Patent Number: 
Section: claims

1. An instrumented capsule for material irradiation tests in research reactors, comprising: a capsule main body installed in a vertical irradiation hole of a research reactor pool, said capsule main body consisting of:  a shell opened at upper and lower ends thereof;  a plurality of heat media set in said shell;  a plurality of specimens set at a center and peripheral areas of each of the heat media;  upper and lower reflectors installed on an upper end of an uppermost heat medium and under a lower end of a lowermost heat medium, respectively;  a plurality of insulators interposed between adjacent heat media and positioned above and under the upper and lower reflectors, respectively;  a spacer set in said shell at a position above an uppermost insulator;  a spring seat installed above the spacer;  a specimen compressing spring to bias the spring seat, thus compressing the specimens;  temperature control means for controlling a temperature inside the shell, said temperature control means consisting of a vacuum control pipe and a heater;  detecting means consisting of both a thermocouple used for detecting a temperature of the specimens and a dosimeter used for detecting a quantity of neutron radiation;  upper and lower end plugs mounted to the upper and lower ends of the shell so as to seal the ends of said shell; and  a lower fixing unit assembled with the lower end plug; and  connecting means for connecting said capsule main body to a capsule control system installed outside the reactor pool. 2. The instrumented capsule according to  claim 1 , wherein an upper guide spring unit is fitted over the upper end of said shell so as to place the capsule main body at a center of the vertical irradiation hole, said upper guide spring unit consisting of upper and lower fixing rings fitted over said shell, and a plurality of wire springs connected between the upper and lower fixing rings and projected outward in radial directions so as to come into contact with an inner surface of the irradiation hole when the capsule main body is installed in the irradiation hole. claim 1 3. The instrumented capsule according to  claim 1 , wherein said heat media are brought, at external surfaces thereof, into contact with an inner surface of the shell, and each have one or more specimen seating holes to receive the specimens. claim 1 4. The instrumented capsule according to  claim 3 , wherein said specimen seating holes have circular or rectangular cross-sections in a same manner as the specimens, and are formed at the center and peripheral areas of each of the heat media. claim 3 5. The instrumented capsule according to  claim 1 , wherein said lower fixing unit comprises: claim 1 a lower end cap mounted to said lower end plug;  a rod tip connected to a center of said lower end cap and vertically extending downward, with a plurality of locking blades formed on a lower portion of said rod tip and locked to a fixing slot formed on a receptacle provided in said irradiation hole;  a stopper movably fitted over said rod tip; and  a stopper spring fitted over said rod tip at a position between the stopper and the lower end cap, thus normally biasing the stopper downward in a vertical direction. 6. The instrumented capsule according to  claim 5 , wherein said stopper comprises: claim 5 a plurality of holes formed in said stopper so as to allow a coolant flowing from the bottom of the irradiation hole to smoothly flow upward through said stopper without being disturbed by the stopper;  a plurality of guide pins projected on a circumferential surface of said stopper in radial directions such that the guide pins come into contact with the inner surface of said irradiation hole when the capsule main body is installed in the irradiation hole; and  an annular ring connecting outside ends of said guide pins so as to support said guide pins. 7. The instrumented capsule according to  claim 1 , wherein said connecting means comprises: claim 1 a rigid protection tube connected to an upper end of said capsule main body so as to guide said vacuum control pipe and said thermocouple end said heater having several control wires control wires extending from there from inside said capsule main body while protecting said vacuum control pipe and said control wires;  a flexible guide tube connected to said protection tube so as to guide said vacuum control pipe and said control wires; and  a junction box connected to said guide tube pipe so as to connect said vacuum control pipe and said control wires to said capsule control system installed outside the reactor pool, thus acting as a medium which transmits signals to the capsule control system.