Patent Number: 043057870
Section: description

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS As may be seen in FIGS. 1 through 7, the rack is comprised of a series of self-supporting metal tubes 1 arranged in a staggered fashion with respect to each other. In the example described, each of the tubes is comprised of two steel L angle sections joined longitudinally along their outer edges. Each such section is provided in one of its flanges with a projection 2 which, once the tubular element is formed, lies opposite the other so as to define a like number of skegs which, once the rack is assembled, lie opposite the edges 3 of the adjacent tubes lacking such skegs. By welding the skegs 2 to the edges 3, the elements are joined to each other in such a fashion that a tubular hole of larger cross-sectional area than the tubular elements 1 is defined between each four tubular elements. The covering of protective material 5 is placed within the tubular holes 4 defined between each four tubular elements, so that the internal cross-sectional area defined by the covering is equal to the internal cross-sectional area of the tubular elements 1. With this construction, the spent radioactive fuel inserted into the tubular spaces 4 is protected by the protective covering 5. Similarly, the spent radioactive fuel stored in the tubular elements is protected by the protective coverings of the tubular holes surrounding each tubular element 1. The tubular elements 1 are self-supporting and when joined in the fashion explained above constitute a rigid spatial structure which does not require stiffening elements, it being sufficient to connect them to a base plate or structure which may in turn be provided with supports of a construction such as the one shown in FIG. 8. The supports consist of a sleeve 6, which fits within a stem 7 capable of sliding axially a given distance. This distance is jointly determined by the length of its narrower portion 8 and by the radial screw 9, which acts as a stop for the surfaces delimiting said portion 8. The stem 7 is provided outside the sleeve 6 with a wider portion 10 between which and the sleeve 6 is mounted a compression spring 11 which constantly pushes the stem downward. Furthermore, the lower end of the sleeve 7 may be provided with a head 12 having a spherical lower surface, which head fits into a bushing 13 which rests on the surface upon which the container is placed. the housing of the bushing 13 and the head 12, having a spherical lower surface, define a hinge joint permitting the free orientation of the bushing 13. This possibility of orientation and the spring 11 are together capable of absorbing irregularities in the ground or surface upon which the container is located. As shown in FIG. 2, the tubular elements 1 may consist of four duly welded plates, wherein one of the plates in each tubular element, referenced in the drawing with the number 14, is wider than the other three so as to define the projections 2 which are used for joining with the edges lacking such projections of the adjacent tubular elements. As in the case of FIG. 1, a tubular hole 4 whose cross-sectional area is larger than that of the tubular elements 1 is defined between each four elements; the protective covering 5 being located within said tubular holes 4. In the case of FIG. 3, the tubular elements 1 lack the longitudinal projections that define the skegs 2, said projections being obtained by welding along their longitudinal edges a longitudinal piece 15 at a 45.degree. angle and arranged in such a fashion that the two pieces 15 of the adjacent edges of each two consecutive tubular elements lie opposite each other as shown in the drawing and are joined to each other by means of a bolt 16 or a rivet. The two pieces 15 can be produced together with the tubular element 1 by extrusion, as is shown in FIG. 4, having the same orientation and being joined in the same fashion by means of bolts 16 or rivets. In the case of FIG. 5, the tubular elements 1 may be comprised, as in the case of FIG. 2, by four plates welded to each other through parts 17 interposed at a 45.degree. angle at their longitudinal corners and projecting outward so as to define the attachment skegs. The construction between the tubes may be effected, for example, by means of bolts 18 through tapped holes at a 45.degree. angle of various places of the parts 17. The same joining system is used in the case of FIGS. 6 and 7, with the difference that, in the case of FIG. 6, the projection 17 is part of one of the walls of the tubular element 1, and in the case of FIG. 7, the projections 17 are part of the entire tubular element 1 and are obtained, for example, by extrusion of said element. In all cases, the protective covering 5 is located inside the tubular hole defined between each four tubular elements 1. As can be seen, the construction of the tubular elements and the method of joining said elements to each other may be varied, provided no change is made in the essential characteristic of this construction, which is that the metal tubular elements 1 are self-supporting, that said tubular elements are arranged in a staggered fashion and are joined to each other along their longitudinal edges so as to form a rigid spatial structure, and that the protective covering is located only within the tubular holes defined by each four tubular elements 1. With reference to the second embodiment, as may be seen in FIGS. 9 through 12, the rack is comprised as in the preceding case by a series of self-supporting tubular elements 1, arranged in a staggered fashion with respect to each other, so as to delimit between each four tubes, a tubular space or hole 4 wherein will be located the element 5 bearing the encapsulated neutron-absorbing material. The tubular elements 1 may, for example, be welded to a bottom plate 19 which is in turn attached to a base plate 20 by means of, for example, bolts. As in the preceding case, the tubular spaces or holes 4 delimited between each four tubular elements 1 have a larger horizontal cross-sectional area than said tubular holes, precisely in order to receive the element 5 bearing the encapsulated neutron-absorbing material which will constitute the protection for the spent radioactive fuel rods that will be housed both within the tubular elements 1, and within the tubular holes 4. According to this invention, the tubular elements 1 are independent of each other throughout their length and each has a frame 21 attached to its upper end. The frames of the various tubes may be independent, as shown in FIGS. 9 through 12, each frame 21 having four vertical surfaces or faces 22 in the area adjacent to the four surrounding frames. The faces 22 opposite the adjacent frames 21 are parallel to each other, there being a slight void or gap between them, as may be seen in FIG. 9, whose right side shows the tubular elements with the frames attached to them while the left side of the figure shows the tubular elements in cross-section. The tubular elements 1 and the independent frames 21 together constitute a spatial structure of multiple elastic pillars capable of withstanding vibrations caused by, for example, earthquakes. According to another aspect of the invention, depicted in FIG. 13, an adjustable device intended to center the element 5 bearing the encapsulated neutron-absorbing material and to eliminate the gap between the upper part of said element and the surrounding tubes is provided between each tubular element 1 and its upper frame 21. This adjustable device is comprised of two plates 23 and 24 which are respectively depicted in FIGS. 14 and 15. These plates have surfaces, designated with the numbers 25 and 26, which face each other in a wedge-like fashion. The two plates are inserted back-to-back with respect to each other along the said surface between each tube 1 and the frame 5 of each element bearing the encapsulated neutron-absorbing material. The two plates are provided at the top with an elbow, designated with the number 27 in plate 23, and 28 in plate 24, as can be best seen in FIGS. 14 and 15. In order to facilitate the mutual attachment of the plates, the top of plate 23 is provided outside the region corresponding to the wedge surface 25 with a cut-out portion 29 into which the portion of the plate 24 lying above its wedge surface 26 fits. As can be seen in FIG. 13, the elbows 27 and 28 face toward the tubular element 1 and provide mutual support between them and on the upper outer edge of said tube. Adjustable support elements, consisting of bolts 30, making it possible to adjust the distance between the elbows 27 and 28, are arranged between the said elbows 27 and 28. The frame 21 of each tube is also provided with stop elements consisting of vertical through bolts 31. These elements are threaded through the frame of each tube, starting at the upper surface thereof and extending downward beyond said frame, so as to rest on the elbow 28 of the plate on the side of the element bearing the encapsulated neutron-absorbing material. These bolts 31 limit the vertical movement of the plates 23 and 24. According to the variant shown in FIG. 16, the frames 21 of the various tubes all comprise a single grid, so that the assembly of the tubes constitutes a spatial structure of multiple elastic bents. The system used to eliminate the gap between element 5 and the surrounding tubes may be the same as described with reference to FIGS. 13 through 15. In addition to the advantages derived from the construction discussed in the preceding embodiment, this construction achieves the further advantage that the rack is capable of withstanding the effects of earthquakes with low dynamic factors. As has already been mentioned, holes may be provided in the walls of the metal tubular elements 1 in order to reduce the weight of the assembly even further. Although only a preferred embodiment is specifically illustrated and described herein, it will be appreciated that many modifications and variations of the present invention are possible in light of the above teachings and within the purview of the appended claims without departing from the spirit and intended scope of the invention.