Patent Number: 048088315
Section: claims

1. A container for low energy radioactive samples comprising: a substantially planar carrier member having first and second opposed sides and an aperture formed therethrough;  means for retaining a radioactive sample in said container and simultaneously for permitting low energy radiation from radioactive decay of the sample to exit therethrough, said means being connected to one side of said carrier member defining a cavity therewith, said cavity only being accessible via said aperture in said carrier member; and  means removably attached to another side of said carrier member, opposite said one side, for sealing said aperture.  means for spacing said means for retaining from said one side of said carrier.  a blotter in said cavity.  a mesh member in said cavity.  a window spacer having an opening formed therethrough.  a window spacer having an opening formed therethrough, said means for retaining being attached to said volume spacer.  a blotter in said cavity.  a window spacer having an opening formed therethrough.  a second aperture formed through said carrier.  a carrier member having an aperture formed therethrough;  a spacer member having an opening formed therethrough and having one side attached to said carrier member;  a window member attached to another side of said spacer member opposite said one side, said window member permitting low energy radiation from radioactive decays of the sample to exit therethrough, said opening in said spacer member defining a cavity between said carrier member and said window member, said cavity being accessible via said aperture in said carrier member;  spacer means for recessing and exposing said window member, said spacer means mounted on said carrier; and  means removably attached to said carrier member for sealing said aperture.  a blotter member mounted between said carrier member and said window member.  a carrier member having an aperture formed therethrough;  a spacer member having an opening formed therethrough and an adhesive on opposite surfaces thereof, one of said surfaces adhered to said carrier;  a window member covering said spacer opening and being adhered to the other of said spacer surfaces said window member permitting low energy radiation from radioactive decays of the sample to exit therethrough;  a window spacer attached to said window, said window spacer having an opening formed therethrough; and  means removably attached to said carrier member for sealing said aperture.  a blotter member mounted between said carrier member and said window member, said blotter member including an aperture formed therein.  a carrier layer having an aperture formed therethrough;  a first spacer layer having one surface mounted on said carrier layer, said spacer layer having an opening formed therethrough;  a transparent window layer attached to another surface of said first spacer layer opposite said one surface, said window member permitting low energy radiation from radioactive decays of the sample to exit therethrough, said opening in said spacer layer defining a cavity between said carrier layer and said window layer, said cavity being accessible via said aperture in said carrier layer;  a second spacer layer connected to said first spacer layer and having a window exposing opening formed therein; and  a tab layer removably adhered to a surface of said carrier layer opposite said first spacer layer.  a layer of wicking material between said carrier layer and said window layer.  a generally flat member having an upper surface and a lower surface and a sample-receiving cavity extending through said member from one of said surfaces to a generally flat window at the other of said surfaces of said member, said window forming one end of said sample-receiving cavity, said window having a thickness sufficient to contain said radioactive samples and yet to permit the passage therethrough of low energy beta radiation from a sample in said cavity; and  means cooperating with the said one of said surfaces of said member for selectively enclosing the other end of said sample-receiving cavity to thereby completely contain a radioactive sample in said cavity between the upper and lower surfaces of said member. 2. The container of claim 1, wherein said means for retaining includes a transparent window member. 3. The container of claim 1, wherein said carrier member is a substantially disk-shaped member. 4. The container of claim 1, including: 5. The container of claim 4, wherein said means for spacing comprises projections extending from said one side. 6. The container of claim 5, wherein said projections are formed with said carrier member. 7. The container of claim 5, wherein said projections are attached to said carrier member. 8. The container of claim 4, wherein said means for spacing comprises a ring-shaped volume spacer extending from said one side. 9. The container of claim 8, wherein said spacer is attached to said carrier member. 10. The container of claim 8, wherein said spacer is formed with said carrier member. 11. The container of claim 4, wherein said means for spacing comprises a blotter in said cavity. 12. The container of claim 11, wherein said blotter has an aperture formed therethrough. 13. The container of claim 8, including: 14. The container of claim 13, wherein said blotter includes an aperture formed therethrough. 15. The container of claim 4, wherein said means for spacing comprises a mesh member. 16. The container of claim 8, including: 17. The container of claim 4, including: 18. The container of claim 8, including: 19. The container of claim 18, including: 20. The container of claim 19, wherein said blotter has an aperture formed therethrough. 21. The container of claim 1, wherein said aperture in said carrier includes a first diameter which gradually expands to a second diameter between said opposed sides. 22. The container of claim 21, including: 23. The container of claim 1, including: 24. A container for radioactive samples comprising: 25. The container of claim 24, wherein said carrier member is substantially planar. 26. The container of claim 24, wherein said spacer member includes adhesive on said one side and said opposite side. 27. The container of claim 24, including: 28. The container of claim 24, wherein said carrier member has another aperture formed therein. 29. The container of claim 28, wherein said removably attached means seals both apertures formed in said carrier member. 30. The container of claim 24, wherein said carrier member aperture includes a first diameter which gradually expands to a second diameter between a first and a second surface of said carrier, said second diameter being greater than said first diameter. 31. The container of claim 30, wherein said second diameter is adjacent said window member. 32. The container of claim 27, wherein said blotter member includes an aperture formed therein. 33. The container of claim 32, wherein said aperture in said blotter is coaxially aligned with said aperture in said carrier member. 34. The container of claim 24, wherein said carrier member, said spacer member, said window member and said spacer means are interconnected so as to have a common centroidal axis. 35. A container for radioactive samples comprising: 36. The container of claim 35, wherein said carrier member aperture, said spacer member opening and said window spacer opening have a common centroidal axis. 37. The container of claim 35, including: 38. The container of claim 37, wherein said carrier member aperture, said spacer member opening, said window spacer opening and said blotter member aperture have a common centroidal axis. 39. The container of claim 35, wherein said carrier member aperture includes a first diameter which gradually expands to a second diameter between a first and a second surface of said carrier, said second diameter being greater than said first diameter. 40. The container of claim 39, wherein said carrier member aperture and said window spacer opening have a common centroidal axis. 41. A laminated container for radioactive samples comprising: 42. The laminated container of claim 41, including: 43. The laminated container of claim 41, wherein said layers are interconnected so as to have a common centroidal axis. 44. The laminated container of claim 41, wherein said carrier layer aperture, said first spacer layer opening and said second spacer layer opening have a common centroidal axis. 45. The laminated container of claim 41 wherein said cavity is a disk-shaped cavity. 46. A container for holding a low energy radioactive sample during evaluation of the sample by radioactivity measuring equipment, the container comprising: 47. The container of claim 46 wherein said selective enclosing means comprises a layer of material removably applied to said one of said surfaces of said member to permit access to said sample-receiving cavity for the introduction of a radioactive sample into said cavity. 48. The container of claim 46 wherein said member comprises a first generally flat, disk-shaped member with an aperture therethrough, and a second generally flat, disk-shaped member attached to one surface of said first member and covering one end of said aperture, said second member having an aperture therethrough leading to the aperture in said first member, said window comprising a third generally flat, disk-shaped member attached to the other surface of said first member, whereby said sample-receiving cavity is formed in said first member between the second and third member, access to said cavity being through said aperture in said second member. 49. The container of claim 48 wherein said window comprises a plastic film adhesively attached to said first member. 50. The container of claim 47 wherein said window comprises a plastic film adhesively attached to said other of said surfaces of said flat member.