Patent Number: 
Section: claims

1. An apparatus for securely storing one or more radioactive sources in source containers within a mobile structure comprising:an enclosure having a plurality of sides formed with horizontal and vertical sides and a back, the plurality of sides forming an open side;removable or moveable shelves coupled or fixed within the enclosure;a hinge coupled to an edge section of one of said horizontal sides;a door section coupled to said hinge, said door section comprising a frame and a transparent section coupled to the frame which is sized to view each of the removable or moveable shelves;a locking mechanism coupled to the door section and adapted to selectively engage with the enclosure, wherein the locking mechanism is formed to automatically lock and engage with the enclosure when the door section is rotated to abut door jamb section of the enclosure, wherein the locking mechanism is formed with a key reader and a key etched with a pattern encoded or etched by a laser or another etching machine that is read by the key reader;a door handle coupled to the door section;a closing assist magnet coupled to a section of the enclosure disposed so it magnetically engages the door section to pull the door section against the enclosure when the door section is within a magnetic field of the closing assist magnet;an alarm mechanism comprising a first and second section, wherein the first section comprises a magnet that is coupled to the door section, wherein the second section is coupled to the enclosure, wherein the alarm mechanism has an activation section that activates an audible alarm when the first section is not adjacent to the second section;a tether section comprising a first and second attachment section and a tether coupler attached to the first and section attachment sections, wherein the first attachment section is coupled to an external section of the enclosure and the second attachments section is adapted to be coupled to an adjacent structure within the mobile structure; anda removable and selectively lockable protective bracket that is coupled with the alarm mechanism to lock the alarm mechanism in place and to obstruct or cover an on/off switch of the alarm mechanism. 2. An apparatus as in claim 1, wherein the mobile structure is a submersible vessel. 3. An apparatus as in claim 1 further comprising an object tracking system disposed within or in proximity with the enclosure comprising a bar code reader or radio frequency identification (RFID) tag reader adapted to read the bar code or RFID tag that is placed on a radiological source object that is removed or inserted into the enclosure. 4. An apparatus as in claim 3, further comprising a tracking computer system that is communicatively coupled with the object tracking system. 5. An apparatus as in claim 1, further comprising said radioactive source containers disposed within the enclosure and placed on said shelves. 6. An apparatus as in claim 5, further comprising locking or retention structures that are coupled with one or more said shelves that includes latching or retention structures that selectively receive and fix in place said radioactive source containers with respect to the shelves. 7. An apparatus as in claim 6, wherein each of the locking or retention structures further comprise a base section that has a different shape, wherein each of the radioactive source containers have a different base section that is each shaped to fit into a corresponding one of the base sections that each have a different shape. 8. An apparatus as in claim 6, wherein each of the radioactive source containers have a first keyway section and each of the locking or retention structures further comprise a second keyway section, wherein the first and second keyway sections are adapted to selectively engage with each other, each of the first and second keyway sections have a corresponding female and male engaging section that fit into each other. 9. An apparatus as in claim 1, wherein said transparent section comprises transparent Plexiglas, polycarbonate material, or leaded glass material. 10. An apparatus as in claim 1, further comprises transparent plastic film adhered to the transparent section. 11. An apparatus for securely storing one or more radioactive sources in source containers within a mobile structure comprising:an enclosure having a plurality of sides formed with horizontal and vertical sides and a back, the plurality of sides forming an open side;removable or moveable shelves coupled or fixed within the enclosure;a hinge coupled to an edge section of one of said horizontal sides;a door section coupled to said hinge, said door section comprising a frame and a transparent section coupled to the frame which is sized to view each of the removable or moveable shelves;a locking mechanism coupled to the door section and adapted to selectively engage with the enclosure, wherein the locking mechanism is formed to automatically lock and engage with the enclosure when the door section is rotated to abut door jamb section of the enclosure, wherein the locking mechanism is formed with a key reader and a key etched with a pattern encoded or etched by a laser or another etching machine;a door handle coupled to the door section;a first magnet coupled to a section of the enclosure disposed to magnetically engage a side of the door section to pull the door section against the enclosure when the door section is within a magnetic field of magnet;an alarm mechanism comprising a first and second section, wherein the first section comprises a second magnet that is coupled to the door section, wherein the second section is coupled to the enclosure, wherein the alarm mechanism has an activation section that activates an audible alarm when the first section is not adjacent to the second section;a tether section comprising a first and second attachment section and a tether coupler attached to the first and section attachment sections, wherein the first attachment section is coupled to an external section of the enclosure and the second attachments section is adapted to be coupled to an adjacent structure within the mobile structure;an object tracking system disposed within or in proximity with the enclosure comprising a bar code reader or radio frequency identification (RFID) tag reader adapted to read the bar code or RFID tag that is placed on a radiological source object that is removed or inserted into the enclosure;a tracking computer system that is communicatively coupled with the object tracking system;a plurality of said radioactive source containers disposed within the enclosure and placed on said shelves; anda plurality of locking or retention structures coupled with said removable or moveable shelves adapted to selectively receive and fix in place said radioactive source containers;a removable and selectively lockable protective bracket that is coupled with the alarm mechanism to lock the alarm mechanism in place and to obstruct or cover an on/off switch of the alarm mechanism;wherein each of the locking or retention structures further comprise a base section that has a different shape, wherein each of the radioactive source containers have a different base section that is each shaped to fit into a corresponding one of the base sections that each have a different shape;wherein the mobile structure is a ship or submersible vessel. 12. A method of using a storage apparatus for securely storing radioactive source comprising:providing a mobile structure that is either a shop or submersible vessel;providing an apparatus for storage of radioactive sources, said apparatus comprising:an enclosure having a plurality of sides formed with horizontal and vertical sides and a back, the plurality of sides forming an open side;a plurality of removable or moveable shelves coupled or fixed within the enclosure;a hinge coupled to an edge section of one of said horizontal sides;a door section coupled to said hinge, said door section comprising a frame and a transparent section coupled to the frame which is sized to view each of the removable or moveable shelves;a door handle coupled to the door section;a first magnet coupled to a section of the enclosure disposed so it magnetically engages the door section to pull the door section against the enclosure when the door section is within a magnetic field of the first magnet;a locking mechanism coupled to the door section and adapted to selectively engage with the enclosure, wherein the locking mechanism is formed to automatically lock and engage with the enclosure when the door section is rotated to abut a door jamb section of the enclosure, wherein the locking mechanism is formed with a key reader and a key etched with a pattern encoded or etched by a laser or another etching machine that is read by the key reader;an alarm mechanism comprising a first and second section, wherein the first section comprises a magnet that is coupled to the door section, wherein the second section is coupled to the enclosure, wherein the alarm has an activation section that activates an audible alarm when the first section is not adjacent to the second section; anda tether section comprising a first attachment section and a tether coupler attached to the first attachment sections;providing a submersible vessel with an interior compartment formed with a plurality of wall sections, wherein a second attachment section is coupled with one of the wall sections, wherein the first attachment section is coupled to the second attachment section by the tether coupler;operating the submersible vessel to transit a first section of water and thereby altering an orientation of the interior compartment with respect to a gravitational vector;inserting said key and disengaging the locking mechanism;pulling the door handle while maintaining a first force on the key to keep the key engaged/rotated to open the door section, wherein once the said door section is opened, the second magnet moves out of detection range of the alarm mechanism and thereby causing the alarm mechanism to generate a continuous audible alarm sound that will sound and continue until the door is securely closed and locked;placing the radioactive source inside the enclosure on one of the shelves and into a source receiving section that fixes the radioactive source into a fixed position;closing the door section and releasing pressure on the key so the rotates into a spring loaded locked position then removing the key from the locking mechanism;conducting an inventory of the one or more radiological sources by viewing the radiological sources through the transparent section and determining if the radiological sources are present within the enclosure while the door section is in a closed position;when a user is ready to remove the radioactive source, obtaining the key from a locked storage container;inserting the key into the locking mechanism and disengaging the locking mechanism from engagement with the enclosure;pulling the door handle while maintaining light pressure to keep key engaged/rotated to rotate and open the door, wherein once door is opened, the magnet will disengage and the audible alarm will sound and continue until the door section is closed and locked by the locking mechanism;removing the radioactive source from one of the shelves inside the enclosure; andclosing the door section, thereby deactivating the alarm; andreleasing pressure on the key and removing the key from the locking section.