Device for storing and transporting large-volume foam blocks

Abstract

A device for storing and transporting large-volume foam blocks includes a mobile, stackable storage box for receiving a foam block at a loading position and a transport device for transporting the storage box from the loading position to a floor storage. The device is suitable to store and transport large-volume, soft, viscoelastic foam blocks in a safe, simple, inexpensive and space-saving manner.

Claims

1. A device for storing and transporting large-volume foam blocks, comprising: a mobile, stackable storage box for receiving a foam block at a loading position; and a transport device for transporting the storage box from the loading position to a floor storage.

2. The device according to claim 1, further comprising a feed conveyor; and a loading device arranged at the loading position, wherein, during use, the storage box is placed onto the loading device, the foam block is loaded by the feed conveyor and the loading device into the storage box, and the storage box, after the foam block has been loaded therein, is transported, by the transport device, to the floor storage and there stacked onto other storage boxes.

3. The device according to claim 2, wherein the storage box includes tabs arranged at a distance from one another at its bottom, the tabs having upwardly directed lower support surfaces, wherein the storage box includes crossbars at its ceiling, the crossbars having upwardly directed upper support surfaces, and wherein when stacking an upper storage box onto a lower storage box the crossbars of the lower storage box are arranged in spaces between the tabs of an upper box such that the lower support surfaces of the upper storage box and the upper support surfaces of the lower storage box jointly form a common support surface.

4. The device according to claim 3, wherein the loading device comprises a plurality of conveyor elements, and wherein when the storage box is placed onto the loading device the conveyor elements protrude through the spaces between the tabs so far that the foam block while being inserted into the storage box rest only on the conveyor elements.

5. The device according to claim 3, wherein at least one storage space is provided at the floor storage, which has elevations that engage as supports for the foam block in the spaces between the tabs such that the supports increases a bottom surface of the storage box formed by the lower supports such that a common support surface is formed for the foam block.

6. The device according to claim 3, wherein the storage box and the loading device have corner fittings which engage in one another during stacking or placement and are secured by coupling adapters.

7. The device according to claim 1, wherein the storage box comprises at least one module, and wherein a plurality of modules can be joined together by connecting elements arranged between the modules to form the storage box.

8. The device according to claim 7, wherein at least one module can be gripped by a spreader for transporting the storage box.

9. The device according to claim 7, wherein the storage box is variably adjustable at least in its height.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] FIG. 1 is a schematic representation of a storage box for a device for storing and transporting large-volume foam blocks.

[0020] FIG. 2 is a side view of the storage box according to FIG. 1 on a loading device for filling large-volume foam blocks by a belt conveyor.

[0021] FIG. 3 is a front view of the arrangement according to FIG. 2.

[0022] FIG. 4 is a detailed view of the arrangement of FIG. 2.

[0023] FIG. 5 is a side view of the storage box according to FIG. 2 in its transport position.

[0024] FIG. 6 is a side view of two storage boxes according to FIG. 2 in their storage position.

[0025] FIG. 7 is a detailed view of the storage boxes according to FIG. 6.

[0026] FIG. 8 is a simplified representation of a modular device.

[0027] FIG. 9 shows the device according to FIG. 6 with a spreader for transporting the modules.

[0028] FIG. 10 is a schematic representation of a floor storage created from modules.

[0029] FIG. 11 is a front view of the loading and storage device.

[0030] FIG. 12 is a perspective view of a floor storage.

DETAILED DESCRIPTION

[0031] FIG. 1 shows a storage box 1 as part of a device for storing and transporting large volume foam blocks. The storage box 1 includes two front frames 2 and two side panels 3. The side panels 3 are formed as a frame, for example, a steel frame, made of two longitudinal struts 4 which for stiffening are provided with diagonal struts 5. At their bottom, the side panels 3 are connected by tabs 6, which have a lower support surface 7 for the foam blocks (not shown). The tabs 6 are arranged with a gap in between at a certain distance from each other. The side panels 3 are at the top, unlike what is shown in FIG. 1, held by preferably wide crossbars 8, the width of which matches approximately the dimensions of the distance of the tabs 6, so that the crossbars 8 can be pushed between the tabs 6. The crossbars 8 have an upper support surface 9.

[0032] FIG. 2 schematically shows a side view of the storage box 1 according to FIG. 1 for filling with large-volume foam blocks 10. The storage box 1 is arranged on a loading device 11. The loading device 11 has driven conveyor elements 12, here in form of transport rollers arranged on stands 13. The storage box 1 is placed on the loading device 11 in the direction of the arrows 14 such that the conveyor elements 12 are positioned between the support surfaces 7 of the tabs 6. The lower support surfaces 7 of the tabs 6 are positioned below the tops of the conveyor elements 12. The foam block 10 can be conveyed by a feed conveyor 15, for example, a belt conveyor in the direction of the double arrow 16 in or out of the storage box 1 by the driven conveyor elements 12. Due to the recessed arrangement of the storage box 1 in the loading device 11, the loading of the storage box 1 can take place easily and safely.

[0033] In FIG. 3, the storage box 1 according to FIG. 2 with the loading device 11 is shown in front view. It shows that the foam block 10 rests only on the conveyor elements 12 and floats above the tabs 6.

[0034] FIG. 4 shows in detail the transition from the feed conveyor 15 to the loading device 11. The feed conveyor 15 has a conveyor belt 17 which is held by a support structure 18. The conveyor elements 12 of the loading device 11 and the conveyor belt 17 are at the same height so that the foam block 10 can be freely guided into the storage box 1. The lower support surface 7 formed by the tabs 6, i.e. the bottom of the storage box 1, is placed lower than the upper edge of the conveyor elements 12 of the loading device 11. The foam block 10 rests only on the conveyor elements 12 during loading of the storage box 1 and can be moved.

[0035] A motor 19 mounted, for example, on one of the stands 13 drives the conveyor elements 12 of the loading device 11. The stand 13 has corner fittings 20 which are connected to the front frame 2 and into which coupling adapters 21 engage to secure placement of the storage box 1 on the loading device 11.

[0036] FIG. 5 shows the storage box 1 raised by the loading device 11 in the direction of the arrows 22 for transport to a floor storage 23. Since the tabs 6 lift the foam block 10 from the conveyor elements 12, the foam block 10 rests briefly during transport of the storage box 1 only on the lower support surfaces 7 of the tabs 6.

[0037] FIG. 6 now shows a floor storage 23, in which a storage box 1 is placed as a lowermost layer on a storage space 24, which is provided with supports 25 as supports for the foam block 10. These supports 25 fit exactly between the lower support surfaces 7 of the tabs 6, to jointly form an almost continuous support surface for the foam block 10. The tops of the supports 25 increase the bottom surface of the storage boxes 1 formed by the lower support surface 7.

[0038] On top of the lower storage box 1 a second, upper storage box 1 is placed. The upper support surfaces 9 of the crossbars 8 are arranged between the lower support surfaces 7 of the tabs 6. Thereby a common substantially continuous support surface is formed also for the foam block 10. Onto these two storage boxes 1 and 1 can now be placed the storage box 1 which in FIG. 5 has been lifted from the loading device 11. In that case, the crossbars 8 of the upper storage box 10 fill the space between the tabs 6 of the third storage box 1. Several stacks of storage boxes 1 can be arranged side by side, thereby forming, for example, a large reaction storage with many individual shelves, in which the large-volume foam blocks 10 and 10 can spend enough time after the foaming to cure without being deformed and can be warehoused until their further processing.

[0039] The top of the supports 25 of the storage space 24 increases the bottom surface of the lower or first storage box 1, while the top of the lower or first storage box 1 increases the bottom surface of the upper or second storage box 1 to a nearly seamless continuous support surface. The negative and positive elevations of the storage boxes 1 through the tabs 6 and crossbars 8 during stacking form a flat support surface 7, 9 on which the foam blocks can cure.

[0040] FIG. 7 shows a detail of the arrangement according to FIG. 6 with the two stacked storage boxes 1, 1 as well as the foam blocks 10, 10. The two storage boxes 1, 1 are substantially on top of one another with their front frames 2, 2, which have the corner fittings 20, into which the coupling adapters 21 engage to secure the placement of the storage box 1 on the storage box 1. The foam block 10 now rests fully on the lower support surface 7 of the tabs 6 of the upper storage box 1 and the upper support surface 9 of the crossbars 8 of the lower storage box 1.

[0041] FIG. 8 schematically shows a storage box 1 composed of modules 26, which are connected to one another by connecting elements 27 at least at the corners of the modules 26. Thereby, different and also long lengths of the storage boxes 1 can be achieved in a simple manner. The connecting elements 27 may be threaded connections or a bolt-tab connection system that has proven itself in containers on container ships or a slightly modified version thereof. The modules 26 are just like the one-piece storage boxes 1 provided with tabs 6 and crossbars 8 to form a large nearly seamless support surface (7, 9) for the large-volume foam blocks 10.

[0042] FIG. 9 schematically shows a spreader 28 for transporting the storage boxes 1 made of modules 26 by a crane (not shown). The spreader includes crossbeams 29, which are hooked to the corners of the modules 26, and a longitudinal/transverse beam 30 which connect the crossbeams 29. Such transport of a container by a crane is described for example in EP 0 699 164 B1.

[0043] If the storage boxes 1 consisting of the modules 26 are sufficiently resistant to bending, for example, the two outer or else the two inner crossbeams 29 could be eliminated from the spreader 28. Of course, the storage boxes 1 can also be handled by two cranes (not shown) having spreaders with only one crossbeam 29 each.

[0044] FIG. 10 shows in simplified form a floor storage 23 which has received a plurality of storage boxes 1, each formed by a number of modules 26. Several storage boxes 1 stand next to each other as the lowest layer on the storage spaces 24 described with reference to FIG. 5 so that even the lowest storage boxes 1 provide a large and almost seamless support surface for the large-volume foam blocks 10.

[0045] FIG. 11 shows schematically the floor storage 23 with a storage box 1 to be filled in a front view, which is placed on the loading device 11. On top of the storage box 1, the spreader 28 is arranged for transporting the storage box 1 by a crane (not shown). The spreader consists of crossbeams 29 which are hooked to the corner fittings 20 and of the longitudinal beam 30. The storage spaces 24 receive the storage boxes 1, which are optionally constructed of modules 26, such that the large-volume foam blocks 10 lie flat. The floor storage 23 consists of several stacked storage boxes 1, which are held according to the disclosure relating to FIG. 7 by the corner fittings 20 and coupling adapter 21.

[0046] FIG. 12 shows an overview of the entire device with the feed conveyor 15, the loading device 11 with a storage box 1 situated thereon, and the bottom storage 23. A large-volume foam block 10 was introduced by the feed conveyor 15 into the storage box 1 located on the loading device 11 after the foaming process. The foam block 10 is conveyed first by the conveyor belt 17 of the feed conveyor 15 and then by the conveyor elements 12 of the loading device 11 into the storage box 1.Then the storage box 1 can be gripped by a crane (not shown), with a spreader 28 and lowered at any point on the floor storage 23. Thereby a reaction storage warehouse for curing is formed. Coupling adapters 21 engage in the corner fittings 20 for safe placement of the storage boxes 1 on top of each other.

[0047] In summary, the new storage concept is based on a simple storage box 1, which can be made by connecting several modules 26. This storage box 1 is constructed such that it can be loaded via a correspondingly designed loading device 11. It can then be transported by a commercial crane and a spreader 28 as a gripper or by a mobile lifting system, such as a truck, forklift or the like. The gripper may be based on the gripping systems for freight containers. For storage, these storage boxes 1 are simply stacked onto each other, for example, up to five stories high. The storage boxes 1 can be connected to each other like containers on container ships with a proven or slightly modified bolt-lug system, which is described for example in EP 0 699 164 B1.

[0048] The storage boxes 1 have tabs 6 with a defined pronounced geometry which recede below the conveying elements 12 while loading the foam block 10 on the loading device 11. At the top of the storage boxes 1, crossbars 8 are arranged at an offset so that after stacking of the storage boxes 1 a nearly continuous support surface for the large volume foam blocks 10 is created in the block or honeycomb storage system 23. This double support during storage is particularly beneficial in combination with soft-elastic and in particular fresh, not yet cured foam blocks 10 to ensure the dimensional stability of the foam blocks 10. Thus, the device ensures optimal handling of the fresh blocks without physical impairment, in particular for demanding foams.

[0049] For reasons of saving space during storage and transport unused storage boxes 1, and possibly to compress the foam blocks for further transport, the storage boxes 1 may be formed to be variably adjustable at least in height. For this purpose, sliding or folding mechanisms can be used.

[0050] While the present invention has been described with reference to exemplary embodiments, it will be readily apparent to those skilled in the art that the invention is not limited to the disclosed or illustrated embodiments but, on the contrary, is intended to cover numerous other modifications, substitutions, variations and broad equivalent arrangements that are included within the spirit and scope of the following claims.

LIST OF REFERENCE NUMBERS

[0051] 1 storage box [0052] 2 front frame [0053] 3 side panels [0054] 4 longitudinal struts [0055] 5 diagonal struts [0056] 6 tabs [0057] 7 lower support surfaces [0058] 8 crossbars [0059] 9 upper support surfaces [0060] 10 foam block [0061] 11 loader [0062] 12 conveyor elements [0063] 13 stand [0064] 14 arrows [0065] 15 feed conveyor [0066] 16 double arrow [0067] 17 conveyor belt [0068] 18 support structure [0069] 19 motor [0070] 20 corner fittings [0071] 21 coupling adapter [0072] 22 arrows [0073] 23 floor storage [0074] 24 storage space [0075] 25 supports [0076] 26 modules [0077] 27 connecting means [0078] 28 spreader [0079] 29 crossbeam [0080] 30 longitudinal beam