JPH10501066A - Storage system for hazardous waste - Google Patents

Abstract

(57) Abstract: A storage system for a plurality of drums (2) containing hazardous substances such as radioactive waste has a plurality of stillages (1) stacked vertically. Each stillage (1) is a machined metal structure containing a plurality of drums (2) and having a rectangular planar base (3) with posts (7, 8, 9, 10) extending upward from each corner. . Each post is hollow and has a support pad (27, 29, 30, 31) at an end remote from the base (3). The support pad lies on a plane substantially parallel to the base. The upper and lower connecting plates (35, 36, 43) extend between the four posts and form the outer periphery of the stillage. An inner partition (38) is provided for forming a plurality of partitions for accommodating the drum (2), and the inner end of the partition (38) is attached to a central ring (40). In the stillage (1), the base of the upper stillage is supported on the support pad of the lower stillage, and is stacked in an unfixed state. Such a stack can withstand the load of an earthquake.

Description

DETAILED DESCRIPTION OF THE INVENTION                     Storage system for hazardous waste   The present invention relates to storage systems for hazardous substances, in particular, for example, radioactive Regarding a system where multiple drums containing waste are stored in stillage You.   For example, in a stainless steel drum, encapsulated in a cementitious matrix It is well known to store radioactive waste. Drums ultimately go deeper into the ground It is stored in a shielded building until it is placed in a storage place where it will be placed. Occluded Systems for storing damaged buildings and drums in the building Designed to withstand not only loads but also earthquakes or extreme environmental conditions I have to. If such a design is not made, these situations can cause Radioactive material may leak from the ram, causing dangerous environmental pollution.   4 drums containing radioactive waste from French utility model 224947 It is well known to provide a stillage that can accommodate Stillage up and down Arranged to form a vertical stack. However, as disclosed in this prior document, The problem of stillage is that the structure of this stillage is, for example, four or more. Stabilization system that is stable against earthquake loads. It does not assist in the formation of the lock. Therefore, four or more of the prior art The stack formed from the stillage is designed to withstand seismic loads Need support from separate frameworks. The manufacture and construction of such a framework is complex. Messy and expensive. This framework also creates a stack of stillages. Storage systems, because they require horizontal restraints connected to the building The usefulness of the system is limited.   A further drawback of such prior art systems is the sadness that favors stillage. The point is that the pair requires considerable space. Therefore, steps that can be stored in the building The number of erasures and thus the number of drums is limited. Also support stillage The desired cooling air circulation around the drum Difficulties are also recognized in this regard. Framework and storage building supporting stillage If a horizontal support is provided between the wall and the wall of the It is transmitted to the same wall through the steps. As a result, the walls need to have a certain thickness The construction cost of the building increases.   It is an object of the present invention to eliminate, or at least minimize, the aforementioned disadvantages. For storage and / or transportation of multiple drums containing hazardous substances To provide the same.   According to the invention, storage systems for drums containing harmful substances are arranged one above the other With multiple stillages that form a vertical stack. A plurality of drums can be accommodated, and the stillage defines a substantially rectangular shape. A substantially planar base having two sides and arranged at each corner of the base Posts, each post extending vertically upward from the base, and The pad and the pad are each placed on the post at an end remote from the base. Or fixed to the post and parallel to the plane containing the base, Has a machined metal structure that is arranged substantially in parallel, and the stillage has When placed in a vertical stack, the base of the stillage is directly underneath. It is arranged on a support pad provided on a post of the stillage to be placed.   Each post has a hollow structure with two planar outer walls, each outer wall being an adjacent base. Preferably, it extends parallel or nearly parallel to the side surface.   Each post extends between two spaced apart ends of two planar outer walls A hollow structure having an inner wall having a triangular cross section can be formed. Also on the outer wall The inner wall extending between the two spaced apart ends is separated from one of the two spaced apart ends. A first planar portion extending inward, a second planar portion extending inward from the other, A curved portion extending between the first and second planar portions and interconnecting them Minutes.   Each support pad has a side that extends parallel or nearly parallel to the wall of the associated post It is desirable to have Thus, for example, if the post has a triangular cross section, If so, the support pad may be triangular with a larger cross-sectional area than the post.   The stillage is composed of a plurality of stiles arranged to define the outer periphery of the stillage. Connecting plates, each connecting plate extending between two adjacent posts and secured thereto Is desirable. Each connecting plate is located on the common plane of two adjacent posts Can be fixed to two outer walls. Therefore, the inner surface of the connecting plate Located on substantially the same surface as the outer surface of the post that is Can be easily fixed.   The connecting plate comprises four upper connecting plates, each upper connecting plate being located above the base. , Extending between two adjacent posts.   The upper connecting plate has a substantial depth, and each connecting plate has a length of 4 mm in the vertical direction. It is preferred to have dimensions that are on the order of ８8 times.   The linking plate further includes four lower linking plates, each lower linking plate being associated with each stillage. An adjacent portion is formed below the upper connecting plate so as to form an outer periphery in the lower region. Extending between the two posts. Each lower connecting plate, at each end, from each post A lower portion having a portion extending in a downwardly inclined direction, the portion having a base and a port. Together with the strike, an opening communicating with the interior of the stillage is formed. Each lower connecting plate Has an upper portion extending from each post in a direction inclined downward. Also The upper portion of each lower connecting plate may extend parallel to a plane including the base.   Stillage has multiple internal compartments for accommodating drums, Formed by partition plates, each partition plate being connected to the lower connecting plate and extending inward therefrom It is desirable to have an outer edge that is   In a preferred embodiment of the present invention, the storage is centered inside the stillage and above the base. A ring is arranged, and the inner end of each internal partition plate is attached to the ring. Same as ring It is desirable to provide an opening in the base at the position of the shaft. Therefore, stillage When arranged as a vertical stack, the rings and openings penetrate the stack Forms a central passageway that allows cameras and other monitoring devices to move between drums I do.   The stack consists of at least four stillages, nine or more stillages It is also possible to form from.   The stillage of the present invention is described in French Utility Model No. 2249547. It has several features that produce effects not available with stillage. example For example, in prior art stillage, the width of the support surface on the top crossrail is narrow. From the above, due to errors in stack formation when arranging stillage up and down, There is little room. This feature also allows for fine lateral slippage that can occur due to earthquakes. Even this can lead to failures that are not tolerated. Therefore, the prior art stille Stacks are unstable and cannot withstand the effects of earthquakes. No. On the other hand, the stillage of the present invention has a There is a support pad fixed to the upper end of the strike. Formed as a stack Sometimes, the base of one stillage is the support On the ground, resulting in the lateral or vertical In the condition of the maximum side slip in the oblique direction, sufficient support can be obtained.   Further, when forming a stack of prior art stillage, each stillage Care must be taken to ensure correct orientation. Otherwise, the high side May be located above the lower side of the stillage, which is located directly below. This This can also cause an unstable stack. However, according to the present invention, The cage is designed to be perfectly symmetrical, Stack formation in orientation is possible.   Prior art stillages consist of relatively thick side rails and internal bulkheads. However, in the stillage of the present invention, these components are relatively thin flat plates. It is formed from Thus, for a given drum diameter, the overall stillage of the present invention is The width of the body is smaller, thus creating more stacks for a given storage area It is possible to In addition, prior art stillages have rigid hollow section beads. These are made up of drums, for example, when an earthquake occurs. Dent or crack easily when received and may be permanently dented There is a potential. The connecting plate and the internal partition of the present invention absorb the impact from the side by the drum. It is formed of a tall thin plate that can be recovered and recover its original shape. Also, light The configuration with low volume sections reduces cost, stack weight, handling equipment and final In terms of processing, it has a beneficial effect.   In stillage described in French Utility Model 224947, The bar is fixed to the bottom of the forklift truck, which The base is lifted off the floor to provide clearance for the In that it is designed for handling by forklift trucks. Also, when a stack is formed from stillage, the upper surface of the drum and the Between the forklift truck and the base of the stillage mounted on the There must be enough space for the work. This is precious Waste of space above the storage. In contrast, the stillage base of the present invention is This is the lowermost part of the tilage. In addition to minimizing the gap from the top end of the storage post to Is minimized, and the storage height can be used optimally. This is possible because The handling of stillage by forklift trucks in radioactive areas This is because it is not appropriate to use the method and the method is not adopted. The present invention Storage has four pins that can be remotely or manually operated as needed It is designed so that it can be lifted from above by means of a grapnel.   Hereinafter, an embodiment of the present invention will be described as an example with reference to the drawings.   FIG. 1 is a side view of a stillage for drum storage according to a preferred embodiment of the present invention. FIG.   FIG. 2 is a plan view of the stillage shown in FIG.   FIG. 3 is a side sectional view of the stillage taken along line III-III in FIG. 1.   FIG. 4 is a plan view of a support post for stillage indicated by arrow A in FIG. is there.   FIG. 5 is a diagram showing details of stillage along line VV in FIG.   FIG. 6 is a side view of stillage according to another aspect of the present invention.   FIG. 7 is a plan view of the stillage shown in FIG.   FIG. 8 is an enlarged cross-sectional view showing a post taken along line VIII-VIII in FIG. .   FIG. 9 is a sectional view showing a modification of the stillage of FIG. 1 along the line IX-IX of FIG. FIG.   FIG. 10 is a side sectional view of the stillage shown in FIG. 9 along the line XX in FIG. .   FIG. 11 shows a plurality of stillages stacked vertically.   Stillage according to the present invention is used to stack or transport containers. Hazardous waste such as radioactive intermediate level waste material Used to stack or transport drums containing it.   Contains harmful substances such as encapsulated radioactive waste, as indicated by the dotted lines in FIG. A stillage 1 for storing four cylindrical drums 2 is shown in FIGS. Do The shape of the ram need not be cylindrical, but may be, for example, square. Stille The page 1 is manufactured, for example, from a steel plate made of high chromium ferritic steel. S The tailage is made from a flat square plate having an upper surface 4, a lower surface 5 and four side surfaces 6. It has a rectangular base 3 to be formed. Base 3 is typically 6. 5mm thickness Have only Four posts 7, 8, 9, and 10 are provided vertically and vertically from the base 3. It extends and is welded to the upper surface 4 at four corners of the base.   As can be seen from FIGS. 3 and 4, each post is hollow, triangular in cross section and flat on the sides. A flat structure formed by bending a single plate. Post 7 is outside Has two flat walls 11, 12 on each side, each parallel to the adjacent side surface 6 of the base 3 Is placed on a flat surface. Each outer wall 11, 12 is inwardly formed to form an inner wall 13. Each of the bent and inwardly bent portions has four sides with respect to the adjacent outer walls 11,12. Form an angle of 5 °. Elongated strip 14 is formed centrally along inner wall 13 Is welded inside the post 7 to cover the gap to be made. Strips are optional Base to leave a gap that allows grout to flow into the post. It does not extend perpendicular to 3.   Each of the other posts 8, 9, 10 is formed in a similar manner. Therefore, The strike 8 has an inner wall 17 with two outer walls 15, 16 and a central strip 18. You. The post 9 comprises an inner wall 2 with two outer walls 19, 20 and a central strip 22. 1, the post 10 comprises two outer walls 23, 24 and a central strip 26. Having an inner wall 25.   A substantially triangular flat support pad that is essentially the same in cross section as the post, It is welded to the upper ends of the posts 7, 8, 9, and 10. As is clear from FIG. The pad 27 is welded to the upper end of the post 7, and the support pad has They are arranged so as to be parallel to the walls 11, 12, and 13. Dimensions of support pad 27 Has a cross-sectional area larger than that of the post 7, and The side of the pad slightly covers the walls 11, 12, and 13. support Factors to consider in determining pad size include stack An acceptable range of sideslip is included. Clay used for stillage handling Slot 28 to facilitate insertion of a grapple attached to the Are provided on the support pad 27. Similarly, triangular support pads 29, 30, 31 is welded to the upper ends of the corresponding posts 8, 9, 10 and corresponds to each support pad Stillage handling slots 32, 33, 34 are provided. Four gras Slots 28, 32, 33 and 34 for handling the panel are operated repeatedly by a crane. They are precisely spaced from each other so that they can be easily cropped. Support pad 2 7, 29, 30, and 31 are all placed on a plane parallel to the plane including the base 3. You. Strips 14,18,22,26 can be grouted into posts as needed. The base 3 or the support pads 27, 29, 30, It does not extend perpendicular to 31. These strips can also Used as a guide for loading and unloading to and from the drum, Avoid the top of the drum getting stuck under the pad.   In the lower area of the stillage 1, the necessary strength characteristics for the drum 2 and the external boundary A lower connecting plate is provided between the outer surfaces of the posts to provide a field. Shown in FIG. As described above, the lower connecting plate includes a pair of connecting plates 35 and 36, and each connecting plate corresponds to the corresponding connecting plate. And the upper and lower portions are inclined downwardly from the post, so that the upper portion has a post 9, It converges to an intermediate point between 10. The lower part makes an angle of 30 ° with the base 3 Thus, one end of the inclined plate 35 is welded to the outer surface 20 of the post 9. Similarly, The inclined plate 36 is welded to the outer surface 23 of the post 10 and its lower part is ° angle is formed. As a result, the triangular openings 37 form the posts 9, 10, It is formed between the plates 35 and 36 and the base 3. As an advantage of these openings 37, Promotes the flow of cool air around the drum, and also reduces moisture during grouting. Reducing the likelihood of trapped "pockets" being formed. FIG. The lower connecting plates 35, 36, as shown in FIG. And posts 8 and 9, respectively.   The adjacent end of the lower connecting plate is shaped such that the lower edge is welded to the upper surface 4 of the base 3. It has become. Another edge of each adjacent end of the lower connecting plates 35, 36 is And extends vertically and is welded to the outer end of the inner partition 38. Form four compartments In order to achieve this, it is arranged at right angles to the lower connecting plates 35 and 36 and Are disposed, and each section includes a waste-containing drum. 2 are accommodated. A tab 39 is formed at the inner end of each internal partition 38. same The tab 39 is located in the center of the stillage and has a circular hole 4 formed in the base 3. 1 is welded to a band forming a concentric ring 40. Ring 40 is required The band can be replaced, for example, with a square shape Or it may be formed in a hexagon. If the storage is stacked vertically, Ring 40 and hole 41 provide a central passage through the entire stack, and Such a monitoring device allows movement between the drums 2. Optionally, a central ring A function 40 is to prevent the base 3 from bending at its center due to the load of the drum 2. And the holes 41 facilitate the flow of cool air around the drum. Drums It is preferred to have an annular ring at or adjacent the large outer diameter. The load concentrates on the sides of the stillage and near the internal bulkhead. Follow Therefore, the deflection of the base due to the load of the drum is further suppressed, and the thickness of the base is minimized. Can be   By a series of upper connecting plates 43 welded to each post and extending between each post This gives the stillage more strength. That is, the upper connecting plate 43 is adjacent The post extends between the outer surfaces 20, 23 of the posts 9, 10, and is connected to the outer surfaces 20, 23. Welded. Similarly, the upper connecting plate 43 includes two corresponding posts of the two posts 10 and 7. Extending between the outer surfaces 24 and 11 and being welded to the outer surfaces 24 and 11 at its ends. Is done. The upper connecting plate 43 extends between the two outer surfaces 12 and 15 of the posts 7 and 8. The upper connecting plate 43 which extends and is welded to the outer surfaces 12, 15 at its ends is Extend between the corresponding outer surfaces 16, 19 of the Welded at its end. Therefore, the inner surface of each upper connecting plate 43 is About the same as the outer surface of the post. As is clear from FIG. The plate 43 has a slight flat with a raised flat central part 44 and two inclined sides 45. It has an arcuate structure. The bow shape has an angle A of 30 ° as shown by the dotted line. This is achieved by first forming two sides 45. Then the board It can also be flat to form the desired shape. Each upper connecting plate 43 is The vertical dimension (width) may be relatively large to provide a qualitative surface area it can. The total length of each upper connecting plate may typically be 4 to 8 times the vertical width.   A positioning plate 46 extending below and inward of the stillage is provided on each upper connecting plate 43. It is welded on the upper side. The positioning plate 46 functions as a positioning surface of the drum 2. It has an inclined end 47 (see FIG. 2). A similar positioning plate 48 It is welded to the lower side of the plate 43. The positioning plate 48 extends downward and inward, and It has a beveled end 49 which acts as a positioning surface for the ram.   Further embodiments of stillage are shown in FIGS. Stillage mentioned above Stillage 52, which is designed in much the same way as The painting contains a drum containing waste. The stillage 52 includes an upper surface 54 and a lower surface 55. And a square base 53 formed from a flat plate having four sides 56 You. Four support posts 57, 58, 59, 6 upward from the base 55 and vertically. 0 extends and is welded to the upper surface 54 at four corners of the base.   FIG. 8 is a cross-sectional view of post 60 to show a cross-section of a typical post. Each port The strike is formed by bending a single plate into a hollow structure having two flat outer walls 61 and 62. Each outer wall 61, 62 is formed with the adjacent side surface 56 of the base 53. They are arranged on one parallel plane. At two spaced apart ends, two outer walls 61, 62 are interconnected by an inner wall 63. The inner wall 63 is perpendicular to the outer wall 61 A short flat portion 64 extending inwardly and a short flat portion extending inward at right angles from the outer wall 62 65. The curved portion 66 connects two short flat portions 64 and 65. Tie. The two outer walls 61, 62 at their adjacent ends have two lip portions 67 , 68 are each bent inward. Post 60 An extending gap 69 is formed between the ends of the two rib portions 67 and 68. Use In use, the gap 69 allows grout to be injected into the post as needed. I do.   Support pads 70, 71, 72, 73 in one plane parallel to the plane containing base 53 Are welded to the upper ends of the corresponding posts 57, 58, 59, 60. Each support The pad has substantially the same shape as the cross section of the post. Therefore, for each support pad The sides are substantially parallel to adjacent walls of the associated leg. The dimensions of the support pad are Is set to be larger than the cross-sectional area of the corresponding post. K Mounted on a crane to facilitate the handling of stillage by lanes Slots 74, 75, 76, 77 for inserting the grapple are provided with corresponding support pads. Pods 70, 71, 72, 73.   In the region below the stillage 52, the necessary strength is given to the stillage. For this purpose, a lower connecting plate 78 is provided between the outer surfaces of adjacent posts. Each connecting plate 7 8 are welded to the outer surfaces of the two outer walls forming the common surface of two adjacent posts I have. Each connecting plate includes an upper side 79 extending parallel to the base 53 and an upper surface 5 of the base 53. It has a lower side 80 extending along 4. The lower side 80 is provided at each end of the connecting plate 78 with a base. An inclined portion 81 forms an angle of 30 ° with the base 53. So two triangles A shaped opening 82 is formed adjacent the leg on either side of each post. these Openings 82 allow cold air to circulate around the drum and allow for grouting. In this case, the possibility of forming "pockets" in which moisture is trapped is reduced.   An internal wall 83 for forming four internal compartments for accommodating drums containing waste is provided. , Extend inward from the center of each lower connecting plate 78. The inner end of each partition 83 is a tab 8 4 is formed to form a hole formed in the center of the base 54. Welded to a band forming in a ring 85 concentrically arranged on 86 . Ring 85 and hole 86 correspond to the corresponding ring 40 and hole 4 of the previously described embodiment. It has the same functions as the first and provides the same advantages.   The rigidity of the stillage is such that each post 57, It is enhanced by providing an upper connecting plate 87 extending between 58, 59 and 60. . Each upper connecting plate 87 has a lower vertical portion 88 and an upper portion 89 inclined outward. . The end of the upper connecting plate 87 forms a part of the inner wall 63 of the legs 57, 58, 59, 60. Are welded to the short flat portions 64 and 65. Each upper coupling plate provides a substantial surface area It has a relatively long vertical dimension to serve. The total length of each upper connecting plate 87 is It can be 4 to 8 times the vertical dimension (the width of the connecting plate).   In the stillage variation shown in FIG. 9, three equally spaced holes 90 Formed in the base 3 of each of the compartments. Instead, four holes 90 are placed in each section. It may be provided in the image. As is clear from FIG. 10, the holes 90 correspond to the holes 90, respectively. In this manner, they cooperate with the pins 91 provided on the floor at the loading position of the drum at intervals. S When the rage 1 is located at the drum loading position, the pins 91 pass through the holes 90. As such, hole 90 is slightly larger than the diameter of pin 91. Pin 91 is a hole Each pin has a tapered portion 92 at its upper end to facilitate penetration through 90. Dora When the system 2 is placed on the stillage 1 with a grapnel (not shown), as shown in FIG. As shown, the bottom of the drum is located on the upper surface of the pin 91. The top of drum 2 In order to avoid being interrupted by stillage 1 when releasing the rapnel, It protrudes over the tops of the strikes 7, 8, 9, 10. Four drums 2 are stilly After being placed in the die 1, the grapples engaging the four posts 7, 8, 9, 10 are slid. Is used to lift the tilage 1 off the floor, in which case the bottom of the drum 2 Supported on the base 3, the top of the drum is located below the top of the post.   The advantage in the structure of the stillage described above is that it forms a post with a hollow cross section To occupy only a relatively small area of the base Nevertheless, it ensures that the post has optimal compressive strength properties. this Both the features and the use of upper and lower connecting plates consisting of relatively thin plates Minimize the amount of material surrounding the ram. This minimizes the size of the base And therefore have sufficient strength required in an earthquake However, the structure of the stillage can be made very small. Such a small The typed structure makes it possible to stack the maximum number of stillages in a given area. to enable. Derived from the relatively large vertical dimensions of the upper and lower connecting plates and internal bulkheads The advantage provided is to provide these components with sufficient surface area, furthermore the drum Allows adequate protection from lateral impact.   In its use, as shown in FIG. 11, a stage comprising four drums 2 each. The storage 1 or, alternatively, the storage 52 is located on the floor 94 of the storage facility. Each stillage is supported vertically on four assembled floorboards 93 and stacked vertically. It is. The floorboards 50 are arranged below each corner of the base 3 of the lowermost stillage. , Providing a secure and level base for each stack. Of the upper stillage The base 3 simply consists of the four pads 27, 29, 3 of the storage below it. It is only placed on 0,31. Therefore, the stacked stillage , Floor 94 and other stillage. ,to this In the event of an earthquake, the energy generated by sliding the stillages together Can be distributed. Side slip in a set earthquake (design standard earthquake) Of the stack should be small enough to keep the stack intact. Toga As indicated by a small scale test. The flat base of the stillage and underneath Large lateral area due to the large contact area between the stillage and the support pad The slide movement of the stillage is possible. Stack is the building to keep Seismic loads are stable because they are stable without the need for a separate support They are not transmitted to these walls. Therefore, the wall is 0. Suitable for 25g seismic load standard Requires no matching strength. One stack has at least four stillages A stack of nine stillages, each containing four drums, It was found to remain stable during the triaxial earthquake evaluation test.   When placed in a storage building, the stack may be, for example, 125 mm between stacks. １３０130 mm apart and arranged in rows. This makes it around the stillage The structure in which the cool air circulates sufficiently and the stillage is open This allows cold air to circulate directly.   The building to be stored is the space in the storage and the stack, and the storage and storage In the case of a warehouse where the space between the tack and the floor is grouted to the floor, the opening 37 is Allow grout to be injected into the stillage at the bottom of the rack.

[Procedure of Amendment] Article 184-8 of the Patent Act [Submission date] June 18, 1996 [Correction contents]                                 The scope of the claims 1. A plurality of stillages (1; 52) arranged one above the other to form a vertical stack ) And each stillage contains hazardous waste that can contain multiple drums A storage system for a drum (2), wherein said stillage (1; 52) is substantially A substantially planar base (3) having four sides defining a rectangular shape; Posts (7, 8, 9, 10; 57, 58, 59, 60) ), Each post extends vertically upward from the base, and a plurality of support pads ( 27, 29, 30, 31), and the pads are each at an end spaced from the base. At or on the post, or fixed to the post, and Placed parallel or almost parallel to the plane containing the base (3). Having a top metal structure, wherein the stillages are arranged in the vertical stack At this time, the base (3) of the stillage is located at the position of the stillage located immediately below. It is arranged on the support pad (27, 29, 30, 31) provided on the post. In a storage system, each stillage support pad is planar and the vertical Characterized by allowing relative lateral movement between stillages in the stack And storage system. 2. 2. The storage system according to claim 1, wherein each post (7; 60) has two flats. A hollow structure having a planar outer wall (11, 12; 61, 62); Is a storage system that extends parallel or nearly parallel to the side of the adjacent base. 3. 3. The storage system according to claim 2, wherein each post (7) is provided with the two flats. A triangular shape having an inner wall (13) extending between two spaced apart ends of the planar outer wall A storage system that forms a hollow structure with a cross-section in a shape. 4. 3. The storage system according to claim 2, wherein the two planar outer walls (61, 6). 2) the inner wall (63) extending between the two spaced apart ends of the A first planar portion (64) extending inward from one of the ends, and the other of the equally spaced ends Between a second planar portion (65) extending inward therefrom and the first and second planar portions And a curved portion (66) extending to and interconnecting them. . 5. 5. The storage system according to claim 3, wherein each support pad (27) is , Parallel or nearly parallel to the wall (11, 12, 13) of the relevant post (7) A storage system having extended sides. 6. The storage system according to any one of claims 1 to 5, wherein The storage further includes a plurality of connecting plates ( 43; 87), each connecting plate extending between two adjacent posts and fixed to them. Defined storage system. 7. 7. The storage system according to claim 6, wherein each connecting plate is adjacent two posts. A storage system secured to two outer walls located on a common surface of the vehicle. 8. 8. The storage system according to claim 6, wherein the connecting plate has four upper sides. Connecting plates (43; 87), each upper connecting plate being spaced upward from the base (3) Storage system extending between two adjacent posts at a designated location. 9. 9. The storage system according to claim 8, wherein the dimension of each upper connecting plate is its length. Is set to be on the order of 4 to 8 times the vertical dimension. Tem. 10. 9. The storage system according to claim 8, wherein the connecting plate further comprises four lower links. Tie plates (35, 36; 78), and each lower connecting plate is separated downward from the upper connecting plate. Extending between two adjacent posts at an intervening position, the lower portion of the stillage A storage system that defines the perimeter in the area. 11. The storage system according to claim 10, wherein each lower connecting plate (35, 36; 78) has a portion (81) at each end thereof extending obliquely downward from each post. It has a lower part, which together with the base (3) and the post, A storage system defining an opening (37; 82) communicating with the interior of the page. 12. The storage system according to claim 10, wherein each lower connecting plate (35, 36). Has an upper portion, and each upper portion has an end portion at which the post extends diagonally downward from each post. Tube system. 13. 11. The storage system according to claim 10, wherein each lower connecting plate (78) has a front side. Storage system having an upper portion (79) extending parallel to a plane containing the base (3) . 14． The storage system according to any one of claims 10, 11, 12, and 13, And an inner compartment plate for forming a plurality of inner compartments for receiving said drum. (38; 83), each inner partition plate is connected to the lower connecting plate, and Storage system having an outwardly extending end. 15. 15. The storage system according to claim 14, wherein an inner center of the stillage. And a ring (40; 85) positioned above the base. ), Each interior partition (38; 83) having an inner end attached to the same ring. Storage system. 16. The storage system according to claim 15, wherein the ring (40; 85) and An opening (41; 86) is provided in the base at a position on the same axis as each stilley. The openings and rings in the vertical stack extend through the stack. A storage system that works together to form a path. 17． 17. The storage system according to any one of claims 1 to 16, wherein the hanging system The straight stack is a storage system having at least four stillages (1; 52). M 18. 18. The storage system of claim 17, wherein the stack has at least 9 Storage system with two stillages. 19. The storage system according to any one of claims 1 to 18, wherein A storage system wherein the base (3) of the erasure comprises a substantially flat sheet metal. 20. The storage system according to any one of claims 10 to 19, wherein each storage The lower connecting plate (35, 36; 78) of the tilage is a substantially flat sheet metal. Storage system comprising a thin plate consisting of: 21. The storage system according to any one of claims 1 to 20, wherein The drawing plate (38; 83) is a storage comprising a sheet of substantially flat sheet metal. system. 22. The storage system according to any one of claims 1 to 21, wherein Lifting pads (7, 8, 9, 10; 57, 58, 59, 60) A storage system comprising an opening (28) that cooperates with the grappler means. 23. The storage system according to any one of claims 1 to 22, wherein The shape of the support pad of the carriage substantially corresponds to the cross-sectional shape of the corner post. Storage system. 24. 24. The storage system according to any one of claims 1 to 23, wherein each support. The area of the pad is larger than the cross-sectional area of the corner post to which the pad is fixed. Not a storage system.

────────────────────────────────────────────────── ─── Continuation of front page    (72) Inventor Hayward, David Stefan             United Kingdom, Daville A.3.6.D             Lee S, Thiessia, Wollington, Li             Zuri (no address)             Uclear Clears             In the sea

Claims (1)

[Claims] 1. With multiple stillages arranged one above the other to form a vertical stack, each Stillage can hold multiple drums, and can be used to store hazardous waste. A storage system, wherein the stillage has four sides defining a substantially rectangular shape. A base having a substantially planar shape, and a post disposed at each corner of the base. Each post extends vertically upward from the base and includes a plurality of support pads. Pads are each disposed on the post at an end remote from the base Or fixed to the post and parallel to the plane containing the base, or Being substantially parallel to each other, wherein the stillage has When placed in the vertical stack, the base of the stillage will On the support pad provided on the post of the stillage located directly below Storage system. 2. 2. The storage system according to claim 1, wherein each post has two planar outer walls. With a hollow structure, each planar outer wall being parallel to the adjacent base side, or An almost parallel storage system. 3. 3. The storage system of claim 2, wherein each post is out of the two planes. Has an inner wall extending between two spaced apart ends of the wall and has a triangular cross section A storage system that forms a hollow structure. 4. 3. The storage system according to claim 2, wherein the two planar outer walls are separated from each other. An inner wall extending between two spaced ends extends inward from one of the spaced ends A first planar portion and a second planar portion extending inward from the other of the spaced ends. And a curved portion extending between the first and second planar portions and interconnecting them. And a storage system comprising: 5. 5. A storage system as claimed in claim 3 or claim 4, wherein each support pad is associated with an associated support pad. Storage system having sides extending parallel or substantially parallel to the wall of the post. 6. The storage system according to any one of claims 1 to 5, wherein The rage further includes a plurality of connecting plates arranged to define the outer periphery of the stillage. Each connecting plate extends between two adjacent posts and is secured to them. Tube system. 7. 7. The storage system according to claim 6, wherein each connecting plate is adjacent two posts. A storage system secured to two outer walls located on a common surface of the vehicle. 8. 8. The storage system according to claim 6, wherein the connecting plate has four upper sides. A connecting plate, wherein each upper connecting plate is adjacent to the base at a position spaced upward from the base. Storage system extending between two posts. 9. 9. The storage system according to claim 8, wherein the dimension of each upper connecting plate is its length. Is set to be on the order of 4 to 8 times the vertical dimension. Tem. 10. 9. The storage system according to claim 8, wherein the connecting plate further comprises four lower links. A tie plate, and each lower connecting plate is adjacent to the lower connecting plate at a position spaced downward from the upper connecting plate. Extending between the two posts to define a perimeter in the area below the stillage. Storage system to do. 11. 11. The storage system according to claim 10, wherein each lower connecting plate is at each end thereof. And a lower portion having a portion extending obliquely downward from each post, and the portion has the lower portion. Together with the base and the post define an opening communicating with the interior of the stillage. Storage system. 12. 11. The storage system according to claim 10, wherein each lower connecting plate has an upper portion. A storage system wherein each upper portion extends diagonally downward from each post at its end. 13. 11. The storage system according to claim 10, wherein each lower connecting plate is connected to the base. A storage system having an upper portion extending parallel to a plane including: 14． The storage system according to any one of claims 10, 11, 12, and 13, And an inner compartment plate for forming a plurality of inner compartments for receiving said drum. An outer end connected to the lower connecting plate and extending inward therefrom. Storage system with a. 15. 15. The storage system according to claim 14, wherein an inner center of the stillage. And a ring positioned above the base is provided, A storage system wherein each inner partition has an inner end attached to the ring. 16. 16. The storage system according to claim 15, wherein the storage system is coaxial with the ring. The base is provided with an opening, and the opening and ring of each stillage are vertically Storage stacks that cooperate to form a passage that extends through the stack Stem. 17． 17. The storage system according to any one of claims 1 to 16, wherein the hanging system A straight stack is a storage system with at least four stillages. 18. 18. The storage system of claim 17, wherein the stack has at least 9 Storage system with two stillages.