Patent Number: 052705498
Section: claims

1. A method of making an annular cylindrical multihole collimator for a radioisotope camera, comprising: forming a closed annular radio-opaque plate having a plurality of corrugations extending from the inner to the outer radius of the plate defining at least one collimator segment section and junction;  stacking cylindrically, axially, a plurality of said plates on one another with their peaks and valleys aligned to form an annular cylindrical multihole collimator with at least one segment; and  bonding each said plate to its adjacent plates.  a plurality of closed annular radio-opaque plates each having a plurality of corrugations extending from the inner to the outer radius of the plate defining at least one collimator segment section and junction; and  means for bonding said plates together with their peaks and valleys aligned to form an annular cylindrical multihole collimator with at least one segment.  forming a closed annular radio-opaque plate having a plurality of corrugations extending from the inner to the outer radius of the plate defining at least one collimator segment section and junction;  forming a closed annular flat radio-opaque plate;  stacking cylindrically, axially, alternately a plurality of said flat and corrugated plates on one another to form an annular cylindrical multihole collimator with at least one segment; and  bonding each said plate to its adjacent plates.  a plurality of closed annular radio-opaque plates each having a plurality of corrugations extending from the inner to the outer radius of the plate defining at least one collimator segment section and junction;  a plurality of closed, annular, flat radio-opaque plates; and  means for bonding said flat and corrugated plates alternately together to form an annular cylindrical multihole collimator with at least one segment. 2. The method of making an annular cylindrical multihole collimator for a radioisotope camera of claim 1, further including applying a radio-opaque filler medium between said plates at the junction between segment sections. 3. The method of making an annular cylindrical multihole collimator for a radioisotope camera of claim 1 in which stacking includes arranging said plates on one another relative to alignment means. 4. The method of making an annular cylindrical multihole collimator for a radioisotope camera of claim 3 in which arranging includes aligning indicia on the plates with guide means. 5. The method of making an annular cylindrical multihole collimator for a radioisotope camera of claim 4 in which said indicia includes at least one hole. 6. The method of making an annular cylindrical multihole collimator for a radioisotope camera of claim 4 in which aligning said indicia includes registering a corrugation of a plate with a guide pin parallel to that corrugation. 7. The method of making an annular cylindrical multihole collimator for a radioisotope camera of claim 1 further including securing an end cap at each end of said collimator. 8. An annular cylindrical multihole collimator for a radioisotope camera, comprising: 9. The annular cylindrical multihole collimator of claim 8 further including a radio-opaque filler medium disposed between said plates at the junctions between segment sections. 10. The annular cylindrical multihole collimator of claim 8 further including an end cap mounted at each end of said collimator. 11. A method of making an annular cylindrical multihole collimator for a radioisotope camera, comprising: 12. The method of making an annular cylindrical multihole collimator for a radioisotope camera of claim 11, further including applying a radio-opaque filler medium between said plates at the junction between segment sections. 13. The method of making an annular cylindrical multihole collimator for a radioisotope camera of claim 11 in which stacking includes arranging said plates on one another relative to alignment means. 14. The method of making an annular cylindrical multihole collimator for a radioisotope camera of claim 13 in which arranging includes aligning indicia on the plates with guide means. 15. The method of making an annular cylindrical multihole collimator for a radioisotope camera of claim 14 in which said indicia includes at least one hole. 16. The method of making an annular cylindrical multihole collimator for a radioisotope camera of claim 14 in which aligning said indicia includes registering a corrugation of a plate with a guide pin parallel to that corrugation. 17. The method of making an annular cylindrical multihole collimator for a radioisotope camera of claim 11 further including securing an end cap at each end of said collimator. 18. An annular cylindrical multihole collimator for a radioisotope camera, comprising: 19. The annular cylindrical multihole collimator for a radioisotope camera of claim 18 further including a radio-opaque filler medium disposed between said plates at the junctions between segment sections. 20. The annular cylindrical multihole collimator for a radioisotope camera of claim 18 further including an end cap mounted at each end of said collimator.