Patent Number: 047939648
Section: claims

1. A pressurized nuclear reactor with circulation by natural convection, comprising: a main vessel adapted to be filled with water and to be surmounted by a pressurized steam layer, said vessel containing in a lower part thereof a reactor core and in an upper part thereof a steam generator, a first ferrule surrounding the reactor core and a second ferrule located within the steam generator, said ferrules adapted to channel water between the core and the steam generator, a confinement enclosure externally duplicating the main vessel and defining with the latter an intermediate space, the main vessel being thermally uninsulated, the intermediate space having an upper zone adapted to be filled with pressurized neutral gas, an intermediate zone adapted to be filled with water and communicating with the upper zone and defined between the enclosure and a fluid-tight ferrule sealingly connecting the confinement enclosure to the vessel, above the reactor core, and a lower zone adapted to be filled with water and defined between the fluid-tight ferrule, the vessel and the enclosure, the confinement enclosure being adapted to be immersed in an external cooling liquid and internally equipped with thermal insulation in the lower zone of the intermediate space, except in a lower part of the confinement enclosure located at a level below the reactor core. 2. A nuclear reactor according to claim 1, wherein in the upper zone of the intermediate space is formed in a spherical upper part of the confinement enclosure. 3. A nuclear reactor according to claim 2, wherein, outside the upper spherical part of the confinement enclosure, the main vessel and confinement enclosure have a cylindrical configuration centered on a common vertical axis, said fluid-tight ferrule also having a cylindrical configuration centered on said axis and having an upper end fixed to the confinement enclosure at a bottom of said upper spherical part and having a lower end fixed to the main vessel. 4. A nuclear reactor according to claim 1, wherein pressure balancing means are provided between the lower zone and the upper and intermediate zones of the intermediate space. 5. A nuclear reactor according to claim 4, wherein said pressure balancing means comprise a swanneck tube projecting upwards into the intermediate zone from the fluid-tight ferrule. 6. A nuclear reactor according to claim 1, wherein the main vessel also contains an annular reflector surrounding the reactor core, said reflector being formed from several separate sectors normally located level with the core, each sector being able to move upwards with the aid of elastic means during a slope of the reactor exceeding a given angle. 7. A nuclear reactor according to claim 1, wherein the main vessel contains at least one system of absorbing elements able to move in guides provided in the reactor core during operation of control means outside the main vessel, said control means creating a rotary movement transmitted to a threaded rod located in the vessel and on which is mounted a nut carrying said system, via a mechanism incorporating at least one magnetic coupler ensuring transmission of the rotary movement through the vessel. 8. A nuclear reactor according to claim 7, wherein the control means are placed outside the confinement enclosure, said mechanism incorporating a second coupler ensuring transmission of the rotary movement through the confinement enclosure. 9. A nuclear reactor according to claim 7, wherein means are provided for automatically disconnecting said system from the nut when the pressure in the vessel exceeds a given pressure and when the water level in the vessel drops below a given level. 10. A nuclear reactor according to claim 9, wherein a tube connects the upper part of the vessel to the outside of the enclosure, said tube being equipped with a burster disk and normally closed by sealing means. 11. A nuclear reactor according to claim 7, wherein the reactor core has an active part of given height h, the guides passing beyond said active part by half said height h in downwards direction and once said height h in upwards direction. 12. A nuclear reactor according to claim 11, wherein the absorbing elements have a length equal to one and a half times the height h of the active part of the core, half said elements being absorbing over their entire length and the other half being absorbing over the upper two thirds of their length.