Patent Number: 041586000
Section: claims

1. Apparatus for handling control rod drives (hereinafter referred to as CRD's), each CRD being received in an elongated housing mounted to a reactor pressure vessel so as to extend vertically into and out of the reactor vessel and being provided with a piston tube, each CRD having an upper end portion connected with a lower end of a control rod and a lower end portion connected with a lower end of the elongated housing by detachable fixing means, and a plug-socket means for connecting the upper end portion of the CRD with the lower end of the control rod so that the CRD may be uncoupled from the control rod when the piston tube is longitudinally moved toward the lower end of the control rod, comprising in combination: a CRD attaching and detaching means including cylindrical housing means, uncoupling means disposed in said housing means for engaging a lower end portion of said piston tube and for longitudinally moving the piston tube toward the lower end of the control rod to uncouple said CRD from said control rod, and means mounted on said housing means for effecting attaching and detaching of the fixing means, said uncoupling means comprises means for detachably connecting the uncoupling means to said CRD;  means for supporting said CRD attaching and detaching means; and  means for moving said supporting means longitudinally of the CRD.  a CRD attaching and detaching means including cylindrical housing means, uncoupling means disposed in said housing means for engaging a lower end portion of said piston tube and for longitudinally moving the piston tube toward the lower end of the control rod to uncouple said CRD from said control rod, and means mounted on said housing means for effecting attaching and detaching of the fixing means, said uncoupling means comprises means for detachably connecting the uncoupling means to said CRD;  means for supporting said CRD attaching and detaching means, said housing means is rotatably supported on said supporting means, and said supporting means is provided with means for driving said housing means for rotation; and  means for moving said supporting means longitudinally of the CRD.  a CRD attaching and detaching means including cylindrical housing means, uncoupling means disposed in said housing means for engaging a lower end portion of said piston tube and for longitudinally moving the piston tube toward the lower end of the control rod to uncouple said CRD from said control rod, and means mounted on said housing means for effecting attaching and detaching of the fixing means;  means for supporting said CRD attaching and detaching means;  means for moving said supporting means longitudinally of the CRD;  means for preventing scattering of coolant flowing out of each of said CRD housings when said fixing means is detached; and  drain means for discharging released coolant to a predetermined position.  cylindrical housing means;  uncoupling means mounted in the housing means for uncoupling each of said control rods from one of said CRD's;  means mounted on the housing means for effecting attaching and detaching of said fixing means;  means for supporting said housing means;  means for moving the support means longitudinally of the CRD;  means for preventing scattering of coolant flowing out of each of said CRD housings when said fixing means is detached;  drain means for discharging the released coolant to a predetermined position; and  a CRD attaching and detaching means including cylindrical housing means, uncoupling means disposed in said housing means for engaging a lower end portion of said piston tube and for longitudinally moving the piston tube toward the lower end of the control rod to uncouple said CRD from said control rod, and means mounted on said housing means for effecting attaching and detaching of the fixing means, said uncoupling means comprises a screw cylinder engageable with a lower end portion of the piston tube of said CRD's, and means for driving said screw cylinder for reciprocatory motion;  means for supporting said CRD attaching and detaching means; and  means for moving said supporting means longitudinally of the CRD.  a CRD attaching and detaching means including cylindrical housing means, uncoupling means disposed in said housing means for engaging a lower end portion of said piston tube and for longitudinally moving the piston tube toward the lower end of the control rod to uncouple said CRD from said control rod, and means mounted on said housing means for effecting attaching and detaching of the fixing means;  means for supporting said CRD attaching and detaching means including two support arms; and  means for moving said supporting means longitudinally of the CRD.  a CRD attaching and detaching means including cylindrical housing means, uncouplng means disposed in said housing means for engaging a lower end portion of said piston tube and for longitudinally moving the piston tube toward the lower end of the control rod to uncouple said CRD from said control rod, and means mounted on said housing means for effecting attaching and detaching of the fixing means;  means for supporting said CRD attaching and detaching means; and  means for moving said supporting means longitudinally of the CRD including a column, a carriage movably arranged on one side of said column, a winding drum, and means for rotating said winding drum arranged on the other side of said column, said winding drum having a rope wound thereon and fixed at one end to said carriage, said supporting means is mounted on said carriage.  cylindrical housing means;  uncoupling means mounted in the housing means for uncoupling each of said control rods from one of said CRD's;  means mounted on the housing means for effecting attaching and detaching of said fixing means;  means for supporting said housing means;  means for moving the support means longitudinally of the CRD; and  wherein each of said CRD's is fixed to one of said CRD housings by means of a plurality of bolts; and  wherein said means for effecting attaching and detaching of said fixing means comprises bolt wrench assemblies equal in number to said bolts arranged in an outer peripheral portion of said CRD housing, said bolt wrench assemblies being located in an annular bolt house secured to an upper portion of an outer periphery of said housing means.  a CRD attaching and detaching means including cylindrical housing means, uncoupling means disposed in said housing means for engaging a lower end portion of said piston tube and for longitudinally moving the piston tube toward the lower end of the control rod to uncouple said CRD from said control rod, and means mounted on said housing means for effecting attaching and detaching of the fixing means;  means for supporting said CRD attaching and detaching means; and  means for moving said supporting means longitudinally of the CRD including means for gripping a CRD to hold the CRD in an alignment with said CRD attaching and detaching means, said gripping means including a carriage movably mounted on a column, means for selectively locking the carriage in a desired position on one side of the column, and two pairs of arms pivotally mounted to said carriage so as to be movable toward and away from each other in each pair for gripping the CRD.  a CRD attaching and detaching means including cylindrical housing means, uncoupling means disposed in said housing means for engaging a lower end portion of said piston tube and for longitudinally moving the piston tube toward the lower end of the control rod to uncouple said CRD from said control rod, and means mounted on said housing means for effecting attaching and detaching of the fixing means;  means for supporting said CRD attaching and detaching means; and  means for moving said supporting means longitudinally of the CRD including a column, a first carriage movably arranged on one side of said column, a winding drum, means for rotating said winding drum arranged on the other side of said column, said winding drum having a rope wound thereon and fixed at one end to said first carriage, said supporting means being mounted on said first carriage, and means for gripping a CRD to hold the CRD in an alignment with said CRD attaching and detaching means, said gripping means including a second carriage movable on the other side of said column, means for selectively locking said second carriage at desired positions on the other side of the column, and two pairs of arms pivotally mounted to said second carriage so as to be movable toward and away from each other in each pair for gripping and releasing the CRD.  a CRD attaching and detaching means including cylindrical housing means, uncoupling means disposed in said housing means for engaging a lower end portion of said piston tube and for longitudinally moving the piston tube toward the lower end of the control rod to uncouple said CRD from said control rod, and means mounted on said housing means for effecting attaching and detaching of the fixing means, each of said CRD's is fixed to one of said CRD housings by means of a plurality of bolts, and said means for effecting attaching and detaching of said fixing means comprises bolt wrench assemblies equal in number to said bolts;  means for supporting said CRD attaching and detaching means; and  means for moving said supporting means longitudinally of the CRD. 2. Apparatus for handling control rod drives (hereinafter referred to as CRD's), each CRD being received in an elongated housing mounted to a reactor pressure vessel so as to extend vertically into and out of the reactor vessel and being provided with a piston tube, each CRD having an upper end portion connected with a lower end of a control rod and a lower end portion connected with a lower end of the elongated housing by detachable fixing means, and a plug-socket means for connecting the upper end portion of the CRD with the lower end of the control rod so that the CRD may be uncoupled from the control rod when the piston tube is longitudinally moved toward the lower end of the control rod, comprising in combination: 3. Apparatus as claimed in claim 2, wherein said driving means for rotation comprises an air motor and a reduction means. 4. Apparatus for handling control rod drives (hereinafter referred to as CRD's), each CRD being received in an elongated housing mounted to a reactor pressure vessel so as to extend vertically into and out of the reactor vessel and being provided with a piston tube, each CRD having an upper end portion connected with a lower end of a control rod and a lower end portion connected with a lower end of the elongated housing by detachable fixing means, and a plug-socket means for connecting the upper end portion of the CRD with the lower end of the control rod so that the CRD may be uncoupled from the control rod when the piston tube is longitudinally moved toward the lower end of the control rod, comprising in combination: 5. Apparatus as claimed in claim 4, wherein each of said CRD's is fixed to one of said CRD housings by means of a plurality of bolts, and wherein said means for effecting attaching and detaching of said fixing means comprises bolt wrench assemblies equal in number to said bolts arranged in an outer peripheral portion of said CRD housing, said bolt wrench assemblies being located in an annular bolt house secured to an upper portion of an outer periphery of said housing means. 6. Apparatus as claimed in claim 5, wherein said coolant scattering preventing means comprises a drain sleeve mounted on an outer periphery of said bolt house for upward movement therealong, and driving means mounted on said housing means for moving said drain sleeve, said drain sleeve having a packing mounted at an upper end thereof and adapted to be brought into liquid-tight sealing engagement with outer peripheries of the CRD and CRD housing. 7. Apparatus as claimed in claim 5, wherein said drain means comprises a plurality of drain holes formed in said bolt house, and a plurality of drain tubes connected to said bolt house and each communicating with one of said drain holes. 8. Apparatus for handling control rod drives (hereinafter referred to as CRD's) attached by detachable fixing means to housing mounted in a reactor pressure vessel and each coupled to one of control rods inserted in the reactor pressure vessel, comprising in combination: 9. Apparatus as claimed in claim 8, wherein each of said bolt wrench assemblies comprises a bolt wrench engageable with one of said bolts, and means for driving each said bolt wrench for rotation. 10. Apparatus as claimed in claim 9, wherein each said bolt wrench is reciprocatorily fitted in a hollow shaft rotatably supported by said housing means, and resilient means is mounted in said hollow shaft for normally urging the bolt wrench to move upwardly by its biasing force and said shaft is driven for rotation by said driving means 11. Apparatus as claimed in claim 10, wherein said hollow shaft has a bolt holder mounted at a head portion thereof. 12. Apparatus as claimed in claim 10, wherein said driving means comprises a plurality of air motors and reduction means. 13. Apparatus as claimed in claim 10, further comprising means for preventing scattering of coolant flowing out of each of said CRD housings when said fixing means is detached, and drain means for discharging released coolant to a predetermined position. 14. Apparatus as claimed in claim 13, wherein said bolt wrench assemblies are located in an annular bolt house secured to an upper portion of an outer periphery of said housing means, and said coolant scattering preventing means comprises a drain sleeve mounted on an outer periphery of said bolt house for upward movement therealong, and driving means mounted on said housing means for moving said drain sleeve, said drain sleeve having a packing mounted at an upper end thereof and adapted to be brought into liquid-tight sealing engagement with outer peripheries of the CRD and CRD housing. 15. Apparatus as claimed in claim 13, wherein said bolt wrench assemblies are located in an annular bolt house secured to an upper portion of an outer periphery of said housing means, and said drain means commprises a plurality of drain holes formed in said bolt house, and a plurality of drain tubes connected to said bolt house and each communicating with one of said drain holes. 16. Apparatus as claimed in claim 10, wherein said uncoupling means comprises a screw cylinder engageable with a lower portion of a piston tube fitted in each CRD, and means for driving said screw cylinder for reciprocatory movement. 17. Apparatus as claimed in claim 16, wherein said screw cylinder is fitted for reciprocatory movement in a cylinder tube rotatably supported in said housing means so that the screw cylinder is rotatable with the cylinder tube as a unit, resilient means is fitted in said cylinder tube so as to resiliently support said screw cylinder when the screw cylinder is in a lower position, said driving means for driving the screw cylinder for reciprocatory movement comprises means for supplying pressurized fluid to said cylinder tube. 18. Apparatus as claimed in claim 17, wherein said screw cylinder has a piston fitted therein for reciprocatory movement, said piston having connected thereto a piston rod extending upwardly therefrom, and a reed switch mounted at an upper end of said piston rod, said reed switch being adapted to be actuated by a magnet mounted on an index tube in the CRD and located at a predetermined height so that uncoupling of the control rod from the CRD can be detected by actuation of said reed switch by said magnet. 19. Apparatus as claimed in claim 18, wherein said piston and said reed switch are normally disposed in a withdrawn or inoperative position and adapted to move upwardly to an extended or operative position as said screw cylinder moves upwardly when the pressurized fluid is supplied to said cylinder tube by said pressurized fluid supply means. 20. Apparatus for handling control rod drives (hereinafter referred to as CRD's), each CRD being received in an elongated housing mounted to a reactor pressure vessel so as to extend vertically into and out of the reactor vessel and being provided with a piston tube, each CRD having an upper end portion connected with a lower end of a control rod and a lower end portion connected with a lower end of the elongated housing by detachable fixing means, and a plug-socket means for connecting the upper end portion of the CRD with the lower end of the control rod so that the CRD may be uncoupled from the control rod when the piston tube is longitudinally moved toward the lower end of the control rod, comprising in combination: 21. Apparatus as claimed in claim 20, wherein said uncoupling means further comprises means for detecting uncoupling of the control rod from the CRD. 22. Apparatus as claimed in claim 20, wherein said screw cylinder is fitted for reciprocatory movement in a cylinder tube rotatably supported in said housing means so that the screw cylinder is rotatable with the cylinder tube as a unit, resilient means is fitted in said cylinder tube so as to resiliently support said screw cylinder when the latter is in its lower position, said driving means for reciprocatory movement comprises means for supplying pressurized fluid to said cylinder tube. 23. Apparatus as claimed in claim 22, wherein said screw cylinder has a piston fitted therein for reciprocatory movement, said piston having connected thereto a piston rod extending upwardly therefrom, and a reed switch is mounted at an upper end of said piston rod, said reed switch being adapted to be actuated by a magnet mounted on an index tube in the CRD and located at a predetermined height, so that uncoupling of the control rod from the CRD can be detected by actuation of said reed switch by said magnet. 24. Apparatus as claimed in claim 23, wherein said piston and said reed switch are normally disposed in a withdrawn or inoperative position and adapted to move upwardly to an extended or operative position as said screw cylinder moves upwardly when the pressurized fluid is supplied to said cylinder tube by said pressurized fluid supply means. 25. Apparatus as claimed in claim 24, wherein said screw cylinder is formed at an upper end thereof with an internally threaded portion which is engageable with an externally threaded portion formed on an outer periphery of the lower end portion of said piston tube, and said uncoupling means further comprises means for driving said screw cylinder for rotation. 26. Apparatus as claimed in claim 25, wherein said driving means for rotation comprises an air motor and a reduction means. 27. Apparatus for handling control rod drives (hereinafter referred to as CRD's), each CRD being received in an elongated housing mounted to a reactor pressure vessel so as to extend vertically into and out of the reactor vessel and being provided with a piston tube, each CRD having an upper end portion connected with a lower end of a control rod and a lower end portion connected with a lower end of the elongated housing by detachable fixing means, and a plug-socket means for connecting the upper end portion of the CRD with the lower end of the control rod so that the CRD may be uncoupled from the control rod when the piston tube is longitudinally moved toward the lower end of the control rod, comprising in combination: 28. Apparatus for handling control rod drives (hereinafter referred to as CRD's), each CRD being received in an elongated housing mounted to a reactor pressure vessel so as to extend vertically into and out of the reactor vessel and being provided with a piston tube, each CRD having an upper end portion connected with a lower end of a control rod and a lower end portion connected with a lower end of the elongated housing by detachable fixing means, and a plug-socket means for connecting the upper end portion of the CRD with the lower end of the control rod so that the CRD may be uncoupled from the control rod when the piston tube is longitudinally moved toward the lower end of the control rod, comprising in combination: 29. Apparatus for handling control rod drives (hereinafter referred to as CRD's) attached by detachable fixing means to housing mounted in a reactor pressure vessel and each coupled to one of control rods inserted in the reactor pressure vessel, comprising in combination: 30. Apparatus as claimed in claim 29, wherein said coolant scattering preventing means comprises a drain sleeve mounted on an outer periphery of said bolt house for upward movement therealong, and driving means mounted on said housing means for moving said drain sleeve, said drain sleeve having a packing mounted at an upper end thereof and adapted to be brought into liquid-tight sealing engagement with outer peripheries of the CRD and CRD housing. 31. Apparatus as claimed in claim 29, wherein said drain means comprises a plurality of drain holes formed in said bolt house, and a plurality of drain tubes connected to said bolt house and each communicating with one of said drain holes. 32. Apparatus for handling control rod drives (hereinafter referred to as CRD's), each CRD being received in an elongated housing mounted to a reactor pressure vessel so as to extend vertically into and out of the reactor vessel and being provided with a piston tube, each CRD having an upper end portion connected with a lower end of a control rod and a lower end portion connected with a lower end of the elongated housing by detachable fixing means, and a plug-socket means for connecting the upper end portion of the CRD with the lower end of the control rod so that the CRD may be uncoupled from the control rod when the piston tube is longitudinally moved toward the lower end of the control rod, comprising in combination: 33. Apparatus for handling control rod drives (hereinafter referred to as CRD's), each CRD being received in an elongated housing mounted to a reactor pressure vessel so as to extend vertically into and out of the reactor vessel and being provided with a piston tube, each CRD having an upper end portion connected with a lower end of a control rod and a lower end portion connected with a lower end of the elongated housing by detachable fixing means, and a plug-socket means for connecting the upper end portion of the CRD with the lower end of the control rod so that the CRD may be uncoupled from the control rod when the piston tube is longitudinally moved toward the lower end of the control rod, comprising in combination: 34. Apparatus as claimed in claim 33, further comprising means for carrying said column, said CRD attaching and detaching means, said moving means and gripping means being mounted on said carrying means, said carrying means including rotatable platform disposed in a reactor lower chamber defined in a pedestal means for supporting the reactor pressure vessel, a first carriage car disposed on said rotatable platform for linear movement, and a second carriage car disposed on said first carriage car for linear movement substantially transverse to the linear movement of said first carriage car, said column being pivotally mounted to said second carriage car. 35. Apparatus for handling control rod drives (hereinafter referred to as CRD's), each CRD being received in an elongated housing mounted to a reactor pressure vessel so as to extend vertically into and out of the reactor vessel and being provided with a piston tube, each CRD having an upper end portion connected with a lower end of a control rod and a lower end portion connected with a lower end of the elongated housing by detachable fixing means, and a plug-socket means for connecting the upper end portion of the CRD with the lower end of the control rod so that the CRD may be uncoupled from the control rod when the piston tube is longitudinally moved toward the lower end of the control rod, comprising in combination: 36. Apparatus as claimed in claim 35, wherein each of said bolt wrench assemblies comprises a bolt wrench engageable with one of said bolts, and means for driving each bolt wrench for rotation. 37. Apparatus as claimed in claim 36, wherein each bolt wrench is reciprocatorily fitted in a hollow shaft rotatably supported by said housing means, and resilient means is mounted in said hollow shaft for normally urging the bolt wrench to move upwardly by its biasing force and said shaft is driven for rotation by said driving means. 38. Apparatus as claimed in claim 37, wherein said hollow shaft has a bolt holder mounted at a head portion thereof. 39. Apparatus as claimed in claim 37, wherein said driving means comprises a plurality of air motors and reduction means.