Patent Number: 047770139
Section: claims

1. A nuclear reactor, in particular a high-temperature reactor, with a reactor protecting building and therein a reactor pressure container in particular made of concrete, which is provided with at least one valve designed as a spring valve to limit the pressure in the reactor pressure container in the event of nuclear reactor overheating and which is provided with a liner on its inside and associated with cooling ducts communicating with at least one liner cooling equipment, characterized in that the valve spring (44) of a valve 38 consists of a material with a spring constant decreasing as the temperature rises and is subject to the heat of the gas flowing out when the valve 38 is open and that at least one cooling apparatus (25) is provided to cool at least one of the valve spring (44) and the gas before if flows out, said apparatus being connected to at least one liner cooling equipment (12, 13).  characterized in that each liner cooling equipment (12, 13) is provided with at least one valve (30, 31) in the discharge conduit (16, 17). 2. Nuclear reactor per claim 1, characterized in that the cooling apparatus (25) is connected to all liner cooling equipment (12, 13). 3. Nuclear reactor per claim 1, characterized in that the cooling apparatus (25) is connected to the particular intake (14, 15) of the particular liner cooling equipment (12, 13). 4. Nuclear reactor per claim 1, characterized in that the valve is designed in such a manner that any excess pressure in the reactor pressure container (5) leads to closing the valve (38) no sooner than after one hour. 5. Nuclear reactor per claim 1, characterized in that the material for the valve spring (44) evinces a spring-constant which drops markedly at temperatures above 150.degree. C. 6. Nuclear reactor per claim 1, characterized in that the valve spring (44) of the valve is designed in such a manner that the closing force in the event of failure of either or both of the liner cooling equipment (12, 13) and open valve (38) will be in the range of the pressure level of either or both of the liner cooling equipment (12, 13). 7. Nuclear reactor per claim 1, characterized in that the valve (38) is designed in such a manner that the valve spring (44) is heated by the gas flowing out of the reactor pressure container (5) only after it is open. 8. Nuclear reactor per claim 1, characterized in that the valve (38) is enclosed by a thermally insulating housing (24). 9. Nuclear reactor per claim 1 characterized in that there is a plurality of valves and associated housings and each housing of one of the valves (38) is surrounded in the region of the valve spring (44) by welded-on cooling coils (49) of the cooling apparatus (25). 10. A high-temperature reactor with a reactor protecting housing and therein a reactor pressure container made of concrete and with an inside liner, associated with cooling ducts connected to at least one liner cooling equipment, as defined by claim 1, 11. A nuclear reactor per claim 10, characterized in that the valve (30, 31) evinces a closing force somewhat above the operational pressure of the particular liner cooling equipment (12, 13). 12. Nuclear reactor per claim 10, characterized in that there is a plurality of valves (30, 31) and each valve (30, 31) is provided with a venting conduit (34, 35) issuing into a water seal (37). 13. Nuclear reactor per claim 10, characterized in that there is a plurality of valves (30, 31) and each valve (30, 31) is bridged by a remote-controlled bypass valve (32, 33).