Patent Number: 061954047
Section: claims

1. An anti-radiation device for a container adapted to receive radioactive materials, said device comprising a plurality of individual, separable and adjacent tubular metal housings, each of said housings comprising an internal wall shaped to enable flush contact with an outer wall of the container, side walls shaped to enable flush contact with a side wall of an adjacent tubular housing, an external wall, and means for individually fastening each of said housings to the outer wall of the container. 2. The device of claim 1, wherein each said housing is constructed from at least one metal selected from the group consisting of aluminum, copper, and alloys thereof. 3. The device of claim 1, additionally comprising cooling fins disposed on the external wall of at least one of said housings. 4. The device of claim 1, wherein the fastening means comprises bolts. 5. The device of claim 1, wherein each said housing is closed along its length. 6. The device of claim 1, wherein each said housing is filled with a resin. 7. The device of claim 1, wherein each said housing has a polygonal shape in cross-section. 8. The device of claim 7, wherein each said housing has a quadrilateral shape. 9. The device of claim 1, wherein each of said housings comprises a metal plate forming a gamma ray shield which is disposed within the housing as close as possible to the outer wall of the container. 10. The device of claim 9, wherein the metal plate is made of a heavy metal. 11. The device of claim 10, wherein the heavy metal is lead or a lead alloy. 12. An anti-radiation device for a container adapted to receive radioactive materials, said device comprising a plurality of individual, separable and adjacent tubular metal housings, each of said housings comprising an internal wall shaped to enable flush contact with an outer wall of the container, side walls shaped to enable flush contact with a side wall of an adjacent tubular housing, and an external wall, a first metal plate forming a gamma ray shield and disposed inside each said housing in contact with said internal wall, a protective metal plate covering each said first metal plate, a neutron absorbing material filling remaining space inside each said housing, and means for individually fastening each said housing with first and protective metal plates to the outer wall of the container. 13. An anti-radiation device for a container adapted to receive radioactive materials, said device comprising a plurality of separable, adjacent housings and at least one neutron absorbing material filling said housings, each said housing being formed as a single tubular metal part closed along its length and constructed and arranged to be individually fastened to the container. 14. An anti-radiation device for a container adapted to receive radioactive materials, comprising a plurality of adjacent chambers including at least one neutron-absorbing material filling said chambers, each of said chambers being formed of a single and separate tubular metal part closed along its length, a heavy metal plate and a protective metal plate being received within each of said chambers, each of said tubular metal parts including a heavy metal plate and said protective metal plate being adapted to be individually secured by bolt means to the container, whereby said protective metal plate covers the heavy metal plate, and the heavy metal plate is in contact with an internal wall of the tubular metal part.  said anti-radiation device comprising a plurality of adjacent chambers, each of said chambers formed by a single and separate tubular metal part having an internal wall, a first metal plate forming a gamma ray shield disposed within each said chamber in contact with said internal wall, a protective metal plate covering the first metal plate, a neutron absorbing material filling remaining space within each said chamber, and bolt means individually securing each said tubular metal part, first metal plate and protective metal plate onto the outer surface of the barrel.  whereby the protective metal plate covers said heavy metal plate, and the heavy metal plate is in contact with an internal wall of the tubular metal part. 15. A container for receiving radioactive materials, comprising a barrel having an outer surface, and an anti-radiation device secured to said outer surface, 16. A container for receiving radioactive materials, comprising a barrel having an outer surface, an anti-radiation device secured to said outer surface and comprising a plurality of adjacent chambers and at least one neutron absorbing material filling said chambers, each said chamber being formed of a single and separate tubular metal part closed along its length, each single tubular metal part having an inner wall fastened individually to the outer surface of the barrel. 17. A container for receiving radioactive materials, comprising a barrel having an outer surface and an anti-radiation device secured to the outer surface, said device comprising a plurality of adjacent chambers and at least one neutron absorbing material filling said chambers, each said chamber formed by a single and separate tubular metal part closed along its length, a heavy metal plate and a protective metal plate being received within each chamber, bolt means individually fastening each tubular metal part, heavy metal plate and protective plate received within the chamber to the outer surface of the barrel,