1. Field of the Invention
This invention relates to improved methods for attaching a lid to a metal drum, particularly metal drums used for the storage and shipment of radioactive material. Typical drums of this type are the DOT 6M specification drums having a nominal volume of 55 gallons. The drums are stainless steel and conform to 49 CFR §178.504.
2. Background and Prior Art
Stainless steel drums of this type are used in the packaging for transport of radioactive materials and, frequently, for their storage. The drum is rolled steel, having a single welded seam and has a closed bottom end and an open top end. The open end of the drum has a rolled edge and the lid used to effect closure has a raised rim which partially surrounds the rolled edge of the drum. A gasket nominally seals the lid to the drum and a locking ring is pulled tight in the circumferential direction and typically held in place with a bolt passing through the lugs located on both ends of the gap in the locking ring. The arrangement is familiar to anyone who has handled standard 55-gallon open drums which are typically used in commerce for bulk shipping of solids and liquids.
Packages used for the transportation of radioactive materials are required to pass the Hypothetical Accidents Condition (HAC) 30-Ft. Drop Test. When used to ship fissile materials, the contents are enclosed within the drum using a “overpack” consisting of multiple layers of fiberboard discs about a central canister.
A limited number of closure systems are available for 55-gallon drums but can be simply described as those of the split-ring type which are bolted together and those which involve a lever which puts tension on the ring and is snapped into place using a hook attached to the ring. Some examples are found in U.S. Pat. No. 4,314,720 to Santoni which uses a locking lever; U.S. Pat. No. 4,957,317 to Jakubas which uses a shuttle wrench and bolt to make the drum tamperproof; U.S. Pat. No. 5,193,804 to Coleman which discloses a spring in the locking ring 180° from the bolt lugs; U.S. Pat. No. 5,971,190 to Manning which adds a pair of projections to the lugs to improve alignment; and, U.S. Pat. No. 6,435,576 B1 to Kusta, which adds a jam nut between lugs to improve alignment. Specification No. 1A2-102-00 describes United Nations designation UN 1A2 as a required packaging when an open head steel drum is used and requires a stainless steel locking ring, welded lugs, one lug threaded and a stainless steel bolt having a nominal minimum size of 0.625 inches. The closure is to conform to 49 CFR §178.2(c)(1). No options are specified.
Testing has shown that when a 55-gallon drum is packed to the maximum allowable weight of 640 pounds (weight of contents approximately 460 pounds) the integrity of the package is not guaranteed when dropped from 30 feet onto the open head at an angle which puts the center of gravity directly over the corner (CGOC test). In typical tests, the primary cause of failure appears to be deformation of the rim of the drum. The difficulties are addressed in Blanton, P. S. and A. C. Smith, “Response of Conventional Ring Closures of Drum Type Packages”WSRC-MS-2002-00452.
It is an object of this invention to provide a ring closure which does not fail the aforementioned test. It is a second objective of this invention to provide a means for strengthening the rim of the drum without changing the design and method of manufacture of the drum.
It is a third objective of this invention to provide a ring closure which can be applied quickly using the same tools and same skills as are required to use the existing ring closures.
The objectives of this invention may be achieved using a split-ring incorporating the traditional semi-circular or “C” ring of the traditional closure rings but having, in addition, a continuation extending radially inward from the top portion of the standard ring and an additional flange extending vertically downward from the lower continuation of the ring. For fitment to the drum, the preferred ring is in two halves and requires two pairs of lugs and two bolts. However, a single ring with the aforementioned flange attributes is also possible. The advantage of this system, henceforth to be described as a “clamshell,” lies in the improved performance in retaining the lid on the drum when dropped in the 30-foot CGOC test. Drum performance is enhanced further when drums are tested using less stringent testing requirements.
The clam shell ring will be described with reference to a 6M specification package. The same arrangement may be used with the other standard drum sizes include 110 gallons, 80 gallons, 60 gallons, 45 gallons, 35 gallons and 30 gallons. A 55-gallon drum 1 complete with lid and closure has a standard size, ribbed drum 2, a lid 3, and a closure ring 4. The lip of the drum 5 is curved to accept the curvature of the lid 3 and the closure ring 4 forms a semi-circle or “C” to attach the lid to the rim of the drum. The inner container for radio-active material 6 is over-packed using cane fiber-board 7.
Numerous analyses have been made of the modes of failure of open top steel drums when dropped at various angles and from different heights. In addition to the aforementioned publication WSRC-MS-2002-00452, reference is made to McKeel, C. A. and A. C. Smith, “Strain Gage Test Results of Band-Type Locking Rings”WSRC-MS-2002-00476, and Wu, T., “A Technique for Dynamic Analyses of Containers with Locking-Ring Closures”, WSRC-MS-2002-00554. In every instance, separation of the lid from the drum attends deformation of the lid and/or the drum at the point of their contact, not necessarily at the point of impact.
The attached Appendix A (WSRC-MS-2002-00452) describe comparative tests using the clamshell ring, a standard closure ring, a plywood reinforcement insert at the top of the pack and a snap-on “J” clamp which is typically used in multiples.
The data in Appendix A and the enclosed photographs clearly show the mode of failure and the extent of failure when the standard closure is applied. Improvement may be found by reinforcing the drum, because it is evident that the primary damage is instigated by deformation of the rim of the drum and that this damage results in deformation of the lid, and in severe cases, deformation of the locking ring.
While not being bound by any theory, it is believed that the clamshell securing ring operates by reinforcing the rim of the drum both by increasing the effective wall thickness of the drum adjacent to the downwardly directed flange 17, and by increasing the web thickness to the radially directed flange 15. In addition, flange 15 prevents slightly deformed lid from leaving the confines of the enclosure as is apparent in the failure of the conventional closure ring. In the preferred embodiments, the clamshell ring is formed from a heavier gauge metal than the lid and drum, thereby being less likely to deform. This prevents the top of the drum from deforming in the region of the lip of the drum.
This invention has been described in terms of a representative example. Detailed modifications such as those which would become apparent to a person with ordinary skill in the art are subsumed within the scope and spirit of the invention. The invention is further described in the attached representative claims.
This invention was made with Government support under Contract No. DE-AC09-96-SR18500 awarded by the United States Department of Energy. The Government has certain rights in the invention.
Number | Date | Country | |
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60572371 | May 2004 | US |