Nuclear reactor unit and method for cooling nuclear reactor unit

The invention claimed is: 1 . A nuclear reactor unit comprising: a reactor core that has radioactive fuel and causes the radioactive fuel to cause a nuclear reaction; a nuclear reactor vessel that houses the reactor core and hermetically seals the reactor core; and a heat conductive part inserted into the reactor core, exposed to an exterior of the reactor vessel, and transmitting heat from the reactor core to the exterior of the reactor vessel by solid heat conduction, wherein the nuclear reactor vessel includes an inner shroud that covers the entire periphery of the reactor core and an outer shroud that covers the entire periphery of the inner shroud, a first space formed by the outer shroud and the inner shroud is in a vacuum condition, a second space which is an inner space of the inner shroud is filled with an inert gas, and the inner shroud includes a main body and a communicating part that is placed in part of the main body, the communicating part communicating the first space to the second space when the reactor core reaches a threshold temperature or higher. 2 . The nuclear reactor unit according to claim 1 , wherein the communicating part includes a filling part that is formed of a material with a melting point lower than the main body and fills a hole that is formed in the main body, and the communicating part opens the hole of the main body when the threshold temperature or higher is reached and a temperature of the second space increases. 3 . The nuclear reactor unit according to claim 2 , wherein the filling part is a metal that melts when the threshold temperature or higher is reached and the temperature of the second space increases. 4 . The nuclear reactor unit according to claim 2 , wherein the filling part is broken by differential pressure between the first space and the second space when the threshold temperature or higher is reached to open the hole of the main body. 5 . The nuclear reactor unit according to claim 1 , wherein the communicating part includes: a plate part that is placed in a hole of the main body and is pivotable with respect to the main body; and a coupling part that is formed of a material with a melting point lower than the main body and couples the plate part to the main body, and when the reactor core reaches the threshold temperature or higher and a temperature of the second space increases, the coupling part is detached from at least one of the main body and the plate part. 6 . The nuclear reactor unit according to claim 5 , wherein the coupling part is a metal that melts when the threshold temperature or higher is reached and the temperature of the second space increases. 7 . The nuclear reactor unit according to claim 5 , wherein a pivot shaft of the plate part does not pass through the center of gravity of the plate part. 8 . The nuclear reactor unit according to claim 1 , further comprising a heat conductive part that conducts heat generated in the reactor core to outside of the nuclear reactor vessel by solid heat conduction. 9 . A method for cooling a nuclear reactor unit that includes a reactor core that has radioactive fuel and causes the radioactive fuel to cause a nuclear reaction, a nuclear reactor vessel that houses the reactor core and hermetically seals the reactor core and a heat conductive part inserted into the reactor core, exposed to an exterior of the reactor vessel, and transmitting heat from the reactor core to the exterior of the reactor vessel by solid heat conduction, wherein the nuclear reactor vessel includes an inner shroud that covers the entire periphery of the reactor core and an outer shroud that covers the entire periphery of the inner shroud, a first space formed by the outer shroud and the inner shroud is in a vacuum condition, a second space which is an inner space of the inner shroud is filled with an inert gas, and the inner shroud includes a main body and a communicating part that is placed in part of the main body, the method comprising causing the communicating part to break the vacuum condition of the first space by communicating the first space to the second space when the reactor core reaches a threshold temperature or higher.