Patent Number: 
Section: claims

1. A remotely operated vehicle for inspecting a core shroud with an axis and an outside surface, comprising:an abdomen with a first side; anda first wing swingly connected through a first hinge to the first side of the abdomen;wherein the first hinge has an axis that is substantially parallel to the axis of the core shroud;wherein each of the abdomen and the first wing has a curved profile that is configured to conform to the outside surface of the core shroud; andwherein the first wing further comprises a rail and a gimbal attached to the rail through a linear bearing. 2. The remotely operated vehicle of claim 1, further comprising:a set of horizontal wheels that are configured to move the remotely operated vehicle around the outside surface of the core shroud; anda set of vertical wheels that are configured to move the remotely operated vehicle along the axis of the core shroud. 3. The remotely operated vehicle of claim 2, wherein at least one of the sets of wheels is configured to be retracted as not to be in contact with the outside surface of the core shroud. 4. The remotely operated vehicle of claim 1, comprising:an ultrasonic probe; anda probe positioning system that is configured to translate and rotate the ultrasonic probe. 5. The remotely operated vehicle of claim 1, further comprising a handle that is configured to guide an installation arm to a flat middle portion of the handle. 6. The remotely operated vehicle of claim 5, the handle comprising raised outer edges that are slanted toward the flat middle portion. 7. The remotely operated vehicle of claim 1, comprising a vacuum system that is configured to adhere the remotely operated vehicle to the surface of the core shroud, the vacuum system comprising:a venturi valve that is configured to draw water from a void in the remotely operated vehicle; anda pump configured to supply water pressure to the venturi valve. 8. The remotely operated vehicle of claim 7, the vacuum system comprising a sealing ring that defines the void. 9. The remotely operated vehicle of claim 8, the sealing ring comprising a foam ring and a cover over the foam ring. 10. The remotely operated vehicle of claim 1, wherein the first hinge is spring loaded to bias the first wing toward the outside surface of the core shroud. 11. The remotely operated vehicle of claim 10, wherein the spring loaded hinge includes a torsion spring. 12. The remotely operated vehicle of claim 1, wherein the rail is substantially parallel to the axis of the core shroud. 13. The remotely operated vehicle of claim 12, further comprising a motion driving mechanism connected to the gimbal for moving the gimbal along the rail. 14. The remotely operated vehicle of claim 1, wherein the curved profile of each of the abdomen and the first wing has a curvature that is a function of an outer radius of the core shroud. 15. The remotely operated vehicle of claim 1, wherein the abdomen includes a second side opposite the first side;wherein a second wing is swingly connected through a second hinge to the second side of the abdomen;wherein the second hinge has an axis that is substantially parallel to the axis of the core shroud; andwherein the second wing has a curved profile that is configured to conform to the outside surface of the core shroud. 16. The remotely operated vehicle of claim 15, wherein the curved profile of each of the abdomen, the first wing, and the second wing has a curvature that is a function of an outer radius of the core shroud. 17. The remotely operated vehicle of claim 15, wherein the first hinge is spring loaded to bias the first wing toward the outside surface of the core shroud and the second hinge is spring loaded to bias the second wing toward the outside surface of the core shroud.