DE7838526U1 - DISPOSABLE CONCRETE CONTAINER FOR RECEIVING BARRELS WITH RADIOACTIVE CONTENT - Google Patents

Description

Description:

The innovation concerns a one-way transport container made of concrete for holding barrels with radioactive content, consisting of a cylindrical concrete pot open at the top, in its Wall reinforcements are cast and its interior can be poured over the introduced waste barrel with concrete, so that a concrete plug is formed over the barrel.

Known containers made of concrete for holding barrels with radioactive Contents have the disadvantage that the attachment of the concrete seal over the barrel in the shield by a groove in the Interior of the concrete shielding is effected. The production of shields with such grooves is manufacturing engineering complex and expensive. In addition, the concreting over the barrel in the shield does not result in any real bond with the concrete of the pre-concreted shield. Another disadvantage of the known constructions is that through the fastening straps attached to the top the fall behavior is negatively influenced. Because of this, these containers cannot be used as so-called type B containers will.

The following innovation has the task of improving or redesigning the previously known container so that the container can be manufactured easily and without great additional costs as a type B container, which considerably simplifies the sealing over the barrel and is improved, and that space-saving storage in a salt mine without subsequent pouring out of the Cavities around the container is made possible.

To solve this problem, the present innovation proposes a disposable transport container of the type described at the beginning before that in the wall of the concrete pot at the height of the stop

fens radially extending pipes are concreted in above the barrel, two opposite each other in different Are arranged height and that tie rods are inserted through the pipes, which can be poured with the concrete plug. Farther it is according to the present innovation of advantage that between the arranged at different heights in the concrete plug Tie rods one or more layers of structural steel mesh are inserted. In this way, the concrete covering can be placed over the · shielding existing barrel can be significantly improved, i.e. there is a real bond with the concrete of the pre-concreted Shielding. The innovation also suggests that the ends of the tie rods protrude beyond the outer edge of the pot they have hinged hanging straps attached. In this way they cannot be deformed if the container should fall the reinforcement and the shielding. Ultimately, the innovation suggests that the concrete pot should have a hexagonal outer shape having. In this way, a particularly space-saving storage in a salt mine without subsequent displacement of the Barrels possible, no cavities between the barrels have to be subsequently filled with salt.

Further details of the innovation are given below using the Figures 1 to 5 explained in more detail. Show it-.

Figures 1 and 2 section and plan view of a container with tie rods and inlaid steel mesh with conventional hanging straps and

Figures 3 and 4 show a container in section and plan view, at

which the suspension straps are screwed to the tie rods and

FIG. 5 shows a different type of container cross-section.

Figures 1 and 2 show the transport container, which is essentially consists of the cylindrical concrete pot 1, the interior 2 of which is approximately up to the line 3 of a not shown Waste drum is filled. The space 4 above the barrel is poured after introducing the same with concrete, so that a

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massive "sealed" concrete body is created. The concrete mass filled up over the barrel is called a seal. To improve the fastening of the concrete seal in space 4, two tie rods 5 and 6 are now preferably pushed crosswise through the pot 1, which are guided through it in the pipes 7, 8, 9 and Io. The tubes 7 to Io are cast into the pot wall and connected to the reinforcement, not shown in detail, in such a way that two opposing T and 9 or 8 and Io are at different heights. come so that the threaded tie rods 5 and 6 can cross each other. In this way, the tie rods or pipes can transfer the shear forces that occur in the event of a fall particularly well. The height distance 11 is dimensioned so that one or more layers of structural steel fabric 12 can be placed between them so that a particularly strong concrete seal is created after the space 4 has been poured out. The grate made of structural steel mesh 12 is held in its position by tie rods 5 and 6. Corresponding spacers create a fixed distance from the barrel located in the shield.

The embodiment according to Figures 1 and 2 is provided with suspension straps 13 and 14 of known design, which by means of reinforcements 15 and 16 concreted into or into the bottom of the pot 1 are anchored in it. The inserted tie rods 5, 6 ^. will be before the potting fixed by means of nuts 17 on the circumference of the pot.

In the embodiment according to FIGS. 3 and 4, tubes 21 are also cast in a base body 2o similar to FIG. 1, and these tubes receive tie rods 22 and 23 in the same way. These are also cast in concrete in space 24 above the space 25 receiving the barrel. The peculiarity is that at the ends 26 of the tie rods 22 and 23 in each case in the niches 27 on the circumference of the pot, hanging tabs 28 are attached, which are screwed tight by means of nuts 29. The tabs 28 can thus be folded over so that they cannot be damaged if the container 1 falls onto its upper surface 3o. ^D - "- ^e tabs 28

are evenly distributed over the circumference, one at each anchor end 26. In the embodiment shown, four are provided.

In FIG. 5, there is another special feature in accordance with the innovation shown. In this, the circumference 31 of a pot 3o is formed in a hexagonal shape, so that several containers juxtaposed to form a dense and compact arrangement which can withstand very high loads if the containers e.g. be stacked close together and on top of each other in an underground storage facility. The rest of the design of the pot 3o as well seinqm interior 32 are designed exactly as in the Figures 1 and 2 or 3 and 4. The container can also have recesses 33 on two edges, which allow it to a forklift truck both standing and lying in the intended arrangement.

The particular advantage of the innovation is that the previously known concrete shields in terms of attachment the concrete seal can be significantly improved. In addition, the execution of the carrying straps is much safer and the storage of the containers in an underground storage facility is facilitated.

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Claims (4)

KERNFORSCHUNGSZENTRUM Karlsruhe, December 19, 1978 KARLSRUHE GMBH PLA 7862 Sdt / str Protection claims: 1. Disposable transport container made of concrete for holding barrels with radioactive content, consisting of an open top cylindrical concrete pot, in the wall of which reinforcements are cast, and the interior space above the introduced Waste barrel can be poured out with concrete so that a concrete plug is formed over the barrel, characterized in that In the wall of the concrete pot (1) at the level of the stopper above the barrel radially extending pipes (7 to 13,21) concreted are, with two mutually opposite (8, Io or 7, 9) being arranged at different heights (11) are and that through the tubes (7 to lo, 21) tie rods (5,6 or 22,23) are inserted, which can be poured with the concrete plug are. 2. A container according to claim 1, characterized in that arranged between the different.Höhe (11) in the concrete plug Tie rods (5,6 or 22,23) one or more: cere layers Structural steel mesh (12) are inserted,
u 3. Container according to claim 1 to 2, characterized in that the ends (26) of the tie rods (22,23) over the outer edge of the Pot (2o) stand out and hinged hanging straps (28) are attached to them. 4. Container according to claim 1 to 3, characterized in that the concrete pot (3o) has hexagonal outer shapes (31). -2-