Patent Number: 056174659
Section: claims

1. A scan-type X-ray imaging system comprising: a movable X-ray source providing a directed X-ray output;  a positioning unit for positioning an object at a scan area so that said X-ray output from said X-ray source is directed to said object;  a converter screen receiving X-rays passing through said object at said scan area and providing converted output signals responsive thereto;  a movable sensor/coupling unit including a coupler for coupling said converted output signals from said converter screen, said coupler having an input portion movably engaging said converter screen, and said sensor/coupling unit also having a sensor receiving said converted output signals from said converter screen through said coupler and, responsive thereto, providing electrical signal outputs indicative of said object at said scan area;  an actuator unit connected with said X-ray source and said sensor/coupling unit for causing movement of said X-ray source and for causing movement of said sensor/coupling unit so that said input portion of said coupler is moved relative to said converter screen while maintaining engagement therewith during said movement of said sensor/coupling unit; and  a control unit connected with said actuator unit for controlling movement of said X-ray source and said sensor/coupling unit by said actuator unit to thereby effect coverage of a specific field of view at said scan area.  a movable mounting unit;  an X-ray source mounted on said mounting unit for movement therewith, said X-ray source providing a directed X-ray output;  a positioning unit for positioning a predetermined portion of the body of a patient at a scan area so that said X-ray output from said X-ray source is directed to said predetermined body portion;  a converter screen receiving X-rays passing through said predetermined body portion at said scan area and providing converted output signals responsive thereto;  a sensor/coupling unit mounted on said mounting unit for movement therewith, said sensor/coupling unit including a coupler having an input face movably engaging said converter screen and a sensor receiving said converted output signals from said converter screen and, responsive thereto, providing electrical output signals;  an actuator unit connected with said mounting unit for effecting movement of said X-ray sensor and said sensor/coupling unit so that said input face of said coupler of said sensor/coupling unit is moved relative to said converter screen while maintaining engagement with said converter screen during said effected movement of said sensor/coupling unit;  a control unit connected with said actuator unit for controlling movement of said mounting unit by said actuator unit to thereby effect coverage of a specific field of view at said scan area; and  an electronic unit receiving said electrical signal output from said sensor of said sensor/coupling unit and providing an output indicative of said predetermined body portion within said field of view at said scan area.  positioning an object at a scan area;  providing a directed X-ray beam at said predetermined area so that said X-rays pass through said object positioned thereat;  providing a converter screen receiving X-rays passed through said object at said scan area;  providing a movable sensor/coupling unit having a sensor and a coupler with an input face movably engaging said converter screen, said coupler providing output signals from said converter screen to said sensor, and said sensor providing an output signal responsive to receipt of output signals from said converter screen;  moving said sensor/coupling unit so that said input face of said coupler is moved relative to said converter screen to effect a scan of said scan area and maintaining said input face of said coupler in engagement with said converter screen throughout movement of said sensor/coupling unit; and  using said output signal from said sensor to provide an image of said object scanned at said scan area. 2. The system of claim 1 wherein said actuator unit includes a swing arm having a pivot end and a free end movable in an arc, said X-ray source being mounted adjacent to said pivot end of said swing arm and said sensor/coupling unit being mounted adjacent to said free end of said swing arm. 3. The system of claim 1 wherein said converter screen is a phosphor screen having a size at least as large as said field of view at said scan area. 4. The system of claim 3 wherein said converter screen is a curved membrane mounted on a holder. 5. The system of claim 1 wherein said input portion of said coupler engages one side of said converter screen, and wherein said system includes a force applicator to maintain engagement of said input portion of said coupler with said one side of said converter screen. 6. The system of claim 5 wherein said force applicator is at least one of a cushion, a vacuum source, and springs. 7. The system of claim 1 wherein said coupler is a fiber optic coupler having an input face movably engaging said converter screen. 8. The system of claim 7 wherein said fiber optic coupling is one of a fiber optic reducer and a fiber optic window. 9. The system of claim 1 wherein said sensor includes at least one charge coupled device. 10. The system of claim 1 wherein said system includes an electronic unit receiving said electrical signal outputs from said sensor and, responsive thereto, providing an output indicative of said object at said scan area. 11. The system of claim 1 wherein said object positioned by said positioning unit at said scan area is a predetermined body portion. 12. An X-ray system comprising: 13. The system of claim 12 wherein said converter screen is a phosphor screen having a size at least as large as said field of view at said scan area, and wherein said input face of said coupler engages the side of said converter screen opposite to the side facing said X-ray source. 14. The system of claim 12 wherein said system includes a force applicator to maintain engagement of said input face of said coupler with said converter screen. 15. The system of claim 14 wherein said force applicator is at least one of an air cushion, a vacuum source and springs. 16. The system of claim 12 wherein said coupler is a fiber optic coupler. 17. A method for X-ray imaging, said method comprising: 18. The method of claim 17 wherein said method includes pivoting said X-ray source and moving said sensor/coupling unit in an arc to effect said scan of said object at said scan area. 19. The method of claim 17 wherein said method includes providing a force to maintain said input face of said coupler in engagement with said converter screen. 20. The method of claim 19 wherein said force applied to maintain said input face in engagement with said converter screen is applied by using at least one of an air cushion, a vacuum, and springs.