Patent Number: 054597684
Section: claims

1. In a nuclear reactor having an interior, a pressure vessel, a coolant conducting surface exposed to primary pressure, and a core, a safety device against overpressure failure of the pressure vessel upon insufficient cooling of the core, comprising: a differential-pressure-loaded pressure relief valve being set in the coolant conducting surface, said pressure relief valve having a hollow guide cylinder, a closure piece in the form of a differential-pressure piston being constructed as a hollow body and being longitudinally displaceable in said hollow guide cylinder between a closure position and an opening position, and a fusible stop sealing and retaining said differential-pressure piston in said closure position, said fusible stop melting due to a threshold temperature heat flow reaching said fusible stop upon reaching an upper threshold temperature in the interior of the reactor, for permitting said differential-pressure piston to move into said opening position.  said pressure relief valve has a valve body with a wall and an inner periphery and said guide cylinder has an outer periphery, defining an annular duct remaining free as an overflow duct between said inner and outer peripheries;  said pressure relief valve has vanes being disposed in said annular duct and joined to said wall of said valve body for holding said guide cylinder in a centered position in said valve body; and  said overflow duct has an inlet cross section being normally sealed by said differential-pressure piston in said closure position and being cleared and released in said opened position. 2. The safety device according to claim 1, wherein the coolant conducting surface is a wall of the pressure vessel. 3. The safety device according to claim 1, wherein the coolant conducting surface is a pipeline connected to the pressure vessel. 4. The safety device according to claim 1, including a pressurizer discharge line being connected to said pressure relief valve and opening into a pressurizer relief tank. 5. The safety device according to claim 1, wherein said pressure relief valve has seating surfaces, said differential-pressure piston has sealing surfaces, and said fusible stop is disposed between said sealing surfaces and said seating surfaces. 6. The safety device according to claim 5, wherein said differential-pressure piston has peripheral piston surfaces, said guide cylinder has an inner periphery with guide surfaces, and said fusible stop is additionally disposed between said peripheral piston surfaces and said guide surfaces. 7. The safety device according to claim 1, wherein: 8. The safety device according to claim 1, wherein said guide cylinder has an end facing away from said differential-pressure piston, and said end has a bottom with a pressure relief orifice formed therein. 9. The safety device according to claim 1, wherein the coolant conducting surface is a primary coolant pipe having a wall, and said pressure relief valve is set into the wall near the pressure vessel. 10. The safety device according to claim 1, wherein the pressure vessel has primary coolant pipe sockets at a given level and a wall forming the coolant conducting surface, and said pressure-relief valve is set into the wall at the given level between the primary coolant pipe sockets. 11. The safety device according to claim 1, including a separate relief valve, and a pressure relief line being connected to said pressure relief valve and being constructed as a control line for said separate relief valve, said pressure relief valve and said control line having correspondingly low cross sectional dimensions.