Patent Number: 050698605
Section: claims

1. A rotary lock for preventing rotation of a shaft of a control rod drive comprising: a stationary housing for receiving said shaft;  an arm having a proximal end fixedly joined to said shaft in said housing, a distal end extending radially outwardly from said shaft, a top surface, and a side surface;  a pin having a proximal portion joined to said housing for circumferential restraint relative to said shaft, an intermediate portion, and a distal portion, said pin being positioned in a withdrawn position away from said arm top surface for allowing said arm to rotate with said shaft without obstruction from said pin, and in a deployed position for allowing said pin intermediate portion to contact said arm side surface at said arm distal end for preventing rotation of said arm and said shaft; and  means for selectively positioning said pin in said withdrawn and deployed positions.  means for urging said pin to one of said withdrawn and deployed positions; and  an actuator energizable for moving said pin into the other of said withdrawn and deployed positions.  said plunger is tubular and includes a central bore disposed coaxially about said shaft for longitudinal movement relative thereto, a base plate disposed at one end of said plunger adjacent to said arm, an intermediate portion extending from said base plate and through said solenoid, and a flange joined to said intermediate portion at an opposite end of said plunger;  said plunger base plate includes a plurality of circumferentially spaced guide holes facing said arm, each of said guide holes including a pin tubular recess extending therefrom;  a plurality of said pins extend from respective ones of said pin recesses through respective ones of said plunger guide holes toward said arm, each pin including a flange joined to said pin proximal portion disposed in said pin recess;  a plurality of pin springs disposed in respective ones of said pin recesses for providing a spring force on said pin flange for urging said pin flange toward said guide hole for positioning said pin intermediate and distal portions outwardly from said plunger base plate toward said arm in an extended position for allowing said pin intermediate portion to contact said arm side surface in said deployed position, said pin recess having a longitudinal depth effective for allowing said pin to be urged into said recess against said spring in a retracted position when said pin distal portion contacts said arm top surface in said deployed position; and  said plunger being positionable in said deployed and withdrawn positions for deploying and withdrawing said pins by de-energizing and energizing said solenoid. 2. A rotary lock according to claim 1 wherein said pin positioning means comprises: 3. A rotary lock according to claim 2 wherein said actuator is a solenoid. 4. A rotary lock according to claim 3 further including a plunger slideably disposed in said solenoid and joined to said pin for moving said pin when said solenoid is energized. 5. A rotary lock according to claim 4 wherein: 6. A rotary lock according to claim 5 wherein said urging means is a plunger compression spring disposed around said plunger intermediate portion and between said base plate and said solenoid for urging said plunger base plate including said plurality of pins toward said arm in said deployed position when said solenoid is de-energized, said solenoid being effective for disposing said plunger and said pins in said withdrawn position and compressing said plunger compression spring when said solenoid is energized. 7. A rotary lock according to claim 5 wherein said urging means comprises said shaft and said plunger being oriented vertically with said plunger being disposed above said shaft arm for allowing gravity to pull said plunger toward said arm in said deployed position when said solenoid is de-energized. 8. A rotary lock according to claim 5 wherein said plunger base plate includes a perimeter having at least one longitudinal guide recess therein, said housing includes a longitudinal guide rail fixedly joined to said housing and extending parallel to and into said guide recess for allowing said plunger to move longitudinally along said shaft between said deployed and withdrawn positions while circumferentially restraining said plunger and said pins from rotating about said shaft when at least one of said pins contacts said arm side surface in said deployed position. 9. A rotary lock according to claim 8 further including a restraint plate spaced from a bottom surface of said shaft arm and having a plurality of circumferentially spaced restraint holes longitudinally aligned with respective ones of said pins, said pins being sized for positioning said distal portions into said restraint holes when in said deployed position. 10. A rotary lock according to claim 9 wherein said guide recess and rail are positioned for longitudinally aligning respective pairs of said pins and said restraint holes. 11. A rotary lock according to claim 10 further comprising a pair of said arms including a first arm and a second arm having side surfaces for contacting respective ones of said pins in said deployed position. 12. A rotary lock according to claim 11 wherein said pins, restraint holes, and arms are configured so that at least one of said pair of arms is positioned between adjacent ones of said pins for allowing said distal portions of said adjacent ones of said pins to be positioned in respective restraint holes in said deployed position without obstruction by said at least one arm. 13. A rotary lock according to claim 12 wherein said pins and said restraint holes are equiangularly spaced from each other and said second arm is disposed obliquely to said first arm for allowing said adjacent pins to enter said respective restraint holes without obstruction by said at least one arm. 14. A rotary lock according to claim 4 further including a support plate fixedly joined to said housing for fixedly supporting said solenoid and wherein said plunger is fixedly joined to said pin proximal portion. 15. A rotary lock according to claim 14 wherein said plunger is tubular having a central bore and further including a solenoid compression spring disposed in said central bore and said solenoid for moving said pin to said deployed position when said solenoid is de-energized, said solenoid being effective for moving said pin to said withdrawn position when energized. 16. A rotary lock according to claim 15 further including a restraint plate spaced from a bottom surface of said shaft arm and having at least one restraint hole longitudinally aligned with said pin, said pin being sized for positioning said pin distal portion into said restraint hole when in said deployed position. 17. A rotary lock according to claim 16 further including two of said solenoids, plungers, solenoid compression springs, pins, and restraint holes. 18. A rotary lock according to claim 17 further comprising a pair of said arms including a first arm and a second arm having side surfaces for contacting respective ones of said pins in said deployed position. 19. A rotary lock according to claim 18 wherein said pins, restraint holes, and arms are configured so that at least one of said pair of arms is positioned between adjacent ones of said pins for allowing said distal portions of said adjacent ones of said pins to be positioned in respective restraint holes in said deployed position without obstruction by said at least one arm. 20. A rotary lock according to claim 19 wherein said pins and said restraint holes are equiangularly spaced from each other and said second arm is disposed obliquely to said first arm for allowing said adjacent pins to enter said respective restraint holes without obstruction by said at least one arm.