Method for cooling a mould by circulating a heat-transfer fluid in contact with the external face thereof

The invention claimed is: 1. Method for cooling a heated mould ( 12 , 14 , 16 ) of a device ( 10 ) for blow-moulding thermoplastic containers, the device comprising: a mould ( 12 , 14 , 16 ) having an internal face which delimits a moulding cavity ( 18 ) and which comprises an external face ( 20 , 28 ) which surrounds the moulding cavity ( 18 ); and heating means for heating the mould to a determined temperature and which are deactivated when the cooling method is implemented, characterized in that wherein the mould ( 12 , 14 , 16 ) is cooled by circulating a heat-transfer fluid directly in contact with the external face ( 20 , 28 ) thereof, and wherein the heat-transfer fluid is formed of a pressurized gas which under goes an expansion as the gas circulates against the external face ( 20 , 28 ) of the mould ( 12 , 14 , 16 ). 2. Method according to claim 1 , wherein the means for heating are formed by electrical resistances which are interposed in the thickness of the mould ( 12 , 14 , 16 ) between the moulding cavity ( 18 ) and the external face ( 20 , 28 ). 3. Moulding device ( 10 ) for implementing the method according to claim 1 , in which: the mould ( 12 ) is formed by the union of two half-moulds ( 14 , 16 ) each comprising a union face ( 26 ) in which part of the moulding cavity ( 18 ) is formed and an opposite external face ( 28 ) that forms part of the external face ( 20 ) of the mould ( 12 ); each half-mould ( 14 , 16 ) is fixed in a housing ( 40 ) of an associated support ( 22 , 24 ) with an empty space ( 44 ) reserved between the bottom ( 42 ) of the housing ( 40 ) and the external face ( 28 ) of the half-mould ( 14 , 16 ); wherein the moulding device ( 10 ) comprises at least one controlled heat-transfer fluid feed duct ( 50 ) which opens into the empty space ( 44 ) to allow the heat-transfer fluid to circulate between the external face ( 28 ) of the half-mould ( 14 , 16 ) and the bottom ( 42 ) of the housing ( 40 ), and wherein the means for heating is formed by electrical resistances which are interposed in the thickness of the mould ( 12 , 14 , 16 ) between the moulding cavity ( 18 ) and the external face ( 20 , 28 ). 4. Device ( 10 ) according to claim 3 , wherein the empty space ( 44 ) is open to the atmosphere to allow the heat-transfer fluid to be discharged. 5. Device ( 10 ) according to claim 3 , wherein the feed duct ( 50 ) opens into the bottom ( 42 ) of the housing ( 40 ). 6. Device ( 10 ) according to claim 5 , wherein the feed duct ( 50 ) comprises several orifices ( 52 ) opening into the bottom ( 42 ) of the housing ( 40 ), the orifices ( 52 ) being distributed over the said bottom ( 42 ). 7. Device ( 10 ) according to claim 5 , wherein the feed duct ( 50 ) is produced in the thickness of the support ( 22 ). 8. Device ( 10 ) according to claim 4 , wherein the feed duct ( 50 ) opens into the bottom ( 42 ) of the housing ( 40 ). 9. Device ( 10 ) according to claim 8 , wherein the feed duct ( 50 ) comprises several orifices ( 52 ) opening into the bottom ( 42 ) of the housing ( 40 ), the orifices ( 52 ) being distributed over the said bottom ( 42 ). 10. Device ( 10 ) according to claim 6 , wherein the feed duct ( 50 ) is produced in the thickness of the support ( 22 ). 11. Device ( 10 ) according to claim 9 , wherein the feed duct ( 50 ) is produced in the thickness of the support ( 22 ). 12. Device ( 10 ) according to claim 4 , wherein the feed duct ( 50 ) is produced in the thickness of the support ( 22 ). 13. Device ( 10 ) according to claim 12 , wherein the feed duct ( 50 ) comprises several orifices ( 52 ) opening into the bottom ( 42 ) of the housing ( 40 ), the orifices ( 52 ) being distributed over said bottom ( 42 ). 14. Device ( 10 ) according to claim 6 , wherein the feed duct ( 50 ) is produced in the thickness of the support ( 22 ). 15. Device ( 10 ) according to claim 13 , wherein the feed duct ( 50 ) is produced in the thickness of the support ( 22 ). 16. A method for cooling a heated mould of a device for blow-moulding thermoplastic containers, comprising the steps of: after heating a mould to a determined temperature, deactivating the heating and commencing a cooling step of cooling the mould, the mould having i) an internal face which delimits a moulding cavity ( 18 ) with a hollow cylinder of revolution around a vertical main axis (A), ii) an external face ( 20 , 28 ) that surrounds the moulding cavity, iii) a support ( 22 , 24 ) with a housing that surrounds the external face, iv) a space ( 44 ) located between the external face of the mould and an interior face of the housing of the support, and v) a heat-transfer fluid feed duct ( 50 ) which opens into the space ( 44 ) located between the external face of the mould and the interior face of the housing of the support, the cooling step comprising feeding a pressurized gas at a first temperature through the fluid feed duct directly into the space ( 44 ) and circulating the gas within the space ( 44 ) directly in contact with the external face of the mould, wherein the gas is made to undergo an expansion as the gas circulates against the external face of the mould, the expansion of the gas causing a drop in temperature of the gas to a second temperature as the gas circulates against the external face of the mould, the second temperature being lower than the first temperature, and the gas acting as a heat-transfer fluid to cool the external face of the mould.