Patent Number: 
Section: claims

1. A fast reactor comprising:a plurality of fuel assemblies forming a reactor core;a reactivity control assembly including a reactor shutdown rod of a backup reactor shutdown system and sectional neutron absorbers disposed around the reactor shutdown rod to suppress initial surplus reactivity, the reactor shutdown rod and the neutron absorbers being arranged in a hexagonal barrel-shaped wrapper tube at the center of the reactor core;a core barrel surrounding outer periphery of the reactor core;a reflector surrounding the outer periphery of the core barrel and adapted to move up and down;a bulkhead surrounding outer periphery of the reflector and forming an inner wall of a coolant flow channel of primary coolant;an upper support plate supporting the core barrel and the bulkhead;an intermediate heat exchanger arranged in an annular space above the upper support plate;an electromagnetic pump arranged below the intermediate heat exchanger;a reactor vessel containing the fuel assemblies, the reactivity control assembly, the reflector, the bulkhead, the intermediate heat exchanger and the electromagnetic pump and including an upper opening;an upper plug plugging the upper opening of the reactor vessel;a reactor shutdown rod drive mechanism for causing an inner extension tube to fall and to release the reactor shutdown rod by a gripper section that includes latch fingers, at a lowermost end of an outer extension tube by turning off power supply to a holding magnet at a time of scram; anda plurality of units of neutron absorber drive mechanism, each including a dual tube drive shaft including an outer extension shaft and an inner extension shaft, the outer extension shaft being adapted to be pulled up to allow both of the inner and outer extension shafts to be inserted and pushed down after getting to a handling head section of the neutron absorber so as to grasp the neutron absorber externally by the latch fingers of the gripper section and hang up entirely with the drive shaft to individually move the neutron absorber up and down, wherein the reactor shutdown rod drive mechanism and the neutron absorber drive mechanism are integrally formed and arranged at a center of the upper plug,wherein:the reactor shutdown rod has a cylindrical profile and a head is formed at the top of the reactor shutdown rod;the reactivity control assembly includes a cylindrical guide tube arranged in the wrapper tube to surround the reactor shutdown rod and the plurality of sectional neutron absorbers arranged peripherally between the guide tube and the wrapper tube, anda cylindrical neutron absorber handling rod is arranged so as to project from a top of the reactivity control assembly when the neutron absorber moves to a lowest position, a neutron absorber handling head being formed at a top of the neutron absorber handling rod. 2. A fast reactor comprising:a plurality of fuel assemblies forming a reactor core;a reactivity control assembly including a reactor shutdown rod of a backup reactor shutdown system and sectional neutron absorbers disposed around the reactor shutdown rod to suppress initial surplus reactivity, the reactor shutdown rod and the neutron absorbers being arranged in a hexagonal barrel-shaped wrapper tube at the center of the reactor core;a core barrel surrounding outer periphery of the reactor core;a reflector surrounding the outer periphery of the core barrel and adapted to move up and down;a bulkhead surrounding outer periphery of the reflector and forming an inner wall of a coolant flow channel of primary coolant;an upper support plate supporting the core barrel and the bulkhead;an intermediate heat exchanger arranged in an annular space above the upper support plate;an electromagnetic pump arranged below the intermediate heat exchanger;a reactor vessel containing the fuel assemblies, the reactivity control assembly, the reflector, the bulkhead, the intermediate heat exchanger and the electromagnetic pump and including an upper opening;an upper plug plugging the upper opening of the reactor vessel;a reactor shutdown rod drive mechanism for causing an inner extension tube to fall and to release the reactor shutdown rod by a gripper section that includes latch fingers, at a lowermost end of an outer extension tube by turning off power supply to a holding magnet at a time of scram; anda plurality of units of neutron absorber drive mechanism, each including a dual tube drive shaft including an outer extension shaft and an inner extension shaft, the outer extension shaft being adapted to be pulled up to allow both of the inner and outer extension shafts to be inserted and pushed down after getting to a handling head section of the neutron absorber so as to grasp the neutron absorber externally by the latch fingers of the gripper section and hang up entirely with the drive shaft to individually move the neutron absorber up and down, wherein the reactor shutdown rod drive mechanism and the neutron absorber drive mechanism are integrally formed and arranged at a center of the upper plug,wherein:the reactor shutdown rod drive mechanism includes:a latch link for opening the holding magnet when the holding magnet is de-excited to release the inner extension tube,a rod vertically running through the holding magnet;an armature arranged under the holding magnet in contact with the holding magnet, anda backup de-latch drive motor for forcibly releasing the armature from the holding magnet by pushing down the rod and by turn pushing down the armature by means of the rod. 3. A fast reactor comprising:a plurality of fuel assemblies forming a reactor core;a reactivity control assembly including a reactor shutdown rod of a backup reactor shutdown system and sectional neutron absorbers disposed around the reactor shutdown rod to suppress initial surplus reactivity, the reactor shutdown rod and the neutron absorbers being arranged in a hexagonal barrel-shaped wrapper tube at the center of the reactor core;a core barrel surrounding outer periphery of the reactor core;a reflector surrounding the outer periphery of the core barrel and adapted to move up and down;a bulkhead surrounding outer periphery of the reflector and forming an inner wall of a coolant flow channel of primary coolant;an upper support plate supporting the core barrel and the bulkhead;an intermediate heat exchanger arranged in an annular space above the upper support plate;an electromagnetic pump arranged below the intermediate heat exchanger;a reactor vessel containing the fuel assemblies, the reactivity control assembly, the reflector, the bulkhead, the intermediate heat exchanger and the electromagnetic pump and including an upper opening;an upper plug plugging the upper opening of the reactor vessel;a reactor shutdown rod drive mechanism for causing an inner extension tube to fall and to release the reactor shutdown rod by a gripper section that includes latch fingers, at a lowermost end of an outer extension tube by turning off power supply to a holding magnet at a time of scram; anda plurality of units of neutron absorber drive mechanism, each including a dual tube drive shaft including an outer extension shaft and an inner extension shaft, the outer extension shaft being adapted to be pulled up to allow both of the inner and outer extension shafts to be inserted and pushed down after getting to a handling head section of the neutron absorber so as to grasp the neutron absorber externally by the latch fingers of the gripper section and hang up entirely with the drive shaft to individually move the neutron absorber up and down, wherein the reactor shutdown rod drive mechanism and the neutron absorber drive mechanism are integrally formed and arranged at a center of the upper plug,wherein:the units of the neutron absorber drive mechanism are arranged around the reactor shutdown rod drive mechanism at regular intervals;the drive shaft of each of the units of the neutron absorber drive mechanism has a dual tube structure having the outer extension shaft and the inner extension shaft offset midway relative to each other, the gripper section being arranged at a bottom end of the inner extension shaft to externally grasp the handling head of the neutron absorber, a drive shaft supporting stopper being arranged at a top end of the inner extension shaft; andan entire outer housing has a sealed structure in addition to the cover gas seal section arranged on the upper surface of the upper plug. 4. The fast reactor according to claim 1, whereinthe reactor shutdown rod drive mechanism includes: an extension tube latch mechanism for hanging up an upper part of the outer extension tube; anda power cylinder arranged in the extension tube latch mechanism for pushing up only the outer extension tube; whereinthe latch finger grasping the reactor shutdown rod handling head is closed to allow the reactor shutdown rod to make a freefall when the outer extension tube is pushed up by the power cylinder. 5. The fast reactor according to claim 1, whereina large rectifier plate is arranged at a lower end of a protection barrel to allow entire reactor core to be projected on it. 6. The fast reactor according to claim 1, further comprising:a fuel loading/unloading machine inserted into an opening of the upper plug produced when the reactivity control assembly drive mechanism is removed; whereinthe fuel loading/unloading machine includes:a winching mechanism supported on a base arranged above the opening of the upper plug so as to be capable of horizontally moving in mutually orthogonal two directions; anda support mechanism for temporarily storing the fuel assembly hung up by the winching mechanism. 7. The fast reactor according to claim 1, further comprising:fuel loading/unloading rails of at least two routes arranged on a ceiling of a reactor building containing the reactor vessel to support the fuel loading/unloading machine, allowing the fuel loading/unloading machine to move in horizontal directions;a reactor pit plug arranged above the upper plug at the height of the ceiling of the reactor building; anda floor door valve capable of rotating around a vertical axis relative to the reactor pit plug and capable of opening, whereinthe winching mechanism being arranged above an opening of the floor door valve so as to be able to move to right above all of the plurality of fuel assemblies in the reactor core. 8. The fast reactor according to claim 2, whereinthe reactor shutdown rod drive mechanism includes: an extension tube latch mechanism for hanging up an upper part of the outer extension tube; anda power cylinder arranged in the extension tube latch mechanism for pushing up only the outer extension tube; whereinthe latch finger grasping the reactor shutdown rod handling head is closed to allow the reactor shutdown rod to make a freefall when the outer extension tube is pushed up by the power cylinder. 9. The fast reactor according to claim 2, whereina large rectifier plate is arranged at a lower end of a protection barrel to allow entire reactor core to be projected on it. 10. The fast reactor according to claim 2, further comprising:a fuel loading/unloading machine inserted into an opening of the upper plug produced when the reactivity control assembly drive mechanism is removed; whereinthe fuel loading/unloading machine includes:a winching mechanism supported on a base arranged above the opening of the upper plug so as to be capable of horizontally moving in mutually orthogonal two directions; anda support mechanism for temporarily storing the fuel assembly hung up by the winching mechanism. 11. The fast reactor according to claim 2, further comprising:fuel loading/unloading rails of at least two routes arranged on a ceiling of a reactor building containing the reactor vessel to support the fuel loading/unloading machine, allowing the fuel loading/unloading machine to move in horizontal directions;a reactor pit plug arranged above the upper plug at the height of the ceiling of the reactor building; anda floor door valve capable of rotating around a vertical axis relative to the reactor pit plug and capable of opening, whereinthe winching mechanism being arranged above an opening of the floor door valve so as to be able to move to right above all of the plurality of fuel assemblies in the reactor core. 12. The fast reactor according to claim 3, whereinthe reactor shutdown rod drive mechanism includes: an extension tube latch mechanism for hanging up an upper part of the outer extension tube; anda power cylinder arranged in the extension tube latch mechanism for pushing up only the outer extension tube; whereinthe latch finger grasping the reactor shutdown rod handling head is closed to allow the reactor shutdown rod to make a freefall when the outer extension tube is pushed up by the power cylinder. 13. The fast reactor according to claim 3, whereina large rectifier plate is arranged at a lower end of a protection barrel to allow entire reactor core to be projected on it. 14. The fast reactor according to claim 3, further comprising:a fuel loading/unloading machine inserted into an opening of the upper plug produced when the reactivity control assembly drive mechanism is removed; whereinthe fuel loading/unloading machine includes:a winching mechanism supported on a base arranged above the opening of the upper plug so as to be capable of horizontally moving in mutually orthogonal two directions; anda support mechanism for temporarily storing the fuel assembly hung up by the winching mechanism. 15. The fast reactor according to claim 3, further comprising:fuel loading/unloading rails of at least two routes arranged on a ceiling of a reactor building containing the reactor vessel to support the fuel loading/unloading machine, allowing the fuel loading/unloading machine to move in horizontal directions;a reactor pit plug arranged above the upper plug at the height of the ceiling of the reactor building; anda floor door valve capable of rotating around a vertical axis relative to the reactor pit plug and capable of opening, whereinthe winching mechanism being arranged above an opening of the floor door valve so as to be able to move to right above all of the plurality of fuel assemblies in the reactor core.