Installation for thermally conditioning preforms with one portion of the preform being cooled by a blown blade of air

The invention claimed is: 1. A thermal conditioning installation, in series production, of cold preforms of thermoplastic material configured to be transformed into finished containers by forming, each preform having a vertical main axis that goes through a neck, the installation comprising: at least one holding device configured to hold a preform by the neck in a thermal conditioning zone, the thermal conditioning zone being divided vertically into a first heating part that is configured to accommodate a body of the preform, the first heating part being exposed to at least one heating device configured to heat the body of the preform, and a second cooling part that is configured to accommodate the neck of the preform; and at least one cooling device configured to cool at least one portion of the surface of the preform by producing a gas flow that passes through the thermal conditioning zone, the at least one cooling device producing a blade of blown gas having a laminar flow through an axial outlet slot that is at right angles to its direction of flow, the at least one cooling device being configured such that the produced blade of blown gas still has a laminar flow when the produced blade of blown gas reaches the preform. 2. The installation according to claim 1 , wherein the cooling device has a pressure chamber that is supplied with compressed gas, one side of pressure chamber forming a linear converging nozzle that comes out through the outlet slot of the blade of blown gas. 3. The installation according to claim 2 , wherein the thermal conditioning zone forms a passageway through which the preforms pass at right angles to their vertical axis by movement of the at least one holding device. 4. The installation according to claim 3 , wherein the heating part and the cooling part are separated by two longitudinal separation rails that transversely delimit a longitudinal passage to enable the advance of the preforms astride the heating and cooling parts of the thermal conditioning zone. 5. The installation according to claim 4 , wherein the outlet slot for the blade of blown gas is oriented parallel to the direction of movement of the preforms. 6. The installation according to claim 5 , wherein the outlet slot of the cooling device is positioned in the vicinity of the cooling part, the direction of flow of the blade of blown gas being pointed toward the neck of the preforms. 7. The installation according to claim 6 , wherein the outlet slot is disposed vertically at the same height as the neck of the preforms, the direction of flow of the blade of blown gas being perpendicular to the vertical axis of the preform. 8. The installation according to claim 4 , wherein the outlet slot is disposed vertically under the neck of the preform, the direction of flow of the blade of blown gas forming, with the vertical axis of the preform, an angle of inclination, the direction of flow being pointed, beyond the neck of the preform, toward the passage delimited between the two rails. 9. The installation according to claim 6 , wherein the cooling device is mounted to move between a first position in which the direction of flow is oriented transversely, and a second position in which the direction of flow is pointed toward the passage delimited between the two rails. 10. The installation according to claim 6 , wherein the cooling device is positioned under one of the rails. 11. The installation according to claim 10 , wherein a gap is maintained between the rail and the cooling device to enable the suction of air, by Venturi effect, between the rail and the cooling device by the blade of blown gas. 12. The installation according to claim 5 , wherein the blade of blown gas is injected directly into the heating part. 13. The installation according to claim 12 , wherein the direction of flow of the blade of blown gas is directed parallel to the vertical axis of the preform. 14. The installation according to claim 13 , wherein the blade of blown gas is tangent to the body of the preform. 15. The installation according to claim 13 , wherein the axis of flow of the blade of blown gas is positioned at a specific transverse distance from the surface of the preform. 16. The installation according to claim 13 , wherein the outlet slot is mounted to slide transversely to enable adjusting the transverse position of the blade of blown gas in the heating part. 17. The installation according to claim 13 , wherein the direction of flow of the blade of blown gas is perpendicular to the vertical axis of the preform, the blade of blown gas being pointed toward a specific segment to be cooled of the body of the preform. 18. The installation according to claim 17 , wherein the outlet slot is mounted to move vertically to enable selecting the segment to be cooled of the body. 19. The installation according to claim 3 , wherein the preforms pass through the thermal conditioning zone while rotating about themselves at a specific speed of revolution, the at least one cooling device includes a plurality of cooling devices, the outlet slot of each of said cooling devices being positioned parallel to the axis of the preforms, each blade of blown gas being injected directly into the heating part, the direction of flow of each blade of blown gas being oriented normally in the direction of advance of the preforms, the blades of blown gas being separated from one another by a specific span so as to ensure that a specific section of the body of each preform is cooled successively by each blade of blown gas. 20. The installation according to claim 12 , further comprising vents that are positioned opposite the outlet slot in relation to the heating part to enable the venting of the blade of blown gas from the heating part. 21. The installation according to claim 1 , wherein the at least one cooling device is configured such that the produced blade of blown gas is laminar along an effective distance of at least 15 mm.