Patent Number: 
Section: claims

1. A method for inspecting an annulus region of a reactor pressure vessel in a nuclear power plant, comprising:positioning a partial track on an annular rim of a core shroud in the reactor pressure vessel such that the track is horizontally movable along the rim;positioning a frame assembly on the partial track, the frame assembly comprising:a frame movably connected to the partial track such that the frame is horizontally movable along the partial track;connecting at least one mast assembly to the frame assembly;connecting at least one mast positioning assembly to the frame assembly;connecting at least one inspection device to the frame assembly;connecting a braking system to the partial track and the frame assembly; andmoving horizontally at least one of the partial track and the frame assembly along the rim, which comprises:activating the braking system to horizontally move the frame assembly along the partial track with the partial track being stationary; anddeactivating the braking system to horizontally move the partial track along the rim of the annular rim of the core shroud and the frame assembly being stationary; andinspecting a component in a limited access area. 2. The method of claim 1, further comprising assessing the inspection results and determining if modification or repair of the component is needed. 3. The method of claim 1, wherein the at least one mast assembly comprises a mast that is capable of becoming rigidly stable in an extended tube form and a retracted rolled form. 4. The method of claim 1, wherein the connecting at least one mast assembly to the frame assembly comprises positioning a first mast assembly on one side of the frame and a second mast assembly on an opposite side of the frame. 5. The method of claim 1, wherein the connecting at least one mast positioning device to the frame assembly comprises positioning a first mast positioning device on one side of the frame and a second mast positioning device on an opposite side of the frame. 6. The method of claim 1, wherein the connecting at least one mast positioning device to the frame assembly comprises positioning a first pan and tilt assembly on one side of the frame and a second pan and tilt assembly on an opposite side of the frame. 7. The method of claim 1, wherein moving the frame assembly along the partial track comprises connecting to the frame assembly a positioning motor and gear combination. 8. The method of claim 1, wherein the inspection device is a camera. 9. A method for inspecting a component in a nuclear power plant, comprising:positioning a partial track on an annular rim of a core shroud in the reactor pressure vessel such that the track is horizontally movable along the rim;positioning a frame assembly on the partial track, the frame assembly comprising:a frame movably connected to the partial track such that the frame is horizontally movable along the partial track;connecting at least one mast assembly to the frame assembly;connecting at least one mast positioning assembly to the frame assembly;connecting at least one inspection device to the frame assembly;connecting a braking system to the partial track and the frame assembly;moving horizontally at least one of the partial track and the frame assembly along the rim, which comprises:activating the braking system to horizontally move the frame assembly along the partial track with the partial track being stationary; anddeactivating the braking system to horizontally move the partial track along the rim of the annular rim of the core shroud and the frame assembly being stationary; andinspecting a component in a limited access area selected from a core annulus, core spray region and feedwater sparger region. 10. The method of claim 9, further comprising lowering the inspection device into an annulus formed between the reactor pressure vessel and the core shroud; and inspecting the core shroud.