Single-axis inspection scope with anti-rotation extension and method for internal inspection of power generation machinery

What is claimed is: 1. A system for internal inspection of a power generation machine, comprising: a single-axis, extendable inspection scope, for insertion into an inspection port of a power generation machine, having: first, and second nested, telescoping tubes, respectively having proximal and distal ends, inner and outer circumferential surfaces, and axial length, the second telescoping tube having a coaxially oriented linear track on its inner or outer circumferential surface, the first telescoping tube having a first anti-rotation collar coupled proximal the distal end thereof, which defines a groove that is in sliding engagement with the linear track of the second telescoping tube; first and second nested drive tubes retained within the telescoping tubes, respectively having proximal and distal ends and axial length, the first drive tube having a first drive bushing coupled to the distal end thereof, both of which are rotatable within the telescoping tubes, the first drive bushing defining a bore with female drive threads, the second drive tube defining external male drive threads in engagement with the first drive bushing female threads; a camera-mounting collar rigidly coupled to the respective distal ends of a circumscribing one of the first or the second telescoping tubes and the second drive tube, preventing relative rotation thereof; a rotatable drive hub coupled to the proximal end of the first drive tube, for selective rotation thereof; a mounting flange coupled to the circumscribing one of the first or the second telescoping tubes, for affixation to a power generation machine inspection port; and a spherical camera, having a 360 degree field of view, coupled to the camera mounting collar, for insertion into a power generation machine and capture of inspection images therein. 2. The system of claim 1 , further comprising: the first telescoping tube circumscribing the second telescoping tube, said first anti-rotation collar circumscribed by and in contact with the inner circumferential surface of the first telescoping tube; and the linear track coupled to the outer circumferential surface of the second telescoping tube. 3. The system of claim 1 , further comprising: a distal portion of the rotatable drive hub oriented within the proximal end of the circumscribing first or second telescoping tube, and engaged within the first drive tube; a proximal portion of the drive hub coupled to a driven gear that is external the first telescoping tube; a first drive gear engaged with the driven gear, for rotating the driven gear and the drive hub; and a drive apparatus coupled to the first drive gear. 4. The system of claim 3 , the drive apparatus comprising a hand crank. 5. The system of claim 3 , the drive apparatus comprising an electric motor. 6. The system of claim 3 , further comprising: the first drive gear directly engaged with the driven gear, driven by a hand crank drive apparatus; and a second drive gear directly engaged with the driven gear, driven by an electric motor; the respective drive gears independently and selectively capable of driving the driven gear. 7. The system of claim 2 , further comprising an intermediate telescoping tube interposed and nested between the first and second telescoping tubes, the intermediate telescoping tube defining a coaxially oriented, intermediate linear track on an outer circumferential surface thereof, for engagement with the anti-rotation collar of the first telescoping tube, and an anti-rotation collar coupled proximal a distal end thereof, in sliding engagement with the axial track of the second telescoping tube. 8. The system of claim 1 , further comprising at least one additional drive tube interposed and nested between the first and second drive tubes, each additional drive tube defining male drive threads on an outer circumferential surface thereof, for engagement with female threads of a drive bushing of a circumscribing drive tube, and a drive bushing coupled proximal a distal end thereof, in engagement with drive threads of an inscribed drive tube retained therein. 9. The system of claim 1 , further comprising a camera housing coupled to the camera collar, enveloping the camera. 10. The system of claim 9 , the camera housing further comprising an illumination system, coupled thereto, for illuminating the camera field of view. 11. The system of claim 1 , further comprising: a position encoder, for correlating hub rotation with axial displacement of the camera field of view; and an image processing system coupled to the camera and the position encoder, for storing plural images taken at different camera axial displacement positions, and for combining plural inspection images into a composite image. 12. A system for internal inspection of a power generation machine, comprising: a single-axis, extendable inspection scope, which defines an extension axis, for insertion into an inspection port of a power generation machine, the scope having: first, second, third, and fourth nested, telescoping tubes, respectively having proximal and distal ends and axial length, the second, third and fourth telescoping tubes respectively having a coaxially oriented linear track on an outer circumferential surface thereof, the first telescoping tube having a first anti-rotation collar coupled proximal the distal end thereof, in sliding engagement with the linear track of the second telescoping tube, the second telescoping tube having a second anti-rotation collar coupled proximal the distal end thereof, in sliding engagement with the linear track of the third telescoping tube, the third telescoping tube having a third anti-rotation collar coupled proximal the distal end thereof, in sliding engagement with the linear track of the fourth telescoping tube; first, second and third nested drive tubes retained within the telescoping tubes, respectively having proximal and distal ends and axial length, the first drive tube having a first drive bushing coupled to the distal end thereof, both of which are rotatable within the fourth telescoping tube, the first drive bushing defining a bore with female drive threads, the second drive tube defining external male threads in engagement with the first drive bushing female threads, and having a second drive bushing coupled to the distal end thereof, both of which are rotatable within the fourth telescoping tube, the second drive bushing defining a bore with female drive threads, the third drive tube defining external male threads in engagement with the second drive bushing female threads; a camera-mounting collar rigidly coupled to the respective distal ends of the fourth telescoping tube and the third drive tube, preventing relative rotation thereof; a rotatable drive hub coupled to the proximal end of the first drive tube, for selective rotation thereof; a mounting flange coupled to the first telescoping tube, for affixation to a power generation machine inspection port; and a spherical camera, having a 360 degree field of view, coupled to the camera mounting collar, for insertion into a power generation machine and capture of inspection images therein. 13. The system of claim 12 , at least one of the anti-rotation collars retaining a ball bearing that is in engagement within the axial groove of the second telescoping tube. 14. The system of claim 12 , further comprising: a distal portion of the rotatable drive hub oriented within the proximal end of the first telescoping tube, and engaged within the first drive tube; a proximal portion of the drive hub coupled to a driven gear that is external the first telescopin