Patent Number: 
Section: claims

1. A radiation diaphragm operative to narrow an x-ray beam produced by an x-ray tube of an x-ray facility to form a narrowed beam and to mask out regions outside the narrowed beam, the radiation diaphragm comprising:at least two radiation defining devices,wherein the at least two radiation defining devices are mounted on different central axis supports in a displaceable manner in planes perpendicular to the x-ray beam, and each of the at least two radiation defining devices includes a plurality of different diaphragm apertures with different shapes for differently contoured definition of the x-ray beam,wherein the plurality of different diaphragm apertures adjust the contour of the narrowed beam, andwherein each diaphragm aperture of one of the at least two radiation defining devices is disposable within the periphery of at least one diaphragm aperture of another of the at least two radiation defining devices. 2. The radiation diaphragm as claimed in claim 1, wherein each of the at least two radiation defining devices extends in an essentially flat manner. 3. The radiation diaphragm as claimed in claim 1, wherein each of the at least two radiation defining devices is mounted in a rotatable manner in one of the planes perpendicular to the x-ray beam. 4. The radiation diaphragm as claimed in claim 1, wherein each of the at least two radiation defining devices is a perforated disk. 5. The radiation diaphragm as claimed in claim 4, wherein the perforated disk includes a round periphery. 6. The radiation diaphragm as claimed in claim 1, wherein each of the at least two radiation defining devices has positioning marks that are disposed so that the radiation defining device is positionable based on a position of the radiation defining device such that a respective diaphragm aperture is disposed in the x-ray beam. 7. The radiation diaphragm as claimed in claim 6, wherein the positioning marks are disposed on a round periphery of the perforated disk. 8. The radiation diaphragm as claimed in claim 7, wherein each of the at least two radiation defining devices is disposed so that the x-ray beam passes through one diaphragm aperture of each of the at least two radiation defining devices. 9. An x-ray facility comprising:at least two radiation diaphragms that include a plurality of different diaphragm apertures, the plurality of different diaphragm apertures operable to define a shaped beam in different contours,wherein each of the at least two radiation diaphragms is displaceable in a plane perpendicular to the shaped beam,wherein each of the at least two radiation diaphragms is operative to narrow an x-ray beam produced by an x-ray tube of the x-ray facility to form the shaped beam and to mask out regions outside the shaped beam,wherein the at least two radiation diaphragms are mounted on different central axis supports,wherein the plurality of different diaphragm apertures adjust the contour of the shaped beam, andwherein each diaphragm aperture of one of the at least two radiation diaphragms is disposable within the periphery of at least one diaphragm aperture of another of the at least two radiation diaphragms. 10. The x-ray facility as claimed in claim 9, wherein each of the at least two radiation diaphragms includes a first perforated radiation defining device that includes at least one aperture, and a second perforated radiation defining device that includes at least one aperture, andwherein the first perforated radiation defining device and the second perforated radiation defining device are operative to be moved to provide different contours of the shaped beam. 11. The x-ray facility as claimed in claim 10, comprising: a data processing facility and a diaphragm memory that includes data,wherein the data processing facility has access to the diaphragm memory and the diaphragm memory data, the data processing facility being operable to determine a position of at least one of the first perforated radiation defining device and the second perforated radiation defining device. 12. The x-ray facility as claimed in claim 11, wherein the data processing facility is connected to each of the at least two radiation diaphragms and is operable to control the positioning of at least one of the first perforated radiation defining device and the second perforated radiation defining device in a suitable position. 13. The x-ray facility as claimed in claim 10, wherein the first perforated radiation defining device and the second perforated radiation defining device include a circular periphery. 14. The x-ray facility as claimed in claim 11, wherein the data processing facility is operable to determine the position based on the diaphragm memory data. 15. The radiation diaphragm as claimed in claim 1, wherein the plurality of different diaphragm apertures comprises openings with different diameters. 16. The x-ray facility as claimed in claim 9, wherein the plurality of different diaphragm apertures comprises openings with different diameters. 17. The radiation diaphragm as claimed in claim 14, wherein the first perforated radiation defining device and the second perforated radiation defining device have different aperture patterns. 18. The radiation diaphragm as claimed in claim 1, wherein the plurality of different diaphragm apertures are open spaces that do not contain any material.