Patent Number: 06295329&
Section: claims

1. A reactor-internal equipment handling apparatus comprising: control rod holding means for releasably holding a control rod which is loaded in a reactor vessel;  fuel support/control rod guide tube holding means for releasably holding both a fuel support, which supports a bottom end of a fuel assembly, and a control rod guide tube, on which the fuel support is placed at a top end;  a main body frame to which both the control rod holding means and the fuel support/control rod guide tube holding means are fitted and is adapted to be hung down inside the reactor vessel;  a holding state detecting mechanism for detecting both a holding state of the control rod holding means about the control rod and a holding state of the fuel support/control rod guide tube holding means about the fuel support and the control rod guide tube; and  a positioning state detecting mechanism for detecting a positioning state of the main body frame in the reactor vessel.  wherein an amount of motion of the orifice engaging member is adjusted by changing the operating stroke of the orifice engaging member linking mechanism by the stroke varying mechanism such that the orifice engaging member engages only the edge portion of the orifice formed in the fuel support.  wherein the orifice engaging member linking mechanism is constructed to disable a motion of the orifice engaging member in a situation that the stepped portion of the orifice engaging member comes into contact with the edge portion of the orifice.  wherein the handle engaging member is formed of a hook member, and an own weight of the control rod is applied to hold an engaged state of the hoisting handle by the handle engaging member in a situation that the control rod holding means hoists the control rod via the handle engaging member.  the positioning state detecting mechanism has a positioning state confirming indicator lamp whose lighting state is changed depending upon a change in the positioning state of the main body frame in the reactor vessel.  control rod holding means for releasably holding a control rod which is loaded in a reactor vessel;  fuel support/control rod guide tube holding means for releasably holding both a fuel support, which supports a bottom end of a fuel assembly, and a control rod guide tube, on which the fuel support is placed at a top end; and  a main body frame to which both the control rod holding means and the fuel support/control rod guide tube holding means are fitted and is adapted to be hung down inside the reactor vessel,  wherein the fuel support/control rod guide tube holding means includes an orifice engaging member which is adapted to engage edge portions of orifices formed in the fuel support and a top portion of the control rod guide tube, an orifice engaging member linking mechanism for manipulating the orifice engaging member, and orifice engaging member driving means for driving the orifice engaging member linking mechanism, and  wherein the orifice engaging member linking mechanism comprises a mechanical lock which prevents the orifice engaging member from moving after the orifice engaging member engages the edge portions of the orifices formed in the fuel support and the control rod guide tube.  wherein the handle engaging member includes a hook member, and wherein a weight of the control rod maintains an engaged state between the hoisting handle by the handle engaging member in a situation that the control rod holding means hoists the control rod via the handle engaging member.  wherein an amount of motion of the orifice engaging member is adjusted by changing the operating stroke of the orifice engaging member linking mechanism by the stroke varying mechanism such that the orifice engaging member engages only the edge portion of the orifice formed in the fuel support.  wherein the orifice engaging member linking mechanism makes the mechanical lock in a situation that the stepped portion of the orifice engaging member comes into contact with the edge portion of the orifice.  a holding state detecting mechanism for detecting both a holding state of the control rod holding means about the control rod and a holding state of the fuel support/control rod guide tube holding means about the fuel support and the control rod guide tube; and  a positioning state detecting mechanism for detecting a positioning state of the main body frame in the reactor vessel.  the positioning state detecting mechanism has a positioning state confirming indicator lamp an illumination of which changes depending upon a change in the positioning state of the main body frame in the reactor vessel. 2. A reactor-internal equipment handling apparatus according to claim 1, wherein the fuel support/control rod guide tube holding means includes an orifice engaging member which is adapted to engage edge portions of orifices formed in the fuel support and the control rod guide tube, an orifice engaging member linking mechanism for manipulating the orifice engaging member, and orifice engaging member driving means for driving the orifice engaging member linking mechanism. 3. A reactor-internal equipment handling apparatus according to claim 2, further comprising a stroke varying mechanism for varying an operating stroke of the orifice engaging member linking mechanism; 4. A reactor-internal equipment handling apparatus according to claim 2, wherein the orifice engaging member has stepped portions which come into contact with the edge portions of the orifices formed in the fuel support and the control rod guide tube, and 5. A reactor-internal equipment handling apparatus according to claim 1, wherein the control rod holding means has a handle engaging member which is swingable and holds a hoisting handle provided on a top end of the control rod, and handle engaging member driving means for driving the handle engaging member to swing, and 6. A reactor-internal equipment handling apparatus according to claim 1, wherein the control rod holding means and the fuel support/control rod guide tube holding means are fitted to the main body frame such that these means can be relatively displaced mutually along a longitudinal direction of the control rod, and both the fuel support and the control rod guide tube are hoisted after the control rod is slightly hoisted. 7. A reactor-internal equipment handling apparatus according to claim 1, wherein the holding state detecting mechanism has a holding state confirming indicator lamp whose lighting state is changed depending upon a change in the holding states of the control rod holding means and the fuel support/control rod guide tube holding means, and 8. A reactor-internal equipment handling apparatus according to claim 1, wherein the positioning state detecting mechanism further includes a motion limiting mechanism for limiting a motion of the fuel support/control rod guide tube holding means when the main body frame is not properly placed at a predetermined position in the reactor vessel. 9. A reactor-internal equipment handling apparatus according to claim 8, further comprising: a motion limiting mechanism locking device for making the motion limiting mechanism inoperative temporarily. 10. A reactor-internal equipment handling apparatus comprising: 11. A reactor-internal equipment handling apparatus according to claim 10, wherein the control rod holding means has a handle engaging member which is swingable and holds a hoisting handle provided on a top end of the control rod, and handle engaging member driving means for driving the handle engaging member to swing, 12. A reactor-internal equipment handling apparatus according to claim 10, wherein the control rod holding means and the fuel support/control rod guide tube holding means are fitted to the main body frame such so as to be relatively displaced mutually along a longitudinal direction of the control rod, and so that both the fuel support and the control rod guide tube are hoisted after the control rod is slightly hoisted. 13. A reactor-internal equipment handling apparatus according to claim 10, wherein the orifice engaging member linking mechanism is so constituted that a distal end of the orifice engaging member protrudes outwardly from the orifices when the fuel support/control rod guide tube holding means changes from a non-holding state to a holding state, whereby the orifice engaging member establishes the mechanical lock which prevents the orifice engaging member from moving after the orifice engaging member engages the edge portions of the orifices formed in the fuel support and the control rod guide tube. 14. A reactor-internal equipment handling apparatus according to claim 13, further comprising a stroke varying mechanism for varying an operating stroke of the orifice engaging member linking mechanism; and 15. A reactor-internal equipment handling apparatus according to claim 13, wherein the orifice engaging member has stepped portions which come into contact with the edge portions of the orifices formed in the fuel support and the control rod guide tube, and 16. A reactor-internal equipment handling apparatus according to claim 10, further comprising: 17. A reactor-internal equipment handling apparatus according to claim 16, wherein the holding state detecting mechanism has a holding state confirming indicator lamp an illumination of which changes depending upon a change in the holding states of the control rod holding means and the fuel support/control rod guide tube holding means, and 18. A reactor-internal equipment handling apparatus according to claim 16, wherein the positioning state detecting mechanism further includes a motion limiting mechanism for limiting a motion of the fuel support/control rod guide tube holding means when a position of the main body frame is not coincident with a predetermined position in the reactor vessel. 19. A reactor-internal equipment handling apparatus according to claim 18, further comprising: a motion limiting mechanism locking device for temporarily rendering the motion limiting mechanism inoperative.