Patent Number: 053612795
Section: claims

1. A control rod drive for vertically positioning a control rod relative to fuel rods arranged in a fuel core of a nuclear reactor having a pressure vessel that contains said fuel core, comprising: a jack rod suitable for being coupled to the control rod; and  a hydraulic jack positioned within said pressure vessel above said fuel core, said hydraulic jack being capable of lifting, lowering and holdings said jack rod to regulate the position of the control rod,  wherein said jack comprises:  a hydraulically operated holding mechanism having holders arranged to selectively engage said jack rod to hold said jack rod in place; and  a hydraulically operated lifting mechanism having lifters arranged to selectively engage said jack rod and a lift cylinder arranged to lift said lifters and said jack rod therewith when said holders are disengaged and said lifters are engaged.  said holding mechanism further comprises a holding piston arranged to move said holders between engaged and disengaged positions, a first side of said holding piston being influenced by the pressure in said first hydraulic line and a second side of said piston being influenced by the pressure in said control line; and  said lifting cylinder is influenced by the pressure in a second hydraulic line.  a plunger that is moveable between an open position and a closed position;  biasing means for biasing said plunger towards said closed position; and  wherein both said first and said second hydraulic lines are arranged to influence said plunger in a direction towards said open position.  an open grid mounted with said pressure vessel at a position above said fuel core, said grid comprising a plurality of mounting surfaces;  a plurality of jack rods, each one of said jack rods being coupled to a corresponding one of said plurality of control rods; and  a plurality of hydraulic jacks, each one of said hydraulic jacks being attached to said grid on a corresponding one of said plurality of mounting surfaces and comprising a hydraulically operated means for holding, lifting and lowering a corresponding one of said plurality of jack rods relative to said grid, wherein each hydraulic jack comprises:  a hydraulically operated holding mechanism having holders arranged to selectively engage said jack rod to hold said jack rod in place; and  a hydraulically operated lifting mechanism having lifters arranged to selectively engage said jack rod and a lift cylinder arranged to lift said lifters and said jack rod therewith when said holders are disengaged and said lifters are engaged.  a hold control valve that is moveable between an open position and a closed position wherein in said open position a communication path is formed between an associated holding line and a control line that is associated with said hydraulic jack; and  wherein said holding mechanism further comprises a holding piston arranged to move said holders between engaged and disengaged positions, a first side of said holding piston being influenced by the pressure in said associated holding line and a second side of said piston being influenced by the pressure in said associated control line; and  wherein said lifting cylinder is influenced by the pressure in said associated control line.  a plunger that is moveable between an open position and a closed position;  biasing means for biasing said plunger towards said closed position; and  wherein said associated lifting and holding lines are each arranged to influence said plunger in a direction towards said open position.  a jack rod coupled to a top portion of said control rod, said jack rod having indexing means formed on a surface thereof; and  hydraulically operated means for engaging said indexing means without lifting said jack rod in a first hydraulic state and for engaging said indexing means with lifting of said jack rod in a second hydraulic state.  a jack rod coupled to a top portion of said control rod, said jack rod having indexing means formed on a surface thereof; and  first hydraulically operated engagement means for engaging said indexing means in a first hydraulic state and disengaging said indexing means in a second hydraulic state,  wherein said jack rod is locked against displacement along said vertical axis when said first hydraulically operated engagement means engages said indexing means. 2. A control rod drive as recited in claim 1, further comprising a hold control valve that is moveable between an open position and a closed position wherein in said open position a communication path is formed between a first hydraulic line and a control line, and wherein: 3. A control rod drive as recited in claim 2, wherein said hold control valve comprises: 4. A control rod drive system for vertically positioning a plurality of control rods relative to a plurality of fuel rod bundles arranged in a fuel core of a nuclear reactor having a pressure vessel that contains said fuel core, comprising: 5. A control rod drive system as recited in claim 4, further comprising a plurality of hydraulic lines for supplying hydraulic fluid to said hydraulic jacks, said hydraulic lines including a plurality of holding lines and a plurality of lifting lines, wherein each holding line supplies hydraulic fluid to a plurality of hydraulic jacks and each lifting line supplies hydraulic fluid to a plurality of hydraulic jacks, and wherein each of said plurality of hydraulic jacks further comprises: 6. A control rod drive system as recited in claim 5, wherein each hold control valve comprises: 7. A control rod drive for positioning a control rod relative to a plurality of fuel rods at any one of a plurality of axial positions along a vertical axis, including a first axial position whereat said control rod is located above and removed from in between said plurality of fuel rods and a second position whereat said control rod is inserted in between said plurality of fuel rods, comprising: 8. The control rod drive as defined in claim 7, wherein said indexing means comprises a plurality of notches formed on said surface of said jack rod and spaced at equal intervals along said vertical axis. 9. The control rod drive as defined in claim 7, wherein said hydraulically operated means comprises first engagement means for engaging said indexing means when said hydraulically operated means are in said first or second hydraulic state, and second engagement means for engaging said indexing means in said first hydraulic state but not in said second hydraulic state. 10. The control rod drive as defined in claim 8, wherein said hydraulically operated means comprises a first latching mechanism which engages one of said notches when said hydraulically operated means are in said first or second hydraulic state, and a second latching mechanism which engages another of said notches when said hydraulically operated means are in said first hydraulic state but does not engage any one of said notches when said hydraulically operated means are in said second hydraulic state. 11. The control rod drive as defined in claim 9, wherein said hydraulically operated means comprises lifting means which displace said first engagement means vertically upward in said second hydraulic state. 12. The control rod drive as defined in claim 11, wherein said first engagement means and said lifting means are connected to a first hydraulic line for supplying pressurized hydraulic fluid at a first pressure in said first hydraulic state and at a second pressure in said second hydraulic state, said second pressure being greater than said first pressure. 13. The control rod drive as defined in claim 12, wherein said lifting means comprising a lift cylinder which is axially slidable inside a cylindrical casing and a first biasing means for urging said lift cylinder upward relative to said casing, and said first engagement means comprises a lift piston which is radially slidable in a cylindrical bore formed in said lift cylinder and a second biasing means for urging said lift piston away from said jack rod, said lift cylinder further comprising channel means for enabling flow communication between said first hydraulic line and said cylindrical bore. 14. The control rod drive as defined in claim 12, further comprising control valve means for disengaging said second engagement means from said indexing means in response to pressurized hydraulic fluid above a predetermined threshold pressure in said first hydraulic line, said predetermined threshold pressure being greater than said first pressure. 15. The control rod drive as defined in claim 14, wherein said second engagement means comprises a hold piston which is radially slidable in a first cylinder and a biasing means for urging said hold piston away from said jack rod, one side of said hold piston always being in flow communication with said second hydraulic line, and the other side of said hold piston being in flow communication with said second hydraulic line only when said control valve means has been placed in an open state in response to pressurized hydraulic fluid above a predetermined threshold pressure in said first hydraulic line. 16. A control rod drive for positioning a control rod relative to a plurality of fuel rods at any one of a plurality of axial positions along a vertical axis, including a first axial position whereat said control rod is located above and removed from in between said plurality of fuel rods and a second position whereat said control is inserted in between said plurality of fuel rods, comprising: 17. The control rod drive as defined in claim 16, further comprising second hydraulically operated engagement means for engaging said indexing means in said first and second hydraulic states, and lifting means for displacing said second hydraulically operated engagement means vertically upward in said second hydraulic state. 18. The control rod drive as defined in claim 17, wherein said second hydraulically operated engagement means and said lifting means are connected to a first hydraulic line for supplying pressurized hydraulic fluid at a first pressure in said first hydraulic state and at a second pressure in said second hydraulic state, said second pressure being greater than said first pressure. 19. The control rod drive as defined in claim 18, wherein said lifting means comprising a lift cylinder which is axially slidable inside a cylindrical casing and a first biasing means for urging said lift cylinder upward relative to said casing, and said second hydraulically operated engagement means comprises a lift piston which is radially slidable in a cylindrical bore formed in said lift cylinder and a second biasing means for urging said lift piston away from said jack rod, said lift cylinder further comprising channel means for enabling flow communication between said first hydraulic line and said cylindrical bore. 20. The control rod drive as defined in claim 18, further comprising control valve means for disengaging said first hydraulically operated engagement means from said indexing means in response to pressurized hydraulic fluid above a predetermined threshold pressure in said first hydraulic line, said predetermined threshold pressure being greater than said first pressure. 21. The control rod drive as defined in claim 20, wherein said first hydraulically operated engagement means comprises a hold piston which is radially slidable in a first cylinder and a biasing means for urging said hold piston away from said jack rod, one side of said hold piston always being in flow communication with said second hydraulic line, and the other side of said hold piston being in flow communication with said second hydraulic line only when said control valve means has been placed in an open state in response to pressurized hydraulic fluid above a predetermined threshold pressure in said first hydraulic line.