Patent Number: 
Section: claims

1. A collimator module for the modular assembly of a collimator for a radiation detector with a multiplicity of absorber elements, arranged one behind another in a collimation direction and held by a carrier, the carrier comprising:at least one alignment device to align the collimator module in the collimation direction, the at least one alignment device interacting with at least one respective positioning device in a detector mechanism of the radiation detector when integrated into the radiation detector. 2. The collimator module as claimed in claim 1, wherein the at least one alignment device in the carrier includes a plurality of alignment device which are recesses. 3. The collimator module as claimed in claim 1, wherein the carrier includes at least one support device to position the collimator module in a beam incidence direction, the at least one support device interacting with at least one respective abutment device in the detector mechanism of the radiation detector when integrated into the radiation detector. 4. The collimator module as claimed in claim 3, wherein the at least one support device includes a plurality of support devices which are edges of the carrier. 5. The collimator module as claimed in claim 1, wherein the carrier is formed from two carrier elements extending in the collimation direction, and wherein the absorber elements are connected to the carrier elements in a cross-shaped fashion. 6. The collimator module as claimed in claim 5, wherein at least one of the carrier elements and the absorber elements include a plate-like design. 7. The collimator module as claimed in claim 6, wherein cross-shaped connections between the absorber elements and the carrier elements are plug-in connections. 8. The collimator module as claimed in claim 7, wherein the plug-in connections are formed by recesses or slits in at least one of the absorber elements and the carrier elements. 9. The collimator module as claimed in claim 7, wherein the slits in the absorber elements interlock with the corresponding slits in the carrier elements in a cross-shaped fashion. 10. The collimator module as claimed in claim 7, wherein the absorber elements are additionally adhesively bonded to the carrier elements at the cross-shaped connection points. 11. The collimator module as claimed in claim 1, wherein the collimator module includes at least one cover element in at least one of a beam incidence direction and a beam emergence direction, in which cover element the longitudinal edges of the absorber elements are guided at least in part. 12. The collimator module as claimed in claim 1, wherein the carrier elements include at least one fixing device, by which the collimator module is fixable to the detector mechanism. 13. A radiation detector, comprising:a detector mechanism to hold a collimator; anda radiation convertor aligned with respect to the detector mechanism, wherein the collimator is assembled from collimator modules as claimed in claim 1, and wherein the at least one alignment device of the collimator modules engages in a corresponding at least one positioning device in the detector mechanism for precisely positioning the collimator modules relative to the detector mechanism. 14. The radiation detector as claimed in claim 13, wherein the radiation convertor is subdivided into radiation convertor modules, and wherein each respective collimator module covers two, three, four or five radiation convertor modules. 15. The collimator module as claimed in claim 2, wherein the carrier includes at least one support device to position the collimator module in a beam incidence direction, the at least one support device interacting with at least one respective abutment device in the detector mechanism of the radiation detector when integrated into the radiation detector. 16. The collimator module as claimed in claim 5, wherein cross-shaped connections between the absorber elements and the carrier elements are plug-in connections. 17. A radiation detector, comprising:a detector mechanism to hold a collimator; anda radiation convertor aligned with respect to the detector mechanism, wherein the collimator is assembled from collimator modules as claimed in claim 2, and wherein the at least one alignment device of the collimator modules engages in a corresponding at least one positioning device in the detector mechanism for precisely positioning the collimator modules relative to the detector mechanism. 18. The radiation detector as claimed in claim 17, wherein the radiation convertor is subdivided into radiation convertor modules, and wherein each respective collimator module covers two, three, four or five radiation convertor modules.