Patent Number: 
Section: claims

1. A method of inserting a debris trap in a fuel bundle of a nuclear reactor, the debris trap including a shaft and a debris capture tray attached to the shaft, the method comprising:(a) lowering the debris trap to a position adjacent a bottom of the fuel bundle; and(b) positioning the debris capture tray under the fuel bundle,wherein the debris trap includes a pivot actuator at one end thereof, and wherein the debris capture tray is pivotally attached to an opposite end of the shaft and is pivotable via the pivot actuator between an insertion position and a capture position, the method further comprising performing step (a) with the debris capture tray in the insertion position, and prior to step (b), pivoting the debris capture tray to the capture position. 2. A method according to claim 1, wherein step (a) is practiced from a refueling bridge of the nuclear reactor. 3. A method according to claim 1, wherein the debris capture tray includes a vacuum port, the method further comprising attaching a vacuum source to the vacuum port on the debris capture tray. 4. A method of inserting a debris trap in a fuel bundle of a nuclear reactor, the debris trap including a shaft and a debris capture tray attached to the shaft, the method comprising:(a) lowering the debris trap to a position adjacent a bottom of the fuel bundle; and(b) positioning the debris capture tray under the fuel bundle,wherein the debris capture tray is pivotable relative to the shaft between an insertion position and a capture position, wherein step (a) is practiced by pivoting the debris capture tray to the insertion position, and wherein step (b) is practiced by pivoting the debris capture tray from the insertion position to the capture position. 5. A method according to claim 4, wherein in the insertion position, the debris capture tray is positioned such that a lengthwise axis of the debris capture tray is substantially in alignment with the shaft. 6. A method according to claim 5, wherein in the insertion position, the debris capture tray is positioned such that the debris capture tray in its entirety extends beyond the pivot joint in substantial alignment with the shaft. 7. A method according to claim 4, the method further comprising, prior to step (b), lifting the fuel bundle by a mast, wherein step (b) is practiced by completely covering an orifice in a bottom of the fuel bundle. 8. A method for catching debris falling through a fuel bundle orifice in a nuclear reactor using a debris trap, the debris trap including a shaft with a pivot actuator at one end thereof, a debris capture tray pivotally attached to an opposite end of the shaft, a pivot shaft coupled to the pivot actuator and the debris capture tray and displaceable by the pivot actuator relative to the shaft, and a pivot mechanism connected between the pivot shaft and the debris capture tray, the pivot mechanism being actuated by the pivot actuator, the method comprising manipulating the pivot actuator to displace the pivot shaft relative to the shaft to thereby pivot the debris capture tray about a pivot joint between an insertion position and a capture position, wherein in the insertion position, a lengthwise axis of the debris capture tray is substantially in alignment with the shaft, and wherein in the insertion position, the debris capture tray in its entirety extends beyond the pivot joint in substantial alignment with the shaft. 9. A method according to claim 8, comprising providing the shaft of a length sufficient to extend from a refueling bridge of a nuclear reactor to a bottom of the fuel bundle. 10. A method of assembling a debris trap and for catching debris falling through a fuel bundle orifice in a nuclear reactor using the debris trap, the method comprising:pivotally attaching a debris capture tray to one end of a shaft, the shaft including a pivot actuator at an opposite end;connecting a pivot mechanism between the debris capture tray and the shaft, the pivot mechanism being actuated by the pivot actuator;slidably coupling a pivot shaft with the shaft, wherein the pivot mechanism comprises a tray bracket secured to the debris capture tray, and a link connected between the tray bracket and the pivot shaft,wherein the debris capture tray includes a tray cavity, and wherein the pivot actuator is operable to pivot the debris capture tray between an insertion position and a capture position;connecting a shaft connector between the shaft and the debris capture tray, the shaft connector being pivotally connected to the debris capture tray via a pivot joint; anddisplacing the pivot shaft relative to the shaft to cause the debris capture tray to pivot between the insertion position and the capture position, wherein in the insertion position, a lengthwise axis of the debris capture tray is oriented substantially in alignment with the shaft, and wherein in the insertion position, the debris capture tray in its entirety extends beyond the pivot joint in substantial alignment with the shaft. 11. A method according to claim 10, wherein the debris capture tray includes a vacuum port, the method further comprising attaching a vacuum source to a vacuum port in the debris capture tray. 12. A method of inserting a debris trap in a fuel bundle of a nuclear reactor, the debris trap including a shaft and a debris capture tray attached to the shaft, the method comprising:(a) lowering the debris trap to a position adjacent a bottom of the fuel bundle; and(b) positioning the debris capture tray under the fuel bundle,wherein the debris trap further includes a pivot actuator at one end of the shaft, a pivot shaft coupled to the pivot actuator and the debris capture tray and displaceable by the pivot actuator relative to the shaft, and a pivot mechanism connected between the shaft and the debris capture tray, the method further comprising actuating the pivot mechanism via a pivot actuator and manipulating the pivot actuator to displace the pivot shaft relative to the shaft to thereby pivot the debris capture tray about a pivot joint between an insertion position and a capture position, wherein in the insertion position, a lengthwise axis of the debris capture tray is substantially in alignment with the shaft, and wherein in the insertion position, the debris capture tray in its entirety extends beyond the pivot joint in substantial alignment with the shaft.