Cryogenic circuit conditioning system

What is claimed is: 1. A device that is configured for in-flight conditioning of cryogenic circuits equipment of an aerospace vehicle, which distributes cryogenic fluids from at least one tank to an engine of the aerospace vehicle, the device comprising: means for bleeding air from outside of the aerospace vehicle during an atmospheric part of a flight comprising an intake that is configured to bleed air from a compressor of a turbine engine of the aerospace vehicle; means for extracting nitrogen from the air using a nitrogen separator of the OBIGGS type; means for distributing the nitrogen that is configured to surroundingly interface the nitrogen with the cryogenic circuits equipment, comprising a circuit of pipework having orifices that are disposed along said pipework and are calibrated to keep the cryogenic circuits equipment conditioned at an overpressure with respect to surrounds thereof, said orifices being located around the cryogenic circuits equipment and effecting a nitrogen gas sweep of the cryogenic circuits equipment with nitrogen; and drying mean located downstream of the nitrogen separator that include a discharge that is configured to dispense water to an exterior of the aerospace vehicle. 2. The device of claim 1 , wherein said means for distributing the nitrogen comprise pressure-boosting means that include a compressor. 3. The device of claim 1 , further comprising means that are configured to encapsulate the cryogenic circuits equipment that are at least one of casings and sleeves. 4. The device of claim 1 , wherein the device is configured to distribute the nitrogen around the cryogenic circuits equipment that distribute the cryogenic fluids at least during a phase of the atmospheric part of the flight of the aerospace vehicle. 5. The device of claim 1 , wherein the air intake directly draws in air from the outside the aerospace vehicle. 6. The device of claim 1 , wherein the device supplements a conditioning circuit that is external to the aircraft and connected to the aerospace vehicle and that is configured to circulate one of nitrogen and helium. 7. An aircraft comprising: a rocket motor using at least one cryogenic propellant fluid; and device that is configured for in-flight conditioning of cryogenic circuits equipment of the aircraft, which distributes cryogenic fluids from at least one tank to an engine of the aircraft and comprises an air intake that is configured to bleed air from a compressor of a turbine engine outside of the aircraft during an atmospheric part of a flight an on board inert gas generator system (OBIGGS) type nitrogen separator that is configured to extract nitrogen from the air; means for distributing the nitrogen that is configured to surroundingly interface the nitrogen with the cryogenic circuits equipment, t-comprising a circuit of pipework having orifices that are disposed along said pipework and are calibrated to keep the cryogenic circuits equipment conditioned at an overpressure with respect to surrounds thereof, said orifices being located around the cryogenic circuits equipment and effecting a nitrogen gas sweep of the cryogenic circuits equipment with nitrogen; and drying mean located downstream of the nitrogen separator that include a discharge that is configured to dispense water to an exterior of the aircraft. 8. The aircraft of claim 7 , wherein said aircraft further comprises an aerobic turbine engine so that the aircraft has dual propulsion formed by the rocket motor and the aerobatic turbine engine. 9. A method for conditioning cryogenic circuits equipment of an aerospace vehicle, the method comprising: connecting an external conditioning circuit on the ground to the aircraft and conditioning the cryogenic circuits equipment; and providing in-flight conditioning of said cryogenic circuits equipment using an device that is configured for in-flight conditioning of cryogenic circuits equipment of the aircraft, which distributes cryogenic fluids from at least one tank to an engine of the aerospace vehicle and comprises an air intake that is configured to bleed air from a compressor of a turbine engine outside of the aerospace vehicle during an atmospheric part of a flight an on board inert gas generator system (OBIGGS) type nitrogen separator that is configured to extract nitrogen from the air; means for distributing the nitrogen that is configured to surroundingly interface the nitrogen with the cryogenic circuits equipment, comprising a circuit of pipework having orifices that are disposed along said pipework and are calibrated to keep the cryogenic circuits equipment conditioned at an overpressure with respect to surrounds thereof, said orifices being located around the cryogenic circuits equipment and effecting a nitrogen gas sweep of the cryogenic circuits equipment with nitrogen; and drying mean located downstream of the nitrogen separator that include a discharge that is configured to dispense water to an exterior of the aerospace vehicle. 10. An device that is configured for in-flight conditioning of cryogenic circuits equipment of an aerospace vehicle by distributing cryogenic fluids from at least one tank to an engine of said aerospace vehicle, the device comprising: an intake that is configured to bleed air from a compressor of a turbine engine of the aerospace vehicle; an on board inert gas generator system (OBIGGS) type nitrogen separator; a circuit of nitrogen distribution pipework that is equipped with orifices that are disposed along said pipework and calibrated to keep the cryogenic circuits equipment at an overpressure with respect to surroundings thereof, said orifices being located around the cryogenic equipment, said circuit of nitrogen distribution pipework carrying nitrogen at said calibrated orifices, said calibrated orifices effecting local nitrogen gas sweep of the cryogenic circuits equipment with nitrogen; and drying means located downstream of the nitrogen separator, said drying means including a discharge that is configured to dispense of water to an outside of the aerospace vehicle. 11. The device of claim 10 , further comprising means for encapsulating the cryogenic circuits equipment that includes at least one of casings and sleeves. 12. The device of claim 10 , wherein the device is configured to distribute conditioned nitrogen around the cryogenic circuits equipment that distribute the cryogenic fluids at least during a phase of atmospheric flight of the aerospace vehicle. 13. The device as claimed in claim 10 , wherein the device supplements a ground device that is configured to condition circuits external to the aerospace vehicle by circulating one of nitrogen and helium. 14. An aircraft, comprising: a rocket motor having at least one cryogenic propellant fluid; and wherein said aircraft is an aerospace vehicle that comprises a device that is configured for in-flight conditioning of cryogenic circuits equipment of the aircraft by distributing cryogenic fluids from at least one tank to an engine of said aircraft, the device comprising an intake that is configured to bleed air from a compressor of a turbine engine of the aircraft an on board inert gas generator system (OBIGGS) type nitrogen separator; a circuit of nitrogen distribution pipework that is equipped with orifices that are disposed along said pipework and calibrated to keep the cryogenic circuits equipment at an overpressure with respect to surroundings thereof, said orifices being located around the cryogenic equipment, said circuit of nitrogen distribution pipework carrying nitrogen at said calibrated orifices, said calibrated orifices effecting local nitrogen gas sweep of the c