Patent Number: 051568039
Section: claims

1. An apparatus for inspection of a reactor vessel comprising: a support mast;  a first trolley for supporting the support mast to the wall flange of a reactor vessel and transporting the support mast along the inside side wall of the reactor vessel;  an extension mast capable of vertically extending below the support mast, the extension mast being translated by means of a second trolley engaged between the extension mast and the support mast;  an end effector connected to the lower portion of the extension mast for inspecting the reactor vessel wall, said effector comprising  an electric motor;  a gear box operatively engaged with the motor;  a transmission means operatively engaged to the gear box for displacing the rack in the tangential direction.  a support arm connecting the end effector means to the extension mast;  a spring loaded bearing connecting the support arm to the extension mast for continuously applying a torque forcing the end effector means in a direction radially towards the reactor vessel wall;  means for forcing the end effector means in a direction radially opposite the reactor vessel wall.  a positioning arm pivotably affixed to the lower portion of the support mast;  means for pivotably moving the position arm in an axial direction;  a distance measuring device affixed to the positioning arm for measuring the distance to a lug on a shroud of a reactor.  a nozzle within the member, the nozzle capable of radially displacing a beam, affixed to the support mast, relative to the member.  an arm pivotably affixed to the support mast;  means for pivotably moving the arm from a retracted position to a verification position;  a simulation block holder located at the end of the arm for supporting the simulation block wherein said means may cause the arm to extend into the verification position such that the simulation block will interface with the probes of the end effector for verification of the probes.  a main frame;  an upper drive device connected to the main frame;  a lower drive device connected to the main frame;  a horizontal trolley affixed to a rack operatively connected to the upper drive device, the horizontal trolley capable of tangential movement relative to the main frame;  a probe position trolley affixed to the horizontal trolley, the probe position trolley capable of being moved tangentially relative to the horizontal trolley;  a probe holder capable of securing ultrasonic-type probes, the probe holder affixed to the probe position trolley by a shaft.  an electric motor;  a gear box operatively engaged with the motor;  a transmission means operational engaged to the gear box for displacing the rack in the tangential direction.  a positioning arm pivotably affixed to the lower portion of the support mast;  means for pivotably moving the position arm in an axial direction;  a distance measuring device affixed to the positioning arm for measuring the distance to a lug on a shroud of a reactor.  a nozzle within a member affixed to the main trolley, the nozzle capable of radially displacing a beam, affixed to the support mast, relative to the member.  an arm pivotably affixed to the support mast;  means for pivotably moving the arm from a retracted position to a verification position;  a simulation block holder located at the end of the arm for supporting a simulation block wherein activation of the means for pivotably moving the arm may cause the arm to extend into the verification position such that the simulation block will interface with probes of an end effector for verification of the probes. 2. The apparatus for inspection of a reactor vessel according to claim 1 wherein the tilting device comprises an arm attached to the support mast; and means for altering the angle between the support mast. 3. The apparatus for inspection of a reactor vessel according to claim 2 wherein the tilting device further comprises a support wheel connected to the arm for contacting the reactor vessel wall. 4. The apparatus for inspection of a reactor vessel according to claim 1 wherein the lower drive device is adapted to rotate the probe position trolley around the shaft. 5. The apparatus for inspection of a reactor vessel according to claim 1 further comprising means for disengaging the shaft from the horizontal trolley. 6. The apparatus for inspection of a reactor vessel according to claim 5 wherein the upper drive device comprises: 7. The apparatus for inspection of a reactor vessel according to claim 6 further comprising: 8. The apparatus for inspection of a reactor vessel according to claim 7 further comprising a locking pin affixed to the main frame and insertable into an aperture located on a front plate of the probe position trolley wherein the probe position trolley may be locked to the main frame when the pin is inserted into the aperture. 9. The apparatus for inspection of a reactor vessel according to claim 8 further comprising a rope affixed to the horizontal trolley and passing through a hole in an output shaft of the gear box of the upper drive device wherein applying a tension to the rope enables the horizontal trolley to be moved to a central position. 10. The apparatus for inspection of a reactor vessel according to claim 9 further comprising tangential direction fine positioning system. 11. The apparatus for inspection of a reactor vessel according to claim 10 wherein the tangential direction fine positioning system comprises: 12. The apparatus for inspection of a reactor vessel according to claim 11 comprising a radial direction fine positioning system comprising a rotatable member affixed to the first trolley. 13. The apparatus for inspection of a reactor vessel according to claim 12 wherein the radial direction fine positioning system further comprises: 14. The apparatus for inspection of a reactor vessel according to claim 11 further comprising a simulation block located at the lower portion of the support mast for verifying the accuracy of probe on the probe holder. 15. The apparatus for inspection of a reactor vessel according to claim 14 further comprising: 16. In an apparatus for inspection of a reactor vessel having a support mast and an extension mast extendable along the inside of a reactor vessel, an end effector comprising: 17. In an apparatus for inspection of a reactor having a support mast and an extension mast extendable along the inside of a reactor vessel, the end effector according to claim 16 further comprising a means for disengaging the shaft from the horizontal trolley. 18. In an apparatus for inspection of a reactor vessel having a support mast and an extension mast extendable along the inside of a reactor vessel, the end effector according to claim 17 wherein the means for disengaging the shaft from the horizontal trolley comprises a lower drive device adapted to rotate the probe position trolley around the shaft; and means for activating a spring loaded locking pin to allow rotation of the probe position trolley around the shaft. 19. In an apparatus for inspection of a reactor vessel having a support mast and an extension mast extendable along the inside of a reactor vessel, the end effector according to claim 16 wherein the upper drive device comprises: 20. In an apparatus for inspection of a reactor vessel having a support mast and an extension mast extendable along the inside of a reactor vessel, a tangential direction fine positioning system comprising: 21. In an apparatus for inspection of a reactor vessel having a support mast connected to a main trolley supporting the support mast on the wall flange of a reactor vessel and an extension mast extendable along the inside of a reactor vessel, a radial direction fine positioning system comprising: 22. In an apparatus for inspection of a reactor vessel having a support mast and an extension mast extendable along the inside of a reactor vessel, a verification system comprising: