Patent Number: 055240305
Section: claims

1. A probe for detecting the axial position of a magnet relative to an axis of said probe, comprising a first analog position sensor arranged at a first axial position along said probe axis, said first analog position sensor outputting a voltage signal which varies as a function of the axial distance between said first analog position sensor and said magnet, and means for focusing magnetic flux from said magnet onto said first analog position sensor, said magnetic flux focusing means being arranged along said probe axis adjacent said first analog position sensor. 2. The probe as defined in claim 1, wherein said first analog position sensor means comprises a Hall effect transistor. 3. The probe as defined in claim 1, wherein said magnetic flux focusing means comprises a cylindrical piece of low-carbon steel having an end shaped as a truncated cone. 4. The probe as defined in claim 1, further comprising second and third analog position sensors respectively arranged at second and third axial positions along said probe axis, each of said second and third said first analog position sensor outputting a voltage signal which varies as a function of the axial distance between said respective second or third analog position sensor and said magnet. 5. The probe as defined in claim 4, further comprising second and third means for focusing magnetic flux from said magnet onto said second and third analog position sensors respectively, said second and third magnetic flux focusing means being arranged along said probe axis adjacent said second and third analog position sensors respectively. 6. A probe assembly comprising a probe as defined in claim 4, first, second and third selectively activatable indicators, processing means connected to receive the voltage signals output from said first, second and third analog position sensors and selectively activate one of said first, second and third indicators in accordance with a protocol, and means for supporting said probe, said first, second and third indicators, and said processing means. 7. The probe assembly as defined in claim 6, wherein said first indicator comprises an first LED having a first color, said second indicator comprises a second LED having a second color different than said first color, and said third indicator comprises a third LED having a third color different than said first and second colors, and wherein said protocol comprises activating said first LED only if the voltage signal output from said first analog position sensor is greater than a first predetermined threshold, activating said third LED only if the voltage signal output from said third analog position sensor is greater than a third predetermined threshold, and activating said second LED only if the voltage signal output from said second analog position sensor is greater than a second predetermined threshold and the voltage signals output from said first and third analog position sensors are less than said first and third predetermined thresholds respectively. 8. The probe assembly as defined in claim 6, further comprising a base supported by supporting means, said base having a centerline axis which is coaxial with said probe axis, and means for attaching said supporting means to a threaded end of a piston tube in a control rod drive. 9. An uncoupling tool comprising a probe assembly as defined in claim 6 and a driver assembly, said driver assembly in turn comprising a drive screw, a thrust plate, a bearing for rotatably coupling said thrust plate to said drive screw assembly, threaded means for supporting said drive screw and means for attaching said threaded means to a ring flange of said control rod drive, said probe assembly being lifted by the force transmitted by said thrust plate in response to rotation of said drive screw. 10. A tool for uncoupling a control rod from a control rod drive which has its position indicator probe removed, comprising first, second and third Hall effect transistors arranged along a tool axis, first, second and third selectively activatable indicators, processing means connected to receive respective voltage signals from said first, second and third Hall effect transistors and selectively activate one of said first, second and third indicators as a function of the voltage signals from said first, second and third Hall effect transistors, first support means for supporting said first, second and third Hall effect transistors along said tool axis, second support means for supporting said first, second and third indicators and said processing means, said first support means being connected to said second support means, and first attachment means for attaching said second support means to an end of a piston tube in the control rod drive, whereby said first, second and third Hall effect transistors are fixed relative to said piston tube at respective axial positions inside the piston tube. 11. The uncoupling tool as defined in claim 10, further comprising means for focusing magnetic flux from said magnet onto said first Hall effect transistor. 12. The uncoupling tool as defined in claim 11, wherein said magnetic flux focusing means comprises a cylindrical piece of low-carbon steel having an end shaped as a truncated cone. 13. The uncoupling tool as defined in claim 12, wherein said processing means activates said first indicator if the voltage signal output from said first Hall effect transistor is greater than a first predetermined threshold, activates said third indicator if the voltage signal output from said third Hall effect transistor is greater than a third predetermined threshold and activates said second indicator if the voltage signal output from said second Hall effect transistor is greater than a second predetermined threshold and the voltage signals output from said first and third Hall effect transistors are respectively less than said first and third predetermined thresholds, said first, second and third predetermined thresholds being set such that said first indicator is activated when the control rod is in its "full out" position, said third indicator is activated when the control rod is uncoupled from the control rod drive, and said second indicator is activated when the control rod is in a transition position between the "full out" and uncoupled positions. 14. The uncoupling tool as defined in claim 12, wherein said first indicator comprises an first LED having a first color, said second indicator comprises a second LED having a second color different than said first color, and said third indicator comprises a third LED having a third color different than said first and second colors. 15. The uncoupling tool as defined in claim 10, further comprising means for raising said first attachment means, and second attachment means for attaching said raising means to said control rod drive such that said piston tube is raised in unison with said first attachment means. 16. A tool for uncoupling a control rod from a control rod drive which has its position indicator probe removed, which has a magnet housing coupled to a control rod by way of an index tube and a spud, and which has a piston tube which must be displaced upward relative to the magnet housing to uncouple the control rod, comprising: first, second and third analog position sensors respectively arranged at first, second and third positions along an axis, each of said analog position sensors outputting a voltage signal which varies as a function of the axial distance between said respective analog position sensor and said magnet;  first, second and third selectively activatable indicator lamps;  processing means connected to receive voltage signals from said first, second and third analog position sensors and then activate said first indicator if the voltage signal output from said first analog position sensor is greater than a first predetermined threshold, activate said third indicator if the voltage signal output from said third analog position sensor is greater than a third predetermined threshold, and activate said second indicator if the voltage signal output from said second analog position sensor is greater than a second predetermined threshold and the voltage signals output from said first and third analog position sensors are respectively less than said first and third predetermined thresholds;  means for supporting said analog position sensors, said indicators and said processing means; and  first attachment means for attaching said supporting means to an end of the piston tube,  wherein said first, second and third predetermined thresholds are set such that said first indicator is activated when the control rod is in its "full out" position, said third indicator is activated when the control rod is uncoupled from the control rod drive, and said second indicator is activated when the control rod is in a transition position between the "full out" and uncoupled positions. 17. The uncoupling tool as defined in claim 16, wherein said supporting means are configured such that said first, second and third analog position sensors are spaced along a centerline axis of said piston tube, further comprising means for raising said first attachment means, and second attachment means for attaching said raising means to said control rod drive such that said piston tube is raised in unison with said first attachment means.