Patent Number: 
Section: claims

1. A nozzle seal configured to hermetically seal a nozzle that penetrates a reactor vessel wall, the nozzle having a nozzle axis and including a coaxial rod member inserted there through, and a flange portion projecting outward from the nozzle in a radial direction at an end of the nozzle distal from an outer side of the reactor vessel, the nozzle seal comprising:a blocking member that is a plate having a thickness direction parallel to the nozzle axis and that is adjacent to the flange portion along the nozzle axis, the blocking member having a center portion through which the rod member passes;a first seal member provided between the flange portion and the blocking member;a second seal member provided between the rod member and the blocking member;a first fastening portion configured to fasten the flange portion and the blocking member; anda second fastening portion that is adjacent to the first fastening portion configured to fasten the rod member and the blocking member,the blocking member comprising:a first fastened surface configured to receive first fastening force applied by the first fastening portion; anda second fastened surface configured to receive second fastening force applied by the second fastening portion,wherein the first fastened surface and the second fastened surface are continuous and formed on a flat surface of the plate. 2. The nozzle seal according to claim 1, whereinthe blocking member iswhere the rod member coaxially passes through the center of the blocking member, andthe first fastening portion includes a plurality of first hydraulic lock mechanisms arranged around the blocking member, the first hydraulic lock mechanisms being configured to apply the first fastening force by hydraulic pressure so that pressure is uniformly applied along a circumference of the flange portion, the first hydraulic lock mechanisms each comprising a first cylinder pressing the blocking member and a nut applying the first fastening force to the flange portion, and being configured to clamp the blocking member and the flange portion in the thickness direction between the first cylinder and the nut. 3. The nozzle seal according to claim 2, wherein the plurality of first hydraulic lock mechanisms are arranged at predetermined intervals along a circumferential direction of each of the flange portion and the blocking member, and when hydraulic pressure of a same level is collectively applied to the plurality of first hydraulic lock mechanisms, the first hydraulic lock mechanisms apply the first fastening force uniform to each other. 4. The nozzle seal according to claim 1, whereinthe blocking member is a disk where the rod member coaxially passes through the center of the blocking member, andthe second fastening portion includes a second hydraulic lock mechanism arranged in the center of the blocking member, the second hydraulic lock mechanism being configured to apply the second fastening force by hydraulic pressure so that pressure is uniformly applied along a circumference of the rod member, the second hydraulic lock mechanism comprising a second cylinder pressing the blocking member, and being configured to clamp the second seal member in the thickness direction between the second cylinder and the rod member. 5. The nozzle seal according to claim 4, whereinthe second fastening portion further includes a locking member configured to lock the second hydraulic lock mechanism and the rod member.