Method of heating preforms for the manufacture of containers

The invention claimed is: 1. A method of heating a plastic preform for the manufacture of a container by forming it from the preform, the preform comprising a body and a bottom, comprising: a step of transporting the preform along a predetermined path with rotation of the preform about its axis; and a step of heating the preform along said path by means of infrared radiation sources disposed along said path, wherein the step of heating includes regulating power to the radiation sources so as to regulate the intensity of emitted radiation of the radiation sources to have a periodic character along the path, so as to heat selectively at least one angular section of the preform, along a principal axis of the preform, along the body and on the bottom of the preform, wherein the radiation sources are regulated to alternatingly emit zones of more intense radiation and emit zones of radiation of comparatively less intensity along said path. 2. The method of heating according to claim 1 , wherein the alternation is equal to or less than the distance travelled by the preform, during one complete rotation about its axis. 3. The method of heating according claim 1 , wherein the intensity of the radiation is periodic along the path. 4. The method of heating according to claim 3 , wherein the period of the intensity of the radiation is equal or approximately equal to the distance travelled by the preform for a rotation of a half-revolution about its axis. 5. The method of heating according to claim 3 , wherein the period of the intensity of the radiation is equal or approximately equal to the distance travelled by the preform for a rotation of one revolution about its axis. 6. The method of heating according to claim 1 , wherein the intensity of the radiation has a continuously variable profile along the path. 7. The method of heating according to claim 1 , wherein the intensity of the radiation has an approximately sinusoidal profile along the path. 8. The method of heating according to claim 1 , wherein the intensity of the radiation has an approximately crenellated profile along the path. 9. The method of heating according to claim 1 , wherein the infrared radiation sources are laser diodes, and the step of regulating the intensity of the emitted radiation is performed by regulating a power of the laser diodes. 10. The method of heating according to claim 1 , wherein the at least one angular section of the preform is elongated in a vertical direction parallel to the preform axis of revolution and perpendicular to a direction of movement of the preform along the path. 11. The method of heating according to claim 10 , wherein the at least one angular section extends from the bottom of the preform to, but not including, a neck of the preform. 12. A method of heating a plastic preform for the manufacture of a container by forming it from the preform, comprising: transporting the preform along a predetermined path while rotating the preform about a longitudinal axis thereof; and heating the preform during the transporting and the rotating of the preform, continuously along the predetermined path, wherein the heating includes regulating power to a matrix of diodes disposed on an emitting wall that is disposed along one side of the predetermined path, so as to regulate an intensity of radiation being emitted directly from the diodes to the preform continuously along the predetermined path, the intensity of the radiation being emitted directly from the diodes with alternating intensity in adjacent zones along the predetermined path, so that the adjacent zones disposed along the predetermined path include the alternating intensity of relatively higher and lower intense radiation with respect to each other, the alternation of the intensity having a periodic character, so as to selectively heat an angular section of the preform that includes a body and a bottom of the preform, at a constant intensity of radiation along a longitudinal axis of the preform, with more or less intense radiation than an adjacent angular section of the preform.