• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a corrugated steel floor (1) in a shipping container, which steel floor (1) is positioned with corrugations comprising a number of ridges (6) and grooves (7) running towards an opening for loading and unloading goods to be shipped or stored in the container, where a distance between the ridges (6) measured from a substantial vertical one side (8) of a groove (7) to a substantial vertical other side (9) of the groove (7) is shorter than or equal to 40 mm. Further the grooves (7) of the corrugations are flush with or placed on a door sill (14) and the floor (1) can be assembled of a plurality of floor slabs (10).
    公开号:DK201370699A1
    申请号:DK201370699
    申请日:2013-11-18
    公开日:2015-06-01
    发明作者:Gert Jørgensen;Lars Lübker
    申请人:Maersk Container Ind As;
    IPC主号:
    专利说明:

    CORRUGATED STEEL FLOOR IN A SHIPPING CONTAINER
    The invention relates to an element for a corrugated steel floor in a shipping container, which steel floor is positioned with corrugations running towards an opening for loading and unloading goods to be shipped or stored in the container. A shipping container usually includes a pair of side walls, a rear end, a front end, a roof, a floor and a base frame. The base frame comprises two longitudinal bottom side rails and a plurality of parallel bottom cross members on which the floor is resting and to which cross members the floor is secured by fastening means.
    GB 2 406 560 describes a shipping container having a corrugated steel floor, which steel floor is welded to cross beams or cross members on which the floor is supported. The welding is performed in such a way that the welding seam is positioned under the corrugated floor.
    Some disadvantages related to such a solution to be mentioned are the difficulty in mounting the floor within the container. The floor must be assembled to the cross members before entering the container or the floor must be welded to the cross members while a welder is placed in an upright position for example in a pit below the container or the container is elevated to make room for a person standing or sitting under the container. Further it is not desirable to weld on a steel floor applied with a kind of surface treatment to prolong the life of the floor. Such a procedure will burn off the surface treatment being paintwork, electroplating or electroplating.
    If welded to cross members the surface treatment of cross members is damaged as well. If postponing the surface treatment until after welding, there will be overlapping areas between cross members and floor where no coating is applied. Further the assembled floor section will be difficult to handle if the assembled floor section should be provided with surface treatment.
    Another disadvantage related to known corrugated steel floors is that to ensure proper handling of pallets or other kind of goods to be positioned by pallet trucks or pallet jacks, "valleys" formed by grooves between ridges in the corrugated floor are filled by stuffing, which stuffing is dimensioned to ensure a level floor with no difference in height. Hereby wheels from pallet trucks or pallet jacks can roll relatively smoothly on the floor.
    Several known corrugated floors making use of stuffing to fill up the grooves between the ridges are manufactured with wide ridges to bring down the weight of the corrugated steel floor.
    The stuffing can be made of wood, plastics or another preferred light material.
    In combination with the corrugated steel floor, a thin plate can be paved on the corrugated steel floor. The thin plate may be made of thin wooden plate, composite plate or steel plate. Non-metallic stuffing may be filled within all the grooves of the corrugated steel floor in this embodiment too.
    Further a corrugated steel floor is often placed within a container in such a way that the ridges and grooves are positioned in a longitudinal direction of the container, in such a way that the ridges and grooves points towards a door or opening of the container. This is relevant to the possibility of emptying the grooves of the container floor from water or dirt and other such unwanted elements without the need for specially designed channels, grooves or pipes for emptying the grooves of the corrugations. Such specially designed channels, grooves or pipes for emptying the grooves of the corrugations will be very difficult to clean and will most likely be blocked by dirt or residues, but will be necessary in case the corrugations are positioned crosswise in the container.
    It is known to have corrugated floors within a container where the top of the ridges are level with a door sill. This requires that the water, dirt or other residues mentioned above can lead to a transition between the corrugated floor and the door sill where water, dirt or other residues can be led out of the container. This can be done by manually sweeping the transition with a broom or another suitable tool.
    The object of the invention is to provide a corrugated steel floor enabling wheels from pallet trucks, pallet jacks, sack trolleys or similar equipment to roll relatively smoothly on a corrugated steel floor without the need for stuffing to fill up the grooves between the ridges and without the need for an additional layer to be paved upon the corrugated steel floor.
    In a corrugated steel floor according to the invention the above disadvantages are avoided by having a corrugated steel floor where a distance between the ridges measured from a substantial vertical one side of a groove to a substantial vertical other side of the groove is shorter than or equal to 40 mm.
    Hereby it is achieved that wheels from pallet trucks, pallet jacks, sack trolleys or similar equipment can roll relatively smoothly on a corrugated steel floor without the need for stuffing to fill up the grooves between the ridges.
    According to one aspect of the solution, the grooves of the corrugations are flush with or placed on a door sill, making it possible to effectively emptying the grooves from water, dirt or other residues.
    In another aspect the floor is assembled from a plurality of floor slabs making it possible to build up a floor of elements within the container.
    In another aspect a length of a first side of a floor slab is shorter than a length of a second side of the floor slab, which difference corresponds to a material thickness of the floor slab, making it possible to join two floor slabs with an overlap and still have a level topside of the ridges relative to each other.
    In another aspect, the corrugated floor at the end of the floor points towards the opening for loading and unloading goods to be shipped or stored in the container, the ridges of the corrugations are provided with a ramp, which extends from a ridge to a level corresponding to the grooves.
    This facilitates easy and convenient access to the interior of the container for pallet trucks, pallet jacks, sack trolleys or similar equipment without the need for overcoming a high sharp edge.
    Further is achieved that the ramp enforces the end of the ridges, preventing the corrugation from being flattened due to the weight of equipment loading and unloading the container.
    In another aspect, the floor slabs are coated before placing the slabs in the container.
    In another aspect, the floor slabs are galvanized.
    In another aspect, the floor slabs are coated with a corrosion protected layer
    In another aspect the floor slabs are coated with powder paint.
    In another aspect, the floor slabs are fastened to a number of underlying cross members by fastening screws.
    In another aspect the floor slabs are fastened to a number of underlying cross members by rivets.
    In another aspect, the floor slabs are fastened to a number of underlying cross members by mechanical fastening means such as adhesive, clamping, slot and groove or other suitable positive-fit connections.
    These aspects related to surface treatment of the floor slabs ensure a longer lifetime to the floor slabs.
    The floor slabs can be made from high strength steel. As an example, HTS high tensile steel can be used for manufacturing the floor slabs. When using a steel type with higher strength, the floor slabs can be made of less material thickness and thereby the overall weight for the floor is reduced.
    Further fewer cross members are necessary, which leads to further weight reduction.
    Further embodiments and advantages are disclosed below in the description and in the claims.
    LETTER DESCRIPTION OF THE DRAWINGS
    The invention will now be described more fully below, by way of example only, with reference to the accompanying drawings, in which
    Figure 1 shows schematically a container floor seen from above, inside the container;
    Figure 2 shows schematically a corrugated floor for a container;
    Figure 3 shows schematically a section of a corrugated floor for a container;
    Figure 4 shows schematically a section of a transition between the corrugated floor and a bottom side rail;
    Figure 5 shows schematically a section with a joining of two floor slabs;
    Figure 6 shows schematically a side view of a floor slab joined by a cross beam;
    Figure 7 shows schematically a section of a floor slab seen from an end with a ramp;
    Figure 8 shows schematically the section from figure 7 seen from a side;
    Figure 9 shows schematically the section from figure 7 seen from above;
    Figure 10 shows schematically the section from figures 7 to 9 in a perspective view;
    Figure 11 shows schematically a section of a floor slab placed on a cross member of heavy dimension; spirit
    Figure 12 shows schematically a section of a door sill provided with ramps and a floor slab abutting the door sill and ramps;
    DETAILED DESCRIPTION
    Now convenient embodiments of the invention will be described. A shipping container (not shown) usually comprises a pair of side walls, a rear end, a front end, a roof, a floor 1 and a base frame 2. The base frame 2 comprises two longitudinal bottom side rails 3 and a plurality of parallel bottom cross members 4 on which the floor 1 is resting and to which cross members 4 the floor 1 is secured by fastening means 5. The container is provided with an opening (not shown) for loading and unloading goods to be shipped or stored in the container.
    The steel floor 1 is positioned with corrugations comprising a number of ridges 6 and grooves 7 running towards an opening for loading and unloading goods to be shipped or stored in the container
    The purpose of floor 1 is to support items (not shown) to be shipped within the container and to form a sufficient base for equipment handling the items when loading and unloading the container. Such equipment may, for example, be a pallet truck or a pallet jack (not shown), but common to such equipment is that the equipment, which is most often provided with wheels, is intended to roll on a stable surface within the container.
    When using a corrugated steel floor 1 in a container, which corrugated steel floor 1 comprises a number of ridges 6 and grooves 7, the grooves 7 are usually filled with stuffing making it possible that wheels from pallet trucks, pallet jacks, sack trolleys or similar equipment can roll relatively smoothly on a corrugated steel floor.
    The corrugated steel floor according to the invention is dimensioned in such a way that it is not necessary to make use of stuffing in the grooves 7. This is achieved with a corrugated steel floor 1, where a distance between the ridges 6 measured from a substantial vertical one side 8 of a groove 7 to a substantial vertical other side 9 of the groove is shorter than or equal to 40 mm.
    In an alternative embodiment, the distance between the ridges 6 measured from a substantial vertical one side 8 of a groove 7 to a substantial vertical other side 9 of the groove is shorter than or equal to 35 mm.
    In yet another alternative, the distance between the ridges 6 measured from a substantial vertical one side 8 of a groove 7 to a substantial vertical other side 9 of the groove is shorter than or equal to 32.5 mm.
    Hereby it is achieved that wheels from pallet trucks, pallet jacks, sack trolleys or similar equipment can roll relatively smoothly on a corrugated steel floor 1 without the need for stuffing to fill up the grooves 7 between the ridges 6.
    According to one aspect of the solution, the grooves 7 of the corrugations are flush with or placed on a door sill 14, making it possible to effectively emptying the grooves 7 from water, dirt or other residues.
    In another aspect the floor 1 is assembled from a plurality of floor slabs 10 making it possible to build up a floor 1 of elements within the container.
    In another aspect, the height of a first side 11 of a floor slab 10 is less than the height of a second side 12 of the floor slab 10, which difference corresponds to a material thickness of the floor slab 10, making it possible to join two floor slabs 10 with an overlap and still have a level topside of the ridges 6 relative to each other.
    In another aspect the corrugated floor 1 at the end of the floor pointing towards the opening for loading and unloading goods to be shipped or stored in the container, the ridges 6 of the corrugations are provided with a ramp 13, which ramp 13 inclines from a ridge 6 to a level corresponding to the grooves 7.
    This facilitates easy and convenient access to the interior of the container for pallet trucks, pallet jacks, sack trolleys or similar equipment without the need for overcoming a high sharp edge.
    Further it is achieved that the ramp 13 enforces the end of the ridges 6, preventing the corrugation from being flattened due to the weight of equipment loading and unloading the container.
    In another aspect, the floor slabs 10 are coated before placing the slabs 10 in the container.
    In another aspect, the floor slabs 10 are galvanized.
    In another aspect, the floor slabs 10 are coated with a corrosion protected layer
    In another aspect the floor slabs 10 are coated with powder paint.
    These aspects related to surface treatment of the floor slabs 10 ensure a longer lifetime to the floor slabs 10.
    The floor 1 can be assembled by floor slabs 10 extending over the entire length of the container.
    Floor slabs 10 can also be sized to cover part of the length, but floor slabs 10 extending substantially over the entire length of the container is preferred.
    By assembling the floor 1 by floor slabs 10 fastened by screws, rivets or other mechanical fastening means 5 to the cross members 4, it is possible to provide the floor slabs 10 with a surface treatment which is not damaged by welding as if the floor was welded to the cross members 4. Also damage to cross member surface treatment due to welding is avoided.
    The floor 1 or floor slabs can be fastened to a number of underlying cross members by mechanical fastening means such as adhesive, clamping, slot and groove etc. The slot and groove can be realized by a raised tongue fitting into a slit positioned on a floor slab 10 and to a cross member 4 respectively or a similar positive-fit connection. When floor and cross members are translated relative to each other the tongues are engaged with the slits and a few screws, rivets or other mechanical removable fastening means can hold the floor and secure against relative horizontal movement between floor and cross member while the positive-fit connection prevents relative vertical movement between floor and cross member.
    Further it is easy to replace one or more floor slabs 10 if any part of the floor 1 should be damaged.
    In another aspect of the invention the ramps 13 are secured to the door sill 14 in such a way that one end of the floor slabs 10 can be positioned at the end of the floor 1 pointing towards the opening for loading and unloading goods to be shipped or stored in the container, where the ridges 6 of the corrugations are positioned abutting the ramp 13, which ramp 13 inclines from a ridge 6 to a level corresponding to the grooves 7 and thereby forming a floor, where the ridges 6 of the floor slabs are substantially flush with ridges of the ramps 13.
    In an embodiment the ramps 13 are secured to the door sill 14 by welding. Here the portion of the ramps pointing towards the opening of the container is welded along a majority of the entire length of the ramps, preferably along the entire length.
    On the rear side of the ramps 13 or the side pointing away from the opening of the container, the ramps 13 are welded in spots located behind the tops or ridges 6 of the ramps 13. Thereby the welding seam will not block for positioning the lower part being the grooves 7 of the corrugated floor slabs 10 on the door sill 14 abutting the ramps 13.
    In an alternative embodiment a floor slab 10 of the corrugated floor 1, at the end of the floor 1 pointing towards the opening for loading and unloading goods to be shipped or stored in the container, is provided with ramps 13.Hereby it is easy to see if the floor slab 10 is positioned in the right direction thereby ensuring that the overlap will be placed correctly so that the assembled floor 1 will have the same height and the upper side of the ridges 6 of the floor 1 is level.
    In case it is necessary to have one or more cross beams or cross members 40 of a higher dimension than the rest of the cross members 4, such cross members 40 are positioned with their upper surfaces substantially flush with the rest of the cross members 4 thereby providing plane support for the floor 1 and making it possible for the corrugations to run continuously from one end of the container to the other end of the container.
    In an advantageous embodiment, the cross members 4, 40 or the floor slabs 10 are arranged in such a way that they are slightly sloped in the direction of the opening end of the container to be able to facilitate emptying of the grooves 7 in the corrugated floor. slabs 10.
    At the end of the floor pointing away from the container opening an area in the middle section or full width can be substituted by a plane surface, level with the upper part of the corrugations - the ridges 6 - to make room for reinforcement or other space consuming elements beneath the floor.
    The ends of the corrugations of the floor slabs 10 abutting the plane surface are closed in such a way that water or dirt cannot escape from the grooves 7 through openings. The plane surface can be provided with a substantially vertical or downward slanting edge, forming an end wall in the corrugated floor slab abutting the edge of the plane surface. If the edge is slanting downwards, its profile should correspond to the corrugations of the floor slab 10.
    In both ends of the floor, the floor slabs 10 are provided with blocks and / or sealant, filling out gaps between floor slabs 10 and cross members 4, 40, preventing water from entering from below the floor 1. The sealant can be foam, gum or other suitable material.
    Also sealant between joining the floor slabs 10 prevents water from entering the container from below.
    权利要求:
    Claims (15)
    [1] 1. A corrugated steel floor in a shipping container, which steel floor is positioned with corrugations comprising a number of ridges and grooves running towards an opening for loading and unloading goods to be shipped or stored in the container, characterised in that a distance between the ridges (6) measured from a substantial vertical one side (8) of a groove (7) to a substantial vertical other side (9) of the groove (7) is shorter than or equal to 40 mm.
    [2] 2. A floor according to claim 1, characterised in that a distance between the ridges (6) measured from a substantial vertical one side (8) of a groove (7) to a substantial vertical other side (9) of the groove (7) is shorter than or equal to 35 mm.
    [3] 3. A floor according to claim 1, characterised in that a distance between the ridges (6) measured from a substantial vertical one side (8) of a groove (7) to a substantial vertical other side (9) of the groove (7) is shorter than or equal to 32,5 mm.
    [4] 4. A floor according to claim 1, characterised in that the bottom of the grooves (7) of the corrugations are flush with or placed on a door sill (14).
    [5] 5. A floor according to claim 1, characterised in that the floor (1) is assembled of a plurality of floor slabs (10).
    [6] 6. A floor according to claim 1, characterised in that a height of a first side (11) of a floor slab (10) is less than a height of a second side (12) of the floor slab (10), which difference corresponds to a material thickness of the floor slab (10).
    [7] 7. A floor according to claim 1, characterised in that at an end of the floor (1) pointing towards the opening for loading and unloading goods to be shipped or stored in the container, the ridges (6) of the corrugations are provided with a ramp (13), which ramp (13) inclines from a ridge (6) to a level corresponding to the grooves (7).
    [8] 8. A floor according to claim 1, characterised in that at an end of the floor (1) pointing towards the opening for loading and unloading goods to be shipped or stored in the container, the ridges (6) of the corrugations are positioned abutting a ramp (13), which ramp (13) inclines from a ridge (6) to a level corresponding to the grooves (7).
    [9] 9. A floor according to claim 1, characterised in that the floor slabs (10) are coated before placing the slabs (10) in the container.
    [10] 10. A floor according to claim 1, characterised in that the floor slabs (10) are galvanized.
    [11] 11. A floor according to claim 1, characterised in that the floor slabs (10) are coated with a corrosion protected layer.
    [12] 12. A floor according to claim 1, characterised in that the floor slabs (10) are coated with powder paint.
    [13] 13. A floor according to claim 1, characterised in that the floor slabs (10) are fastened to a number of underlying cross members (4) by fastening screws (5).
    [14] 14. A floor according to claim 1, characterised in that the floor slabs (10) are fastened to a number of underlying cross members (4) by rivets (5).
    [15] 15. A floor according to claim 1, characterised in that the floor slabs (10) are fastened to a number of underlying cross members (4) by mechanical fastening means (5).
    类似技术:
    公开号 | 公开日 | 专利标题
    US10577176B2|2020-03-03|Corrugated steel floor in a shipping container
    KR101288393B1|2013-07-22|A pallet
    US8070004B2|2011-12-06|Container flooring system
    EP2744718B1|2017-02-01|Pallet
    US7556141B2|2009-07-07|Cellular base structure for a reciprocating slat conveyor
    US7815222B2|2010-10-19|Fluid storage tank trailer
    FR2523064A1|1983-09-16|TRUCK BODY COVERING
    US7762588B2|2010-07-27|Fluid storage tank trailer
    RU2007125469A|2009-01-20|PALLET FOR STORAGE AND TRANSPORTATION OF GOODS
    JP2007508211A5|2007-08-02|
    RU2435009C2|2011-11-27|Shelf floor
    US20100013206A1|2010-01-21|Fluid storage tank trailer
    RU2606176C1|2017-01-10|Rail joint and it's method of manufacturing
    US10836576B2|2020-11-17|Storage decks and storage rack assemblies including same
    US7963410B2|2011-06-21|Container floor plate, in particular for a refrigerated container
    US8887896B1|2014-11-18|Liquid tight reciprocating floor construction
    US4982859A|1991-01-08|Base frame structure for containers or load carrying platforms
    NZ620448B2|2016-05-27|Load bearing structure
    同族专利:
    公开号 | 公开日
    DK178486B1|2016-04-11|
    EP3071496A1|2016-09-28|
    CN105916782A|2016-08-31|
    EP3312108A1|2018-04-25|
    US10577176B2|2020-03-03|
    WO2015071255A1|2015-05-21|
    CN107985833A|2018-05-04|
    US20160288992A1|2016-10-06|
    EP3071496B1|2019-02-27|
    CN105916782B|2019-11-05|
    CN107985833B|2020-03-10|
    US20180178975A1|2018-06-28|
    US10099852B2|2018-10-16|
    EP3312108B1|2020-03-11|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DK201370699|2013-11-18|
    DKPA201370699A|DK178486B1|2013-11-18|2013-11-18|Corrugated steel floor in a shipping container|DKPA201370699A| DK178486B1|2013-11-18|2013-11-18|Corrugated steel floor in a shipping container|
    US15/037,255| US10099852B2|2013-11-18|2014-11-11|Corrugated steel floor in a shipping container|
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    PCT/EP2014/074259| WO2015071255A1|2013-11-18|2014-11-11|Corrugated steel floor in a shipping container|
    EP17207051.8A| EP3312108B1|2013-11-18|2014-11-11|Shipping container with a corrugated steel floor|
    CN201711370908.1A| CN107985833B|2013-11-18|2014-11-11|Corrugated steel floor in shipping container|
    US15/903,568| US10577176B2|2013-11-18|2018-02-23|Corrugated steel floor in a shipping container|
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