in the vicinity of the head preform that is close to the latter, until reaching a nominal power at the earliest when the latter passes by. 5. Method according to claim 1 , wherein the ignited state of the emitters is maintained until the passage of the tail preform is detected. 6. Method according to claim 1 , further comprising the keeping of the emitter that is located immediately upstream from the tail preform ignited, with the emitters that are located upstream from this emitter being extinguished and the emitters that are located downstream from this emitter kept ignited. 7. Method according to one of claim 1 , further comprising the gradual reduction in electric power provided to multiple emitters that are located upstream and in the vicinity of the tail preform as the departure of the latter proceeds, from a nominal power until extinguishment. 8. Unit for thermal conditioning of preforms of containers made of plastic material, which defines a heating cavity and is equipped with: A row of adjacent emitters that border the cavity and that each comprise a number of monochromatic electromagnetic-radiation sources, with each emitter being able to adopt an ignited state, in which the sources emit radiation into the cavity, and an extinguished state, in which the sources do not emit radiation into the cavity; A series of individual supports for the preforms, traveling from upstream to downstream along a predetermined path in the cavity; further comprising: One or more sensors that are capable of making possible the periodic determination of the position, on the path, of a head preform, or, respectively, a tail preform within a queue of preforms that travel in the cavity; A monitoring unit that is programmed gradually to ignite the emitters that are located downstream and in the vicinity of the head preform or, respectively, gradually to extinguish the emitters that are located upstream and in the vicinity of the tail preform. 9. Thermal conditioning unit according to claim 8 , wherein the sources are configured to emit in the infrared range. 10. Thermal conditioning unit according to claim 9 , wherein the sources are VCSEL diodes. 11. Method according to claim 2 , further comprising the ignition of the emitter that is located immediately downstream from the head preform, with the emitters that are located downstream from this emitter being kept extinguished and the emitters that are located upstream from this emitter being kept ignited. 12. Method according to claim 2 , further comprising the gradual increase in electric power that is provided to multiple emitters that are located downstream and in the vicinity of the head preform that is close to the latter, until reaching a nominal power at the earliest when the latter passes by. 13. Method according to claim 2 , wherein the ignited state of the emitters is maintained until the passage of the tail preform is detected. 14. Method according to claim 3 , wherein the ignited state of the emitters is maintained until the passage of the tail preform is detected. 15. Method according to claim 4 , wherein the ignited state of the emitters is maintained until the passage of the tail preform is detected. 16. Method according to 2 , further comprising the keeping of the emitter that is located immediately upstream from the tail preform ignited, with the emitters that are located upstream from this emitter being extinguished and the emitters that are located downstream from this emitter kept ignited. 17. Method according to 3 , further comprising the keeping of the emitter that is located immediately upstream from the tail preform ignited, with the emitters that are located upstream from this emitter being extinguished and the emitters that are located downstream from this emitter kept ignited. 18. Method according to 4 , further comprising the keeping of the emitter that is located immediately upstream from the tail preform ignited, with the emitters that are located upstream from this emitter being extinguished and the emitters that are located downstream from this emitter kept ignited. 19. Method according to 5 , further comprising the keeping of the emitter that is located immediately upstream from the tail preform ignited, with the emitters that are located upstream from this emitter being extinguished and the emitters that are located downstream from this emitter kept ignited. 20. Method according to claim 2 , further comprising the gradual reduction in electric power provided to multiple emitters that are located upstream and in the vicinity of the tail preform as the departure of the latter proceeds, from a nominal power until extinguishment.