Patent Number: 048620050
Section: claims

1. An apparatus for detecting radiation in hand-holdable objects, comprising: a. a radiation detector assembly including a radiation detector means having a top side that is sensitive to both beta and gamma radiation throughout its area, and a platform means disposed over the top side of the detector means for both supporting the hand-holdable object being examined and for uniformly spacing the object from the detector means, and  b. a shielding cabinet for containing the radiation detector assembly and shielding the detector means from background radiation, said cabinet having an access opening for allowing an operator to deposit and withdraw an object onto and the off of the platform means.  a. a radiation detector assembly including a first radiation detector means having a top side that is sensitive to both beta and gamma radiation throughout substantially all of its area, wherein the area of the top side includes a plurality of mutually overlapping zones, each of which is independently sensitive to radioactivity for both increasing the sensitivity of the detector means as a whole over background radiation and for facilitating locating which particular area of an object is contaminated with radioactive particles, and a platform means including a section of sheet material having a plurality of openings disposed over the top side of the detector means, wherein the area of the openings is at least 70 percent of the area of the sheet material as a whole to allow said sheet material to substantially conduct beta radiation, and  b. a shielding cabinet for containing the radiation detector assembly and shielding the detector means from background radiation, said shielding cabinet having an access opening for allowing an operator to deposit and withdraw an object onto and off of the platform means. 2. The apparatus defined in claim 1, wherein the detector means includes a plurality of mutually adjacent zones, each of which is independently sensitive to radioactivity for indicating which portions of a particular object are contaminated with radioactive particles. 3. The apparatus defined in claim 2, wherein said detector means is a gas-flow proportional detector having a single conductive housing for forming one electrode of one charge, and a plurality of parallel electrode wires for forming multiple electrodes of an opposite charge. 4. The apparatus defined in claim 3, wherein said radiation detector assembly includes a source of pressurized counting gas fluidly connected to said gas-flow proportional detector for constantly replenishing the counting gas within the detector. 5. The apparatus defined in claim 4, wherein the radiation detector assembly includes a spare gas-flow proportional detector that is likewise fluidly connected to said source of pressurized counting gas so that said spare detector will be substantially purged and ready for operation in the event of a malfunction of said original detector. 6. The apparatus defined in claim 1, wherein said platform means includes a perforated sheet of metal wherein the area of the openings in the sheet takes up at least 60 percent of the area of the sheet to render the sheet substantially conductive to beta radiation. 7. The apparatus defined in claim 1, wherein the platform means includes a removable protective film for preventing lint and debris from entering the detector means. 8. The apparatus defined in claim 7, wherein said film is a film of flexible plastic material. 9. The apparatus defined in claim 8, wherein the density thickness of said film is between 0.2 and 0.8 mg/cm.sup.2. 10. The apparatus defined in claim 6, wherein said platform means further includes a support grid for supporting both a film of aluminized flexible plastic material and said perforated sheet of metal. 11. The apparatus defined in claim 1, wherein said shielding cabinet includes a sheet of shielding material supporting the detector means, for shielding the detector means from background radiation and for reflecting a portion of the gamma radiation that the top side of the detector means is exposed to in order to increase the gamma radiation sensitivity of the detector means. 12. The apparatus defined in claim 1, wherein said shielding cabinet includes at least one cabinet door for providing additional access to the top side of the detector means. 13. The apparatus defined in claim 1, wherein said shielding cabinet includes cabinet doors on opposing sides to allow objects longer than the width of the shielding cabinet to be passed over the top side of the detector means. 14. The apparatus defined in claim 1, wherein at least some of the walls of the shielding cabinet include a pocket means for receiving a sheet of shielding material. 15. The apparatus defined in claim 14, further including an end cap means for opening and closing said pocket means. 16. The apparatus defined in claim 15, wherein said pocket means is of sufficient size to receive more than one sheet of shielding material so that the amount of radiation afforded by the walls of the shielding cabinet may be varied. 17. The apparatus defined in claim 1, further including a support cabinet for supporting said shielding cabinet. 18. The apparatus defined in claim 1, further comprising a foot-switch means for actuating the detector means. 19. The apparatus defined in claim 1, further comprising a support cabinet means for both supporting the shielding cabinet and for housing radiation detector circuitry that is electrically connected to the radiation detector means. 20. The apparatus defined in claim 12, wherein said cabinet door forms a shelf leading into the top side of the detector means when opened. 21. An apparatus for detecting radiation in hand-holdable objects, comprising: 22. The apparatus defined in claim 21, wherein said shielding cabinet includes doors on opposing sides of the cabinet and door support assemblies for pivotally connecting each of said doors along one of its sides to the cabinet, and wherein each door support assembly substantially aligns the respective door with the top side of the radiation detector means when said doors are opened so that said doors may be used as shelves. 23. The apparatus defined in claim 22, wherein said door support assemblies each include an elongated link member that is slidably engaged with a rivet. 24. The apparatus defined in claim 21, wherein said detector means is a gas-flow proportional detector having a single conductive housing for forming one electrode of one charge, and a plurality of parallel electrode wires for forming multiple electrodes of an opposite charge. 25. The apparatus defined in claim 21, wherein the platform means includes a screen member and a removable protective film for preventing lint and debris from entering the detector means. 26. The apparatus defined in claim 25, wherein said film is a film of flexible plastic material. 27. The apparatus defined in claim 26, wherein the density thickness of said film is between 0.2 and 0.8 mg/cm.sup.2. 28. The apparatus defined in claim 26, wherein said platform means further includes a support grid for supporting both a film of aluminized flexible plastic material as well as said screen member. 29. The apparatus defined in claim 21, wherein said shielding cabinet includes a sheet of shielding material for supporting the detector means, shielding the detector means from background radiation and for reflecting a portion of the gamma radiation that the top side of the detector means is exposed to in order to increase the gamma radiation sensitivity of the detector means. 30. The apparatus defined in claim 21, wherein at least some of the walls of the shielding cabinet include a pocket means for removably mounting a sheet of shielding material. 31. The apparatus defined in claim 30, further including an end cap means for opening and closing said pocket means. 32. The apparatus defined in claim 31, wherein said pocket means is of sufficient size to receive more than one sheet of shielding material so that the amount of radiation afforded by the walls of the shielding cabinet may be varied. 33. The apparatus defined in claim 31, further comprising a foot-switch means for actuating the detector means. 34. The apparatus defined in claim 21, further comprising a support cabinet means for both supporting the shielding cabinet and for housing a radiation detector circuitry that is electrically connected to the radiation detector means. 35. The apparatus defined in claim 21, wherein the access opening is orthogonally oriented with respect to the radiation sensitive, top most side of the detector means to minimize the exposure of the detector means to background radiation. 36. The apparatus defined in claim 35, wherein the access opening is offset with respect to the detector means to prevent direct rays of background radiation from striking the detector means. 37. The apparatus defined in claim 21, further including a support table means for supporting a second detector means over the first detector means, and for defining a space between said first and second detectors that elongated objects may be conducted through.