Patent Number: 046860789
Section: claims

1. A method of displacing a weld scanner in and out of a horizontal reactor vessel nozzle, wherein vertical guide studs extend upwardly from an upper circular vessel flange with the studs and vessel submerged in a water pool, the scanner being mounted on a horizontal positively driven telescopic boom to which a vertical column is attached which is slideable between stop limits within a hub of a spider having legs adapted to span the flange with clamps on the outer ends of at least two legs adapted to slide on and grip two of said studs, at least one of the boom and column and spider legs defining a buoyancy chamber into which air and water may be introduced, comprising the steps of (a) introducing air into the buoyancy chamber,  (b) floating the scanner-boom-column-spider assembly in the pool with the upper end of the column extending above and the scanner and boom extending below the water surface,  (c) introducing some water into the chamber to cause the scanner-boom-column to sink relative to the spider until the column is stopped at its lower limit in the hub,  (d) affixing positioning rod means coaxial by to the upper end of the column,  (e) introducing more water into the chamber to sink the scanner-boom-column-spider assembly at substantially neutral buoyancy with the rod means projecting at its upper end above the pool surface,  (f) manipulating the rod means and introducing more water into the buoyancy chamber so that the leg clamps are lowered about the studs and the spider legs descend onto the vessel flange,  (g) closing the clamps to fix the spider relative to the vessel,  (h) moving the rod means vertically and rotating it to bring the scanner to a level coaxial with the nozzle,  (i) positively extending the telescopic boom to enable inspection by the scanner in the nozzle,  (j) positively retracting the boom after inspection,  (k) opening the spider clamps,  (l) introducing air into the chamber until the entire assembly is buoyant, and  (m) manipulating and then detaching the rod means as the assembly floats upwardly off the studs and to the surface.  (a) introducing air into each of the buoyancy chambers,  (b) floating the scanner-boom-column-spider assembly in the pool with the upper end of the column extending above and the scanner and boom extending below the water surface,  (c) introducing some water separate from the pool water into the boom chamber while controlling the braking of the hub and column to cause the scanner-boom-column to sink relative to the spider until the column is stopped at its lower limit in the hub,  (d) braking the hub to the column,  (e) affixing positioning rod means coaxially to the upper end of the column,  (f) introducing more water separate from the pool water into all of the buoyancy chambers to sink the scanner-boom-column-spider assembly at substantially neutral buoyancy with the rod means projecting at its upper end above the pool surface,  (g) manipulating the rod means and introducing more water separate from the pool water into all of the buoyancy chambers so that the two leg clamps are lowered about two of the studs and all three spider legs descend onto the vessel flange,  (h) closing the two clamps to fix the spider relative to the vessel,  (i) moving the rod means vertically and rotating it to bring the scanner to a level coaxial with the nozzle,  (j) positively extending the telescopic boom to enable inspection by the scanner in the nozzle,  (k) positively retracting the boom after inspection,  (l) introducing air into the spider leg chambers to render them positively buoyant while the other chambers are still negatively buoyant,  (m) rotating the boom by the rod means so that it is under the spider leg without a clamp,  (n) opening the spider clamps,  (o) introducing air first into the boom fore chamber and then into the boom aft chamber so that the entire assembly is buoyant,  (p) manipulating and then detaching the rod means as the assembly floats upwardly off the studs and to the surface. the assembly floats upwardly off the studs and to the surface.  (q) introducing air into all of the chambers when the assembly is on the pool surface.  (r) ceasing the braking of the hub on the column to cause the scanner-boom-column to rise relative to the spider until the column is stopped at its upper limit in the hub, and  (s) removing the assembly from the pool.  (a) a spider having legs adapted to span the flange,  (b) a central hub in the spider in which the column is slideable,  (c) stop means for limiting the slideable movement of the column in the hub,  (d) clamps operable by remote control on the outer ends of at least two legs adapted to slide on and grip two of said studs,  (e) at least one of the boom and column and spider legs defining a buoyancy chamber,  (f) means operable by remote control for introducing air into and releasing it from said chamber,  (g) means operable by remote control for introducing water into and draining it from said chamber, and  (h) positioning rod means coaxially attachable to the column remote from the boom for manipulating the scanner-boom-column-spider assembly when submerged,  (i) the weight of the apparatus being such that it is buoyant in water when air is introduced into said chamber.  (a) a spider having three substantially equally spaced legs adapted to span the flange,  (b) a central hub in the spider in which the column is slideable,  (c) braking means operable by remote control for controlling axial and rotational displacement of the column in the spider hub,  (d) clamps operable by remote control on the outer ends of two of said legs adapted to slide on and grip two of said studs,  (e) each of the columns and spider legs defining a single buoyancy chamber and the boom defining two fore and aft buoyancy chambers,  (f) means operable by remote control for introducing water into and releasing it from said chambers,  (g) means operable by remote control for introducing water into and releasing it from said chambers,  (h) said introduced water being separate from the pool water, and  (i) positioning rod means coaxially attachable to the column remote from the boom for manipulating the scanner-boom-column-spider assembly when submerged,  (j) the weight of the apparatus being such that it is buoyant in water when air is introduced into all of said chambers. 2. A method according to claim 1 wherein the spider has three legs two of which have two clamps slideable on two studs, each of the three legs having a buoyancy chamber. 3. A method according to claim 2 wherein after retraction the boom is rotated by the rod means to be under one of the spider legs. 4. A method according to claim 1 wherein each of the boom and column and spider legs define buoyancy chambers. 5. A method according to claim 1 wherein the boom is provided with two fore and aft buoyancy chambers. 6. A method according to claim 1 wherein the column is rotatable in the hub. 7. A method according to claim 1 wherein the column can be braked in the hub. 8. A method according to claim 1 wherein after the boom is retracted and before the clamps are opened air is introduced into the spider leg chambers to render them positively buoyant while the other chambers are still negatively buoyant. 9. A method according to claim 1 wherein the water introduced into the buoyancy chambers is maintained separate from the pool water. 10. A method of displacing a weld scanner in and out of a horizontal reactor vessel nozzle, wherein two spaced vertical guide studs extend upwardly from an upper circular vessel flange approximately 120 degrees apart with the studs and vessel submerged in a water pool, the scanner being mounted on a horizontal positively driven telescopic boom to which a vertical column is attached which is slideable between stop limits and rotatable within and can be braked with respect to a hub of a spider having three equally spaced legs adapted to span the flange with clamps on the outer ends of two of the legs adapted to slide on and grip two of the studs, each of the columns and spider legs defining one buoyancy chamber and the boom defining two fore and aft buoyancy chambers into which air and water may be introduced, comprising the steps of 11. In combination with a weld scanner mounted on a positively driven telescopic boom to which a perpendicular column is attached, apparatus for buoyantly displacing the scanner in and out of a horizontal reactor vessel nozzle wherein vertical guide studs extend upwardly from an upper circular vessel flange with the studs and vessel submerged in a water pool, comprising 12. Apparatus according to claim 11 wherein two guide studs extend from the flange approximately 120 degrees apart. 13. Apparatus according to claim 12 wherein the spider has three substantially equally spaced legs and clamps are included on two of said legs. 14. Apparatus according to claim 11 wherein each of the boom and column and spider legs defines a buoyancy chamber. 15. Apparatus according to claim 11 wherein the boom defines two fore and aft chambers. 16. Apparatus according to claim 11 wherein the water supply for the chambers is separate from the pool water. 17. Apparatus according to claim 11 wherein braking means operable by remote control are provided for controlling axial and rotational displacement of the column in the spider hub. 18. In combination with an ultrasonic weld scanner mounted on a positively driven telescopic boom operable by remote control to which a perpendicular column is attached, apparatus for buoyantly displacing the scanner in and out of a horizontal reactor vessel nozzle, wherein two vertical guide studs extend upwardly from an upper circular vessel flange approximately 120 degrees apart with the studs and vessel submerged in a water pool, comprising