Patent Number: 
Section: claims

1. A digital radiographic tool for inspecting a pipe with obstructions adjacent said pipe, a power source to operate said digital radiographic tool, said digital radiographic tool comprising:a track assembly removably secured along said pipe, said track assembly being in sections joined and held together by a latch;a gear rack in said track assembly and extending along with said track assembly;a drive car mounted on said track assembly;an arm assembly attached on a first end to said drive car, which arm assembly is perpendicular and adjacent to said pipe, said arm assembly being extendable along a longitudinal axis thereof;a linear digital array being attached to a second end of said arm assembly and held adjacent said pipe;a collimator assembly attached to said drive car on a near end thereof;a collimator on a far end of said collimator assembly, said collimator for directing x-rays on gamma rays toward said pipe, said linear digital array for collecting x-rays or gamma rays that pass through said pipe;gears in said drive car connected to said gear rack in said track assembly;a motor in said drive car for turning said gears, said power source being connected to said motor, said collimator and said linear digital array so that as said drive car is moved along said track assembly by said motor via said gears, said collimator directs said x-rays or gamma rays toward said pipe and said linear digital array collects any x-rays or gamma rays that have passed through said pipe; andrecorder for receiving and recording said collected x-rays or gamma rays verses position along said pipe to show any defects in said pipe. 2. The digital radiographic tool for inspecting a pipe with obstructions adjacent said pipe as recited in claim 1 wherein said arm assembly is adjustable in length and said collimator assembly is pivotally connected to said drive car so that said digital radiographic tool can inspect pipes of different diameters. 3. The digital radiographic tool for inspecting a pipe with obstructions adjacent said pipe as recited in claim 2 wherein said collimator is adjustable along said collimator assembly and said collimator assembly has multiple pivot points, thereby allowing said digital radiographic tool to be adjusted in multiple ways to avoid said obstructions adjacent said pipe. 4. The digital radiographic tool for inspecting a pipe with obstructions adjacent said pipe as recited in claim 1 wherein said motor is a stepper motor with a stepper driver to move said digital radiographic tool a predetermined distance along said pipe with each drive signal received. 5. The digital radiographic tool for inspecting a pipe with obstructions adjacent said pipe as recited in claim 4 further includes a control for sending said drive signal to said stepper motor, said control being connected to said recorder to show said defects in said pipe. 6. The digital radiographic tool for inspecting a pipe with obstructions adjacent said pipe as recited in claim 5 wherein said control includes a laptop computer programmed to operate said digital radiographic tool and show said defects in said pipe. 7. The digital radiographic tool for inspecting a pipe with obstructions adjacent said pipe as recited in claim 1 wherein said arm assembly has multiple T-slot frames telescopingly connected together and held in a desired position by thumb screws. 8. The digital radiographic tool for inspecting a pipe with obstructions adjacent said pipe as recited in claim 7 wherein said track assembly has a track frame with linear rails attached on either side of said track frame, said gear rack being between said linear rails. 9. The digital radiographic tool for inspecting a pipe with obstructions adjacent said pipe as recited in claim 8 wherein said sections of said track assembly has on opposite ends of said linear rails alignment pins and alignment holes for mating together. 10. The digital radiographic tool for inspecting a pipe with obstructions adjacent said pipe as recited in claim 9 wherein said latch is pivotally mounted on one end of said section of said track frame, said latch removably connecting with a catch on an opposite end of a next of said sections of said track frame. 11. The digital radiographic tool for inspecting a pipe with obstructions adjacent said pipe as recited in claim 1 wherein said drive car has a car body with multiple T-slots therein, said T-slots being used to attach said arm assembly and said collimator assembly thereto. 12. The digital radiographic tool for inspecting a pipe with obstructions adjacent said pipe as recited in claim 11 wherein said motor is a stepper motor, linear bearings are attached to a linear bearing chassis, said linear bearing chassis being secured underneath said car body, said linear bearings allowing said drive car to move along linear rails in said track assembly. 13. The digital radiographic tool for inspecting a pipe with obstructions adjacent said pipe as recited in claim 11 wherein said gears include a screw gear mating with a worm gear turned by said stepper motor, said screw gear turning a spur gear that mates with said gear rack to move said digital radiographic tool. 14. The method for inspecting the pipe for defects as recited in claim 1 includes a further step of inspecting adjacent said obstructions by said using said first adjusting step and said second adjusting step to inspect around said obstructions. 15. The method for inspecting the pipe for defects as recited in claim 14 wherein said drive car has T-slots on sides thereof, said first attaching and said third attaching steps using T-bolts secured in said T-slots. 16. The method for inspecting the pipe for defects as recited in claim 15 wherein said drive car includes linear bearings thereunder and said track assembly has parallel tracks, said clipping step includes said linear bearings clipping onto said parallel tracks. 17. The method for inspecting the pipe for defects as recited in claim 14 wherein said gears of said drive car include a worm turning a worm gear, which worm gear turns a spur gear meshed with said gear rack. 18. The method for inspecting the pipe for defects as recited in claim 14 wherein said latching step has a pivotally mounted latch engaging a latch catch between adjacent sections of said track assembly, a release button for said latch extending to a side of said track assembly. 19. The method for inspecting the pipe for defects as recited in claim 16 wherein said parallel tracks have pins and pin holes on opposite ends of each section of said track assembly so that said pins mate with said pin holes during said latching step. 20. A method for inspecting a pipe for utilizing a power source to detect defects in said pipe, which said pipe has obstacles adjacent thereto, said method including the following steps:mounting sections of a track assembly longitudinally along said pipe;latching together said sections of said track assembly;clipping a drive car on said track assembly;first attaching an arm assembly on a first end to said drive car, said arm assembly being perpendicular and adjacent to said pipe;second attaching a second end of said arm assembly to a linear digital array, said linear digital array being held adjacent said pipe;third attaching a near end of a collimator assembly to said drive car;securing a collimator on said collimator assembly near a far end thereof,first adjusting length of said arm assembly to slightly exceed diameter of said pipe;second adjusting angle of said arm assembly and said collimator assembly with respect to said pipe so that said collimator can project x-rays or gamma rays against a side of said pipe and said linear digital array can collect x-rays or gamma rays that have passed through said pipe;meshing gears in said drive car with a gear rack in said track assembly;connecting said power source to said drive car, said collimator, said linear digital array and a collimator;driving said drive car along said track assembly with a stepper motor in said drive car turning said gears while simultaneously, said collimator projects said rays on said pipe and said linear digital array collects said rays that have passed through said pipe; andprocessing said collected rays and distance traveled by said drive car in said computer to locate any defects in said pipe.