Method for managing preforms immobilized in a heating station following an interruption in production

The invention claimed is: 1. A method for controlling confined preforms ( 12 ) which are stopped in a heating station ( 10 ) during a production interruption, the heating station ( 10 ) comprising: a device ( 14 ) for conveying preforms ( 12 ) comprising individual supports ( 16 ) which move in a closed circuit, each individual support ( 16 ) being intended to transport a preform ( 12 ) with continuous movement along a predetermined transport path ( 18 ) from an input location (A) to an output location (B), a heating cavity ( 30 ) which is bordered by at least one row of transmitters ( 32 ) of monochromatic electromagnetic radiation controlled between a switched-off state and a switched-on state, the transport path ( 18 ) extending through the heating cavity ( 30 ); the method comprising a step (E 1 ) of restarting the conveying device ( 14 ) for transporting the confined preforms ( 12 ) in the direction of the output location (B); and a step (E 3 ) of heating, by the transmitters ( 32 ) of the heating cavity ( 30 ), the confined preforms referred to as “cold” preforms which have been stopped before being exposed to the electromagnetic radiation emitted by the transmitters ( 32 ). 2. The method as claimed in claim 1 , wherein the cold confined preforms ( 12 ) are heated directly after restarting the conveying device ( 14 ) when they pass into the heating cavity ( 30 ) without being ejected from the individual support ( 16 ) carrying them during their stoppage. 3. The method as claimed in claim 1 , wherein the transmitters ( 32 ) of the heating cavity ( 30 ) are switched off during the production interruption and they are controlled in their switched-on state during the step (E 3 ) of heating the cold confined preforms. 4. The method as claimed in claim 1 , wherein, during the heating step (E 3 ), the cold confined preforms ( 12 ) are heated in accordance with a thermal profile which enables them to be subsequently molded by a molding station of the production installation. 5. The method as claimed in claim 4 , wherein the preforms ( 12 ) are heated in accordance with a predetermined thermal profile which was already applied to the preforms ( 12 ) just before the production interruption. 6. The method as claimed in claim 1 , wherein the heating station ( 10 ) is part of an installation for producing receptacles of thermoplastic material by molding heated preforms by the heating station ( 10 ), the preforms ( 12 ) moving along a production flow, the method comprising a purge step (E 2 ) during which the confined preforms ( 12 ) which are referred to as “hot” preforms and which have been stopped after being exposed to the electromagnetic radiation transmitted by the transmitters ( 32 ) are ejected from the production flow in the direction of a waste flow ( 38 ). 7. The method as claimed in claim 6 , wherein, during the purge step (E 2 ), the hot confined preforms ( 12 ) are ejected from the transport path upstream of the output location (B). 8. The method as claimed in claim 6 , wherein the hot confined preforms ( 12 ) are ejected from the production flow downstream of the output location (B) of the heating station ( 10 ). 9. The method as claimed in claim 2 , wherein the transmitters ( 32 ) of the heating cavity ( 30 ) are switched off during the production interruption and they are controlled in their switched-on state during the step (E 3 ) of heating the cold confined preforms. 10. The method as claimed in claim 2 , wherein, during the heating step (E 3 ), the cold confined preforms ( 12 ) are heated in accordance with a thermal profile which enables them to be subsequently molded by a molding station of the production installation. 11. The method as claimed in claim 3 , wherein, during the heating step (E 3 ), the cold confined preforms ( 12 ) are heated in accordance with a thermal profile which enables them to be subsequently molded by a molding station of the production installation. 12. The method as claimed in claim 2 , wherein the heating station ( 10 ) is part of an installation for producing receptacles of thermoplastic material by molding heated preforms by the heating station ( 10 ), the preforms ( 12 ) moving along a production flow, the method comprising a purge step (E 2 ) during which the confined preforms ( 12 ) which are referred to as “hot” preforms and which have been stopped after being exposed to the electromagnetic radiation transmitted by the transmitters ( 32 ) are ejected from the production flow in the direction of a waste flow ( 38 ). 13. The method as claimed in claim 3 , wherein the heating station ( 10 ) is part of an installation for producing receptacles of thermoplastic material by molding heated preforms by the heating station ( 10 ), the preforms ( 12 ) moving along a production flow, the method comprising a purge step (E 2 ) during which the confined preforms ( 12 ) which are referred to as “hot” preforms and which have been stopped after being exposed to the electromagnetic radiation transmitted by the transmitters ( 32 ) are ejected from the production flow in the direction of a waste flow ( 38 ). 14. The method as claimed in claim 4 , wherein the heating station ( 10 ) is part of an installation for producing receptacles of thermoplastic material by molding heated preforms by the heating station ( 10 ), the preforms ( 12 ) moving along a production flow, the method comprising a purge step (E 2 ) during which the confined preforms ( 12 ) which are referred to as “hot” preforms and which have been stopped after being exposed to the electromagnetic radiation transmitted by the transmitters ( 32 ) are ejected from the production flow in the direction of a waste flow ( 38 ). 15. The method as claimed in claim 5 , wherein the heating station ( 10 ) is part of an installation for producing receptacles of thermoplastic material by molding heated preforms by the heating station ( 10 ), the preforms ( 12 ) moving along a production flow, the method comprising a purge step (E 2 ) during which the confined preforms ( 12 ) which are referred to as “hot” preforms and which have been stopped after being exposed to the electromagnetic radiation transmitted by the transmitters ( 32 ) are ejected from the production flow in the direction of a waste flow ( 38 ).