WO2012103593A1 - An improved container, container construction, handling method and apparatus - Google Patents
An improved container, container construction, handling method and apparatus Download PDFInfo
- Publication number
- WO2012103593A1 WO2012103593A1 PCT/AU2012/000097 AU2012000097W WO2012103593A1 WO 2012103593 A1 WO2012103593 A1 WO 2012103593A1 AU 2012000097 W AU2012000097 W AU 2012000097W WO 2012103593 A1 WO2012103593 A1 WO 2012103593A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- container
- lid
- lifting
- corner
- formation
- Prior art date
Links
- 238000000034 method Methods 0.000 title claims abstract description 22
- 238000010276 construction Methods 0.000 title description 4
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- 239000010959 steel Substances 0.000 description 4
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D88/00—Large containers
- B65D88/02—Large containers rigid
- B65D88/12—Large containers rigid specially adapted for transport
- B65D88/122—Large containers rigid specially adapted for transport with access from above
- B65D88/124—Large containers rigid specially adapted for transport with access from above closable top
- B65D88/126—Large containers rigid specially adapted for transport with access from above closable top by rigid element, e.g. lid
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D90/00—Component parts, details or accessories for large containers
- B65D90/0006—Coupling devices between containers, e.g. ISO-containers
- B65D90/0013—Twist lock
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66C—CRANES; LOAD-ENGAGING ELEMENTS OR DEVICES FOR CRANES, CAPSTANS, WINCHES, OR TACKLES
- B66C1/00—Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith for transmitting lifting forces to articles or groups of articles
- B66C1/10—Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith for transmitting lifting forces to articles or groups of articles by mechanical means
- B66C1/22—Rigid members, e.g. L-shaped members, with parts engaging the under surface of the loads; Crane hooks
- B66C1/223—Rigid members, e.g. L-shaped members, with parts engaging the under surface of the loads; Crane hooks for containers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66C—CRANES; LOAD-ENGAGING ELEMENTS OR DEVICES FOR CRANES, CAPSTANS, WINCHES, OR TACKLES
- B66C1/00—Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith for transmitting lifting forces to articles or groups of articles
- B66C1/10—Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith for transmitting lifting forces to articles or groups of articles by mechanical means
- B66C1/62—Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith for transmitting lifting forces to articles or groups of articles by mechanical means comprising article-engaging members of a shape complementary to that of the articles to be handled
- B66C1/66—Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith for transmitting lifting forces to articles or groups of articles by mechanical means comprising article-engaging members of a shape complementary to that of the articles to be handled for engaging holes, recesses, or abutments on articles specially provided for facilitating handling thereof
- B66C1/663—Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith for transmitting lifting forces to articles or groups of articles by mechanical means comprising article-engaging members of a shape complementary to that of the articles to be handled for engaging holes, recesses, or abutments on articles specially provided for facilitating handling thereof for containers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66C—CRANES; LOAD-ENGAGING ELEMENTS OR DEVICES FOR CRANES, CAPSTANS, WINCHES, OR TACKLES
- B66C13/00—Other constructional features or details
- B66C13/04—Auxiliary devices for controlling movements of suspended loads, or preventing cable slack
- B66C13/08—Auxiliary devices for controlling movements of suspended loads, or preventing cable slack for depositing loads in desired attitudes or positions
Definitions
- the present invention relates in general to containers and container
- constructions having ISO fittings for lifting and handling more particularly to containers for bulk materials, especially containers that have reinforced side walls, wherein the contents are discharged by tipping or rotating the container.
- the present invention also relates to containers of the open top kind for the handling and transport of bulk materials.
- These containers may be full height or half height, and in particular to lids, lid systems and lifting systems for engagement of those lids, which lid lifting systems can be mounted on to tippler or container rotators, or mounted on lifting devices adapted to lift said containers and or lids.
- Containers for materials such as liquids, ores, minerals, sand, powders, waste, or grains such as wheat are available. These can be handled by machines called tipplers, whereby the containers can be pivoted or tipped to discharge their contents.
- An issue with containers for bulk ore or liquid materials is that the container content creates a load on the container side walls, and can cause deflections in the side walls.
- the walls of the container have been reinforced by cross braces as in PCT/GB2010/000122 or by top braces as in W09513233.
- Open containers have manually closed by lids which have fork tyne receptors on the lid, to enable a fork lift to place a lid onto or move a lid from a container.
- the lids are used during the transport phase to protect the bulk material from the weather and to prevent the action of wind from forming dust from the bulk material during transport.
- a fork lift will move the lid off the container and then the container will be delivered to a tipping or tippler device which will engage the container and lift and rotate the container to discharge the contents of the container into a desired location.
- This tipping process can require the container to be rotated 80 degrees to discharge the bulk product by the tippler.
- Such tipplers are generally attached to ships cranes or ship to shore cranes or shore cranes or mobile habour cranes and the container can rotated and discharged directly in the hull of the bulk container of ocean going vessels.
- Current practice is that these lids are manually locked in place by ground personnel and removed using a fork lift. The container is then lifted and emptied into the ship.
- the present invention also provides a container for transporting material said container having ISO corner fittings, characterised in that said corner assembly or fittings are formed from a generally box like structure as a main body, and at least one gusset formation extending there from. There can be included a plurality of gusset formations.
- the present invention also provides a corner reinforcing arrangement formed from a body such as an ISO comer fitting and a post, and at least one gusset formation extending therefrom, or a multiple number of gusset formations extending therefrom.
- the gusset formation can includes one or both of the following: a face angled to the horizontal plane; a face angled to the vertical plane.
- the corner reinforcing arrangement can be such that the at least one gusset formation has a three-dimensional shape.
- the corner reinforcing arrangement can be such that the gusset formation of a generally triangular configuration.
- the corner reinforcing arrangement can be such that a part of the periphery of the gusset formation is welded to the corner or post, with another part being welded to a lateral or longitudinal beam of said container.
- the corner reinforcing arrangement can be such that the gusset formation extends inwardly from the corner or post and laterally of a longitudinal axis of the container or parallel thereto.
- the gusset formation can be formed from an outboard triangular plate and an inboard plate having a triangular or trapezoidal shape, said outboard and inboard plates being connected by a rectangular plate.
- the present invention also provides a container having corner reinforcing arrangement as described in the preceding paragraphs.
- the container can have four upper corners being formed by such a corner reinforcing arrangement.
- the lower corners of the container can include generally triangular shaped gusset formations between lower comers and beams or rails of said container.
- the forward and rearward ends of said container can include an upper beam which extends between respective corner posts and or comers, said upper beam having an inboard edge or side which is internally offset from the posts and or corners.
- the forward and rearward ends of said container can include a lower beam which extends between respective corner posts and or comers, said lower beam having an inboard edge or side which is internally offset from the posts and or corners.
- the inboard edge or side lower beam can be internally offset by a greater distance than the inboard edge or side of said upper beam.
- the present invention provides a lid having a cover portion which is sized and shaped to be received onto said open container so as to cover, at least substantially, an opening at the top of the container, the cover portion including at, at least one location thereon, at least one aperture formation into which can be received a lifting member, which is located on the end of a lifting cable or lifting frame, for releasably locking said cable or said frame to the lid.
- a plurality of aperture formations can be located on the lid, the aperture formations can be one of the following: formed separate and attached to the lid; formed integrally in the lid; or are apertures formed in the lid.
- the aperture formations can be ISO-fittings or fittings which comply with ISO standards.
- the lid can be manufactured from sheet metal, steel, plastic or composite material.
- the aperture formation(s) can cooperate with a locking mechanism, the locking mechanism locking the lid to the container.
- the aperture may also be only for lifting, and locking and unlocking is maintained as a manual process.
- the aperture formation(s) can receive the lift member or rotating or twist locking member which causes the lid to be unlocked from the container.
- the aperture formation can be associated with a lever means which will, when rotated, cause a lock which engages said container to be released.
- the lid can include centrally or peripherally located apertured receiving formations.
- the lever means can rotate about a generally vertical axis.
- the lever means can rotate about a generally horizontal axis
- the lever means can be biased to a lock condition by means of one or a combination of two or more of the following: gravity, a spring bias, a portion spring, tension spring, a compression spring.
- the lifting member on a lid lifting device in moving to disengage from said receiving formations on said lid, can cause said locks to move to a locked condition so that once the lift members are able to separate from the receiving formations the lid is locked to a container or said locks are in a locked condition.
- the apertured or receiving formations receive a respective lift member in a vertical direction.
- the engagement of a respective lid lift member to said apertured formation(s) will operate by one of the following: (a) simultaneously lock the lid lift member to the respective apertured formation and unlock the lid from the container; (b) sequentially unlock the lid from the container and then lock the lid lift member to the respective apertured formation; (c) sequentially lock the lid lift member to the respective apertured formation then unlock the lid from the container.
- the present invention also provides a lifting device for lifting a container, the device including means to engage fittings at the corners of a container to be lifted, the device, including a second lifting means which operates to releasably engage a lid associated with the container.
- the lifting device can be associated with or is formed as part of a lifting vehicle such as a crane or can be connected to a crane or material handling equipment.
- the device can also be adapted to rotate the container to discharge its contents.
- the second lifting means can lift the lid out of the path of the container rotation.
- the second lifting means can be operable independently of the lifting of the container, so that the lid can be lifted from the container, while the container is being moved, or before the container is being moved, or to allow the container to be deposited after being transported with the lid remaining on the device.
- the second lifting device can include a lifting member which has a rotating or twisting locking member to engage an aperture formation on the lid, so a to lock the second lifting means to the lid.
- the lifting member or rotating or twisting locking member also releases a lock which locks the lid to the container
- the second lifting means can have a multiple of the lift members or rotating or twist locking members to engage a like multiple of the aperture formations on the lid.
- the present invention further provides a method of handling an open container which has a lid to covers an opening of the container, the method including the steps of providing a lifting device as described above, wherein the lifting device is controlled so as to lift the container and the lid or lift the container and lift the lid from the container; or to lift just the lid from the container.
- Lifting the container and the lid, or lifting the container and lifting the lid from the container can be performed sequentially or simultaneously.
- the method can include the step of rotating the container to discharge the contents of the container.
- the lid Prior to rotating the container, the lid is lifted off the container and transported to a location relative to the container without a rotation envelope of the container.
- the lid can include centrally located twist lock receiving formations.
- One or more locking bars radiate from said receiving formations to lock said lid relative to said container.
- the action of twist locks on a lid lifting device in moving to disengage from said receiving formations on said lid, will cause said locks to move to a locked conditions so that once the twist locks are able to separate form said receiving formations said lid is locked to a container or said locks are in a locked condition.
- the present invention provides a container for transporting bulk materials, said container having ISO fittings at spaced locations thereon for the lifting and or handling of said container, said container including a support structure interconnecting a first wall and another wall or surface, the structure having a first apex or corner which connects with the first wall, a second apex or corner which connects with a floor of the container, and an apex or third corner.
- the third corner or apex can connect with the opposing wall, the first and third corners or apexes being located at about the same distance from the floor.
- the second corner or apex can also connect with the first wall, and the third corner or apex can connect with the floor of the container.
- the container can include a second support structure having a first corner or apex can connect with the opposing wall, a second corner or apex can connect with the floor of the container, and a third corner or apex can also connect with the floor of the container.
- the second corner or apex of the first support structure and the second corner or apex of the second support structure can overlap with each other and can be located near a midpoint of the floor of the container.
- the second corner or apex of the first triangular structure and the second corner or apex of the second triangular structure can be located on opposite sides of a longitudinal centreline of the floor of the container.
- a top edge of the support structure there can be defined a top edge of the support structure, there being a clearance or space between a top edge of the container and at least a portion of the top edge of the support structure.
- the clearance or space is provided along a central portion of the top edge of the support structure.
- the support structure can include a plate having said first, second, and third corners or apexes.
- the plate can have at least one hollowed out section.
- the three corners or apexes can be formed by three members of the support structure, with a first member extending at least between said first and second corners or apexes, a second member extending at least between the second and third corners or apexes, and a third member extending at least between the first and third corners or apexes.
- the member extending between the first and third corners is a top member, the member extending between the first and second corner and the member extending between the second and the third corners are side members. [070]
- the top member can be located between intermediate portions of the side members.
- the top member can extend between the first wall and the opposing wall.
- Each member can be formed from a tensile member such as a cable or a chain, which can also include a means of tensioning, such as a turnbuckle.
- the support structure can also include a gusset located between any two of the three members.
- the support structure can be joined directly to the container.
- the support structure can be attached to mounting plates which are joined to the container.
- the support structure can be welded pinned or bolted to the container.
- Figure 1 is a sectional view of a container midsection with an internal brace
- Figure 1A is a partial perspective view showing a container and one internal brace for the container;
- Figure 2 is a sectional view of a midsection of a container within another internal brace
- Figure 3 is a sectional view of a midsection of a container within a further internal brace
- Figure 4 is a sectional view of a midsection of a container within a further internal brace
- Figure 5 is a sectional view of a midsection of a container within a further internal brace
- Figure 6 is a sectional view of a midsection of a container within a further internal brace
- Figure 7 is a sectional view of a midsection of a container within a further internal brace
- Figure 8 is a sectional view of a midsection of a container within a further internal brace
- Figure 9 is a sectional view of a midsection of a container within a further internal brace
- Figure 10 is a sectional view of a midsection of a container within a further internal brace
- Figure 11 is a sectional view of a midsection of a container within a further internal brace
- Figure 12 is a sectional view of a midsection of a container within a further internal brace
- Figure 13 illustrates a perspective view of ISO corner fitting reinforcement
- Figure 14 illustrates a plan view of a container having reinforcements such as in figure 13, and side wall reinforcements near the centre located support;
- Figure 15 is a front view of the container of figure 14;
- Figure 16 is an upper front side perspective view of another container
- Figure 17 is a perspective view of the container of figure 16;
- Figure 18 is an underneath perspective view of a lid for use with container of figure 16
- Figure 19 illustrates an upper perspective view of the lid of figure 18
- Figure 20 illustrates a perspective view of the lid of figures 18 and 19 showing hidden details
- Figure 21 illustrates a perspective view of the Id of figures 18 to 20, in place on a container with the upper sheeting removed;
- Figure 22 illustrates plan view of a gusset formation as used with the container of figures 16 and 17;
- Figure 23 illustrates an outside, side view of the gusset formation of figure 22 in the direction of arrow marked view A;
- Figure 24 illustrates an inside, side view of the gusset formation of figure 22 in the direction of arrow marked view B;
- Figure 25 illustrates a cross sectional view of the gusset formation of figure 22,
- Figure 26 is a side perspective view of a gusset formation for use with the container of figures 16 and 17;
- Figure 27 is rear front side perspective of the gusset formation of figure 30; and [0106] Figure 28 is a rear front view of the lower gusset formations of figures 16 to 29,
- Figure 29 is a side view of the gusset formation of figure 13;
- Figure 30 is an upper side perspective view of the gusset formation of figures 22 to 25;
- Figure 31 illustrates a front view of the container of figures 16 and 17 in an upside down condition in a tippler apparatus
- Figure 32 illustrates a detailed perspective view of a lower corner of the container of figures 16 and 17;
- Figure 33 illustrates a detailed perspective view of the locking and unlocking mechanism of the lid of figures 18 to 21;
- Figure 34 is front elevation of an open container with a lid
- Figure 35 is a plan view of the container and lid of figure 34;
- Figure 36 is a side cross section of the container and lid of figure 34;
- Figure 37 illustrates the cross section of figure 36 in more detail showing a mechanism to release a lock which locks the lid to the container by the insertion of a twist lock;
- Figure 38 illustrates a side portion of figure 37 in more detail
- Figure 39 illustrates a plan view of the features of figure 38
- Figure 39A is similar to figure 39 with the casting and striker plate rotated so striker plate is not in engagement with a latch;
- Figure 40 illustrates a schematic cross section through a lid a lock means as an alternative to the locks of figures 37 to 39;
- Figure 41 illustrates a front elevation of a container and lid in a combined tippler and lid lifter showing a lid lifting stage
- Figure 42 is similar to that of figure 41 with the lid lifter out of the rotation envelope of the container with the container having been rotated through 90 degrees;
- Figure 43 is similar to figure 42 with the container rotated through 180 degrees;
- Figures 44 to 47 are side views of the stages of figures 41 to 43;
- Figures 48 to 51 show the stages of the lid lifter engaging aperture formations on the lid and then lifting the lid;
- Figure 52 shows figure 42 in more detail
- Figure 53 shows figure 48 in more detail;
- Figure 54 illustrates an alternative lid locking and lifting mechanism;
- Figure 55 illustrates the lid locking and lifting mechanism of figure 54, shown in an unlocked condition
- Figure 56 illustrates the mechanism of figures 54 and 55 where the lid is lifted while the lock is open.
- Figures 1 and 1A depict a container 100 with internal bracing, in this view, two opposing walls 102, 104, and bottom 106 are visible.
- the support structure or internal brace 110 made up of integrally formed members 110.1 , 110.2, and 110.3 reinforces the side walls 102 and 104, to assist them in resisting deformation when a bulk material is weighing down on a single side wall during a tipping operation.
- the brace 110 forms a triangular shape, having a first apex or corner 112 which is connected to side wall 102 via an apertured mounting plate 102.1 which is welded to the side wall 102 at the square hollow section top rail thereof, which is illustrated in cross section in figure 1 ; a second apex or corner 116 which is connected to the container floor 106 via an apertured mounting plate 106.1 which is welded to the floor 106; and a third apex or corner 114 which is connected to the opposing wall 104 via an apertured mounting plate 104.1 which is welded to the side wall 104 at the square hollows section top rail thereof, which is illustrated in cross section in figure 1.
- ISO fittings 100.1 are provided at the container's four top corners 100.2, allowing for the manoeuvring and handling, such as lifting, of the container 100 by e.g. a crane.
- the container 100 is therefore compliant with ISO specifications.
- Figure 1A shows a container with see-through sides to illustrate the location and arrangement of the brace 110 which is provided to support the longitudinal walls 102 and 104.
- the internal brace 110 can be attached by bolts or pins to the mounting plates
- brace 102.1 , 106.1 and 104.1 can alternatively be welded thereto or welded directly to the sidewalls 102, 104 and the floor 106.
- the brace 10 can be attached to gusset plates which are themselves attached by pins or bolts to the container 100.
- the brace 110 can be one piece as illustrated in figure 1 , or can be made up of a multiple of members joined together via methods such as welding or bolting. This is able to be done as the braces members 110.1, 110.2, and 110.3 act predominantly in tension, particularly during tippler rotation processes.
- the internal brace can be a triangular plate 210 bound approximately by the three apexes 212, 214, and 216.
- the internal brace 310 can have a hollowed out section
- the rim area 322 around the hollowed out section 320 provides for the transmission and bearing of forces.
- the top portion of the internal brace 410 can be recessed, for example it can be scalloped out, so that the brace 410 has a recessed top 425.
- the recessed top 425 is partially recessed with respect to the top of the container 400.
- it can alternatively be wholly recessed with respect to the top of the container (e.g. see Figure 8).
- the corners 412 and 414 of brace 410 in this embodiment are located at approximately the same level as the top of the container 400.
- the internal brace 510 can comprise three separate members 505, 515, and 525.
- Side member 505 connects between one side wall 502 to the floor 506, opposing side member 515 connects the opposite side wall 504 to the floor 506, and the top member 525 connects the opposing side members 505 and 515.
- Each of the individual members 505, 515, and 525 can substantially extend between two of the brace's three corners 512, 514, and 516.
- apertured mounting plates can be provided at each of the three apexes 512, 514, and 516, and each member can have end openings which align with the apertures. Screws, bolts, pins, or rivets can be used to secure them together.
- the members 505, 515, and 525 can alternatively be welded together at each of the three apex locations 512, 514, and 516.
- the internal brace 510 forms a triangle, and provides more stability to the container 500 than a V-shaped brace having only the opposing side members 505 and 515.
- the top member 525 helps stabilise the side members 505 and 515 by limiting their movement with respect to each other. In the orientation shown in Figure 5, the horizontal movement of the side members 505, 515 is limited.
- an internal brace 610 with three members 605, 615, 625 as described above can also be recessed at its upper location.
- the top member 625 can extend from an intermediate portion 630 along the side member 605 to a corresponding intermediate portion 635 along the opposing side member 615.
- the side members can have mounting plates 625.1 and 625.2 at these intermediate portions 630 and 635, and the top member 625 can be attached between these mounting plates.
- the lower height of the top member 625 provides extra clearance between the top of the container 600 and the top of the internal brace 610 to assist in providing greater clearance for front end loaders.
- the top member 725 can be welded or bolted directly to the side members 705 and 715 at an intermediate height along the side members 705 and 715.
- the side members 705 and 715 therefore each extend from the floor mounting plate 716 to beyond the top corners 712 and 714, to connect with the sidewalls 702 and 704.
- the jointing between the intemal brace and the container, or the jointing between individual brace members in embodiments where the internal brace is not one piece, can be permanent or temporary.
- the temporary jointing can be achieved using removable screws, bolts, or pins.
- Gussets or attachment plates can be provided at the connection points and mounting plates for the purpose of attaching the internal brace to the side walls or the container floor. These gussets can be joined to the container by temporary or permanent jointing techniques of bolting, welding, and the like.
- the horizontal top member 825 passes horizontally through the top corners 812 and 814, and provides connection between the side walls 802 and 804.
- Side members 805 and 815 of the internal brace 810 each extend from the container floor mounting plate 816 to spaced intermediate portions of the top member 825.
- the internal brace 810 is has a substantially triangular configuration.
- the side members 905 and 915 of the internal brace 910 each connect between the container floor attachment 916 to one end of the horizontal top member 925 of the internal brace 910.
- the internal brace can be formed of a single piece such as a solid plate or a plate with one or more hollowed out sections.
- the plate or the individual members which form the internal brace can further be made of separate elements which improve the structural rigidity of the internal brace.
- the internal brace can also be made of individual tensile sections such as cables or chains, which can include a means for adjustment such as a turnbuckle, or the struts of the brace can be large turnbuckles, which will allow for ready and easy replacement if damaged. Each section can be replaced or adjusted as appropriate.
- the internal brace includes more than one triangular structure.
- the internal brace 1010 includes a first structure 1020 and a second structure 1030.
- the first part 1020 has a side edge 1022 located against or adjacent sidewall 1002.
- the side edge 1022 extends between two corners 1024 and 1026 of the first structure 1020.
- the first part 1020 is jointed to mounting plates at the corners 1024 and 1026, and the mounting plates are in turn attached to the sidewall 1002.
- the second part 1030 has a side edge 1032 located against or adjacent sidewall
- the first and second parts 1020 and 1030 respectively have a bottom edge 1028 and 1038 which are generally close to and/or parallel to the container floor 1006.
- the bottom edges 1028 and 1038 can overlap each other, so that their inner ends overlap and are joined to a single floor mounting plate 1016.
- the floor mounting plate 1016 can be welded to the floor 1006.
- the first and second parts 1020 and 1030 each have a hollowed out section to reduce weight.
- the first and second parts 1120 and 1130 can be solid plates with or without hollowed out sections. Alternatively, instead of being solid or hollowed out plates the parts in the internal brace 1010 or 1110 can be individual or welded together members.
- FIG. 12 depicts another bracing method.
- the internal brace 1210 has two triangular parts 1220 and 1230 which are fully welded to the container 1200.
- the side edge 1222 of triangular part 1220 is welded to sidewall 1202, and the side edge 1232 of triangular part 1230 is welded to the opposite sidewall 1204.
- the bottom edges 1228 and 1238 of the parts are both welded to the container floor 1206.
- the bottom edges can terminate without overlapping, similar to the embodiment depicted in Figure 11.
- the bracing 1210, in particular parts 1220 and 1230 can additionally or alternatively, be positioned at locations other than the middle of the container and internal of the container. That is, they can be located externally adjacent the end walls or internally adjacent the end walls.
- the container can be such that the required side wall mounting plates such as plate 102.1 and 104.1 of figure 1 (or those connecting to corners 1036 and 1026 in figures 10 and 11) are located on sidewall reinforcing posts 133 welded to the sidewalls 102 and 104. These provide extra reinforcement. Further reinforcement can be provided by welding additional posts such as 133.1 to side walls 102 and 104 on either side of the post 133, as also illustrate din figures 14 and 15.
- the posts 133 and 133.1 are preferably rectangular hollow section members (RHS) welded into place.
- RHS rectangular hollow section members
- braces 110 as described above assist to also reinforce and strengthen the floor of the container, because of the location of a brace connection with the floor in an intermediate region or near there. If desired, under the floor in the region of the mounting plate for the brace, there can be provided a reinforcement, similar to the RHS post of figure 14 and 15, so as to provide event greater resistance to deflection.
- apertured mounting plates are indicated by the numerals X02.1 , X06.1 and X04.1 where the X represents the figure number.
- mounting plates are indicated at one or more apex of the support structure.
- FIGs 16, 17 and 21 are various views of a container 1100 which has tapered long side walls 104 and 102 as well as tapered end walls 104.1 and 102.1.
- the tapering of these walls is best viewed in figure 16 where a taper of approximately 1 to 5 degrees to the vertical, and most preferably 2 degrees, is visible with respect to the vertical on these four walls. This taper will assist this container, when being rotated through 180 degrees as illustrated in figure 31 , to disgorge all its contents more readily than if such walls were not tapered.
- These tapers also serve another function as will be described in more detail below.
- the corners 100.2 are each reinforced by angled corner gussets 100.31.
- the angled corner gusset formations 100.31 of figure 13 is shown in rear view in figure 24, where there is illustrated the rear face of the gusset formation, being that face which will engage the post or corner of the container. It can be seen that the gusset formation 100.31 has three sides, being two generally triangular sides comprising a large outboard triangular side 100.315 and a smaller inboard triangular side 100.316, and a joining side 100.317 which is angled to both the horizontal and vertical planes.
- This gusset formation can be formed by fabrication and welding of three appropriately shaped sides or by cutting at appropriate angles, a square or rectangular hollow section and bending the sides to the appropriate shape or alternatively they can be formed from a flat sheet metal piece, and bent into the shape required.
- the outside of the corner construction can have reinforcing in the form of welded flat plates 100.32 and 100.33 which are welded onto the outside of the container on the top rail of the side 102 as illustrated in figure 13, and also along the top rail of the shorter side of the container.
- the plate 100.33 is a generally square plate and is welded to the corner post below the ISO comer fitting 100.2, while the plate 100.32 is a generally rectangular plate which is welded to the top rail of the sides.
- ISO corner fitting reinforcements can assist in the fittings bearing the rotational loads which may be applied to them during tippler and discharge operations. While the ISO corner fitting reinforcements described above are welded structures, it is also possible to cast the ISO corner fittings together with these reinforcements so that an integrally formed corner and reinforcement is provided.
- the upper corners 100.2 of the container have ISO fittings.
- the gusset formation 100.31 can be formed by one of several methods and can be like that illustrated in greater detail in figures 26 and 27, or figures 22 to 25 and 30.
- the gusset formation 100.31 can have a generally triangular shape, with a long sloping edge 100.311 on an outboard triangular side 100.313 and a short sloping edge 100.312 on an inboard side 100.314.
- the short sloping edge 100.312 is on a trapezoid shaped component, whereas in the case of figures 26 and 27, short sloping edge 100.312 is on a triangular shaped component.
- the edge 100.312, and the surface of the gusset formation associated therewith, terminates at the upper surface of end beam 104.3.
- the long edge 100.311 terminates along the front face 104.31 of beam 104.3 and extends down to the base of the face 104.31.
- the generally triangular shape of the gusset formation 100.31 is welded where the shape of this gusset formation intersects with the beam 104.3 and the corner 100.2 and the post 200.
- the gusset formation 100.31 has at its rear side a generally U-shaped configuration, where the leg of the U-shape which corresponds to the triangular side 100.313 is greater in length than the triangular side 100.314.
- the inwardly extending gusset formations 100.31 of figures 16 to 31 are located at each of the four upper corners 100.2 and it will be noted that these extend inwardly along the line of the upper rim of the sides 104.1 and 102.1.
- the gusset formation 100.31 could be generally described as having a generally triangular shape with a portion having been truncated therefrom so as to form the shorter edge 100.312 to accommodate the beam 104.3.
- the gusset formation 100.31 is preferably formed from sections of shaped or bent steel which have been appropriately cut so as to be able to provide a weld location.
- the lower corners 100.21 and 100.22 each have two regular triangular or prism like gusset formation 100.40, 100.41.
- the gusset formation 100.40 extends laterally (relative to the longitudinal axis of the container) along the face of the end and is welded to the lower beam 104.32. Whereas the gusset formations 100.41 extend longitudinally from the lower comers 100.21 towards the opposite end of the container along the longitudinal side.
- the gusset formations 100.40 and 100.41 are illustrated in a rear perspective view in figure 28 and they have a generally U-shaped configuration from the rear, where the legs of the U are of approximately equal length.
- the gusset formations 100.40, 100.41 are formed of two triangular sides and a rectangular joining piece. These can be formed by fabrication or by cutting at appropriate angles, a square or rectangular hollow section or alternatively they can be formed from a flat sheet metal piece, and bent into the shape required.
- FIG. 22 to 25 and 30 Illustrated in Figures 22 to 25 and 30, is an example of a gusset formation as used on the corners of the container 1100 of figures 16 and 17.
- the gusset formation 100.31 is formed from a triangular outboard side 100.313, which is cut from steel plate having a thickness of approximately 20 mm, and is welded to the inboard side of corner 100.2 and post 200, also to the front surface of beam 104.3, and to the cross piece 100.111.
- the inboard side plate 100.314 is also made from steel plate of approximately 20 mm in thickness and has a generally trapezoid shape and is welded to the top of beam 104.3, cross pieces 100.111 and the sides of corner 100.2 and post 200.
- the structure 31.333 of the tippler which engages the corners 100.2 to the container 1100, as illustrated in figure 31, will not be contacted by the contents of the container as these contents fall out of the container.
- the gussets extend along the end rails laterally of the longitudinal axis, the contents which pour over the longitudinal rails, will not fall onto the corner castings, gussets or fitting, thus ensuring all contents get delivered and not inadvertently caught up or lodged onto the container or the tippler structure.
- the tippler apparatus is described in more detail herein.
- the inboard edge or surface of the lower beam 104.4 is located a further distance from the corner 100.2 or post 200 by a greater distance than is the inboard edge or surface of the upper beam 104.3. This difference in distance of extension into the confines of the container, provides the 2 degrees of taper on the end walls 104.1 and 102.1 , as is evidenced by the tapered structure of the vertical ribs on the front end 102.1 in figure 16.
- FIGS. 18 to 21 Illustrated in figures 18 to 21 , are various views of a lid 400 for use with the container 1100 of figures 16 and 17.
- the lid 400 includes two centre located lock formations 401 , into which can be received lift members, such as lifting hooks or the twist lock mechanisms, associated with the lid lifting means on a tippler, as described below.
- the formations 401 include a housing 401.1 in which is rotatably located a plate 407 which will receive in an obround aperture 408 the twist lock members of a lid lifter.
- three locations on the rotatable plate 407 have a pin connection 409 to respective pivoting links 409.1 which in turn are pivotally connected to locking rods 402 by pins 409.2.
- the rods 402 radiate out from the formations 401 to engage apertured locking plates 403 on the end and side rims of the container at respective ends of the container as is illustrated in figures 16 and 21.
- the lid lifting device will rotate the twist lock in a first direction thereby moving the locking rods 402 to an unlocked condition, and because the twist locks have engaged formation 401, the lid is unlocked and can be lifted off the container.
- rotation in a direction to disengage the twist locks from the formations 401 will cause the lock rods to move to a locked condition on the container, whereby the lid is locked onto the container and the lid lifting device can move to the next container.
- the lid 400 includes lateral beams 405 through which the longitudinally oriented lock rods 402 pass in the forward and rearward directions.
- the lateral beams 405 help support the sheet metal (removed for purpose of illustration in figure 21) of the lid 400.
- Additional lockdown locks 406 can also be provided so that after the container is filled, the lid 400 can be secured by padlocks or the like, to prevent unauthorised access to the container or unlocking of the lid 400 from the container. Further, such lockdown locks 406 also provide a manually operated lid securing system if needed. Also as the lockdown locks 406 are operated from the side of the container which does not require operators to climb on top of the lid.
- the upper corners 100.2 can have directly below them, on the containers long sides, an L-shaped flat reinforcing plate (similar to plate 100.32 of Figure 13) with the L-shaped reinforcing plate 100.321 helping to brace, by means of a relatively low profile the upper beam to the post and corner of the container.
- an L-shaped flat reinforcing plate similar to plate 100.32 of Figure 13
- the L-shaped reinforcing plate 100.321 helping to brace, by means of a relatively low profile the upper beam to the post and corner of the container.
- FIG. 34 to 36 Illustrated in figures 34 to 36 is an open container 13.12 having four ISO fittings at its upper corners allowing the container to be lifted by a crane which will have similarly located twist locks so as to lock onto the container 13.10.
- a lid 13.20 which has two lifting systems thereon.
- the first are two lateral channels 13.24 into which tynes of a fork lift can be received so as to lift or position the lid 13.20, if required.
- the second system is four spaced aperture formations 13.26 attached to the lid
- the aperture formations are located close to the tyne channels 13.24.
- the aperture formations 13.26 are generally box shaped like an ISO fitting and have an obround aperture 13.27 in them as is illustrated in Figure 35.
- the lid 13.20 substantially covers the opening of the container 13.10, as can be seen at the corners a small opening is apparent and this opening allows for ventilation as well as an observation hole through which handlers can check the contents of the closed container 13.10.
- the lock arrangement has a rotating striker plate 13.36 which is attached to or integrally formed with a casting 13.30 located in the aperture formation 13.24.
- a twist lock 13.40 mounted on a lifting means, can enter through the obround aperture 13.27.
- the casting 13.30 which has a longitudinal axis like the twist lock 13.40 and the obround hole 13.27, all longitudinal axes being oriented in the same orientation, that is parallel to the longitudinal axis of the container, then the twist lock 13.40 can be inserted through the hole 13.27 and into casting 13.30.
- the striker plate 13.36 would be in the locked conditions of figure 39 and figure 38.
- twist lock 13.40 By the twist lock 13.40 being rotated 90 degrees, in a clock wise direction relative to figure 39, as seen in figure 39A, the striker plate 13.36 will rotate through 90 degrees as well as the casting 13.30.
- the twist lock can be rotated through 90 degrees by hydraulic or other means, or could be rotated by semi-automatic twist lock mechanisms which rotate by themselves when forced to engage obround apertures in ISO fittings.
- the casting 13.30 can be provided, as illustrated in figures 38, 39 and 39A, with biased pin 13.32 which is mounted for movement with the casting 13.30.
- the biased pin 13.32 engages a side offset pin 13.34, which is able to pass through a hole in a stationary lock member 13.37 which is attached to the inside of the aperture formation 13.26.
- the upper portion of pin 13.32 will protrude into the cavity of the casting 13.30.
- the side pin 13.34 is also located in the hole in the stationary lock member 13.37, which will prevent accidental rotation of the striker plate 13.36 during transport or due to vibration.
- the pin 13.32 is moved against its bias, in this case a spring, and the side pin 13.34 is simultaneously moved out of engagement with the hole in the lock member 13.37.
- the pin 13.32, the casting 13.30 and striker plate 13.36 are all free to rotate when the twist lock 13.40 is rotated to its locked condition.
- the lid 13.20 is also simultaneously unlocked from the container 13.10.
- an aperture formation 13.26 is provided on the lid 13.20, with an aperture 13.27 in the top of the formation 13.26, and an aperture 13.27A in the under surface of the formation 13.26.
- a semi-auto twist lock 13.41 is positioned or welded a semi-auto twist lock 13.41 , so that with the twist lock 13.41 and obround hole 13.27A have their longitudinal axes aligned, the downward motion of the lid 13.20, relative to the container 13.10, will mean that the lid 13.20 will be automatically locked to the container 13.10 because the twist lock 13.41 will have rotated to the locked condition.
- Inside the formation 13.26 is dual sided casting 13.31 , with the upper twist lock receiver being at approx 90 degrees to the lower twist lock receiver.
- the upper casting When the lid is positioned onto the container, the upper casting will be forced to rotate to release the twist lock 13.40, due to the force provided by the twist lock 13.41 rotating the lower portion of the casting 13.31.
- the twist lock 13.40 is rotated to the release position. And as soon as the twist lock 13.40 reengages the upper portion of casting 13.31, and is rotated to the locked condition the lower portion of casting 13.31 will rotate twist lock 13.41 to the unlocked condition allowing the lid 13.20 to be lifted from the container 13.10.
- FIG. 48 to 51 and 53 Illustrated in figures 48 to 51 and 53 is the container 13.10 and lid 13.20 described above with the twist locks 13.40 being mounted on a lid lifting mechanism which is in turn mounted to or constructed to be a part of a container lifting means 13.200.
- the outer ends of the container lifter 13.200 has twist locks 13.90 located in a downwardly extending condition so as to engage the obround holes in ISO fittings 13.12 on the upper corners of the container 13.10, as described above.
- the twist locks 13.40 are located on a single lifting platen 13.101 , which is translated relative to the frame of the container lifter 13.200 by means of hydraulic cylinders 13.102. Before, after or during the engagement of the twist locks 13.90 to the ISO Fittings 13.12, the cylinders 13.102 can be made to independently move the platen 13.101 towards or away from the lid 13.20 and the aperture formations 13.26. [0178] As illustrated in figures 48 to 51, in figure 48 the container lifter 13.200 is moved into position with the container 13.10, such that the lid lifting platen 13.101 can be moved independently.
- the container can begin to be lifted, while at the same time the lid lift platen 13.101 is moved towards the lid 13.20, so that twist locks 13.40 can engage the aperture formations 13.26, as is illustrated in figure 50.
- the lid 13.20 can be lifted by the retracting of the cylinders 13.102.
- Figures 48 to 51 and 53 illustrate a rig which can be mounted to a crane, for moving containers and simultaneously lidding or unlidding them while the container is in motion.
- FIG. 41 to 43 and 44 to 47 Illustrated in figures 41 to 43 and 44 to 47, is an example of the mounting of the lid lifter 13.100 to a tippler or container rotating lifter 13.300.
- the difference between the lifter 13.300 and 13.200 of the previously described figures is that the lifter 13.300 is able to invert a container 13.10 so as to discharge its contents at a desired location.
- the lid lifter 13.100 is similar to that described previously, except that as the container 13.10 is now to be rotated, the lid lifter 13.100 needs to lift the lid 13.20 so that it is clear of the rotation envelope of the container 13.10, as illustrated in figure 46 and 52.
- lifting systems 13.100, 13.200 and 13.300 it will be readily seen that a more time effective method of handling an open container can be achieved wherein the lifting device is controlled so as to lift the container and the lid, or lift the container and lift the lid from said container; or to lift just the lid from the container.
- the lid Prior to rotating the container as discussed above, the lid is lifted off the container and transported to a location, relative to the container, outside of a rotation envelope of the container.
- twist locks 13.40 and 13.90 on relatively rigid frames and systems for mounting to complex installations, it will be understood that the twist locks could be cable mounted and made to be part of lifting frames and the like.
- the lid locking and lifting arrangement illustrated in figures 54 to 56 has an apertured lifting housing 401 which is attached to an upper surface of a lid 400, and has side walls 401.1 and an upper side 408.1 in which an aperture 408 is located in the generally horizontal upper side 408.1.
- the aperture 408 is accessed by a downward motion of a descending twist lock 13.40 or similar device, which is mounted on a lid lifting assembly. The downward motion is generally parallel to the lifting direction of the lid and or container which is in the opposite direction.
- the housing 401 is attached to the upper surface of the lid 400 by appropriate means such as welding and is located adjacent a pair of flanges 456 mounted to the lid 400, or to a plate on which the housing 401 and flanges 456 can be mounted.
- the flanges 456 provide a yoke for an axle or pivot 456.1 associated with latch 458 which is pivotally attached to the lid 400.
- the lid 400 in this embodiment includes a peripheral channel 450, which provides two downwardly extending spaced apart flanges to allow the lid 400 to seal relative to the upper cuneiform cross sectioned rim 454 which is welded to the upper rail 452 of the container.
- the latch 458 includes a lever portion 460 which is angled at approximately 30 degrees to the direction of extension of the horizontal portion of latch 458 and a downwardly extending section 462 on the end of which is a hook or lock portion 464 which has an upper edge 464.2 which will engage the underneath edge or surface of the rail 452 when in the condition is illustrated in figure 54 the lid 400 is locked to the container rail 452 and cannot be removed therefrom.
- the hook portion 464 also has a tapered or inclined portion 464.1 and a rounded end 464.2, which if the lock were in the closed condition when a lid 400 were placed onto a container, the engagement of the end 464.3 and surface 464.1 with the upper cuneiform cross sectioned rim 454, will cause the latch 458 to move to the open condition and track around the outer surface of the upper rail 452, until the hook portion 464 clears the under surface 466 of the rail 452, where by gravity will urge the hook portion 464 to move under the rail 452, and thereby lock to prevent upward movement of the lid 400 relative to the rail 452.
- a lid 400 may have a multiple number of the locking system of figures 54 to 56 with the lid lifting device also having an equal number of such twist lock heads 13.401.
- the lid is lowered back on to the container until the channel 450 engages the upper edge 454 of the rail 452.
- the twist lock head 13.401 is rotated so as to align the longitudinal axis of the head 13.401 with the longitudinal axis of the aperture 408 and in this condition to then withdraw the head 13.401 through the aperture 408 in an upward direction.
- This causes the latch 458 to move from the position of figures 55 and 56 back to the condition illustrated in figure 54 whereby the lock portion 464 is relocated underneath the underneath edge of the rail 452.
- the lever portion 460 is illustrated in a relatively simple form in figures 54 to 56. It may be additionally useful that it be constructed with a plate on its end which is of closer width to that of the housing 401, or made of greater thickness, so that as the lock member 13.401 is rotated, there will be little or no risk that the member 13.401 might become disengaged from the lever 460.
- the lid lifting systems described above enable the lid lift member to engage apertured formations 401 to: [0199] 1. simultaneously lock the lid lift member to the apertured formation and to unlock the lid from the container (the embodiments of figures 37 to 40);
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Abstract
Description
Claims
Priority Applications (11)
Application Number | Priority Date | Filing Date | Title |
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CA2844505A CA2844505C (en) | 2011-02-02 | 2012-02-02 | An improved container, container construction, handling method and apparatus |
CN201290000259.0U CN203473625U (en) | 2011-02-02 | 2012-02-02 | Improved container, container construction, handling method and apparatus |
US13/983,139 US9592932B2 (en) | 2011-02-02 | 2012-02-02 | Intermodal container, handling method and apparatus |
AU2012216635A AU2012216635B2 (en) | 2011-02-02 | 2012-02-02 | An Improved Container and Container Construction |
BR122015002094-8A BR122015002094B1 (en) | 2011-02-02 | 2012-02-02 | OPEN TOP CONTAINER TO CARRY BULK MATERIAL |
BR112013019596-7A BR112013019596B1 (en) | 2011-02-02 | 2012-02-02 | LIFTING DEVICE FOR LIFTING A CONTAINER, AND METHOD FOR HANDLING AN OPEN CONTAINER WITH A LID TO COVER AN OPENING OF THE CONTAINER |
BR122015002089-1A BR122015002089B1 (en) | 2011-02-02 | 2012-02-02 | lid for an open container, and lid for shipping or shipping container |
AP2013007082A AP2013007082A0 (en) | 2011-02-02 | 2013-02-02 | An improved container, container construction, handling method and apparatus |
US15/410,830 US20170144830A1 (en) | 2011-02-02 | 2017-01-20 | Container, container construction, handling method and apparatus |
US16/807,524 US11148878B2 (en) | 2011-02-02 | 2020-03-03 | Container, container construction, handling method and apparatus |
US17/462,434 US11858725B2 (en) | 2011-02-02 | 2021-08-31 | Intermodal container, handling method and apparatus |
Applications Claiming Priority (12)
Application Number | Priority Date | Filing Date | Title |
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AU2011900323A AU2011900323A0 (en) | 2011-02-02 | Improved Container Handling Method and Apparatus | |
AU2011900323 | 2011-02-02 | ||
AU2011900440A AU2011900440A0 (en) | 2011-02-10 | A Container and Container Construction | |
AU2011900440 | 2011-02-10 | ||
AU2011902466 | 2011-06-23 | ||
AU2011902466A AU2011902466A0 (en) | 2011-06-23 | An Improved Container, Container Construction, Handling Method and Apparatus | |
AU2012100084A AU2012100084B4 (en) | 2011-02-02 | 2012-01-25 | A Method of Handling a Container |
AU2012100085A AU2012100085B4 (en) | 2011-02-02 | 2012-01-25 | Improvements in Container Lids |
AU2012100083A AU2012100083B4 (en) | 2011-02-02 | 2012-01-25 | Improved Tippler |
AU2012100083 | 2012-01-25 | ||
AU2012100085 | 2012-01-25 | ||
AU2012100084 | 2012-01-25 |
Related Child Applications (3)
Application Number | Title | Priority Date | Filing Date |
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AU2012216635A Division AU2012216635B2 (en) | 2011-02-02 | 2012-02-02 | An Improved Container and Container Construction |
US13/983,139 A-371-Of-International US9592932B2 (en) | 2011-02-02 | 2012-02-02 | Intermodal container, handling method and apparatus |
US15/410,830 Continuation US20170144830A1 (en) | 2011-02-02 | 2017-01-20 | Container, container construction, handling method and apparatus |
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WO2012103593A1 true WO2012103593A1 (en) | 2012-08-09 |
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PCT/AU2012/000097 WO2012103593A1 (en) | 2011-02-02 | 2012-02-02 | An improved container, container construction, handling method and apparatus |
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CN109573640A (en) * | 2017-09-29 | 2019-04-05 | 南通中集特种运输设备制造有限公司 | Discharge system and its discharge method for container |
CN109761150A (en) * | 2019-03-08 | 2019-05-17 | 石家庄辰启科技有限公司 | Built-in day box body |
CN112009895A (en) * | 2020-08-25 | 2020-12-01 | 绍兴市上虞欣隆防腐设备有限公司 | High-temperature anti-corrosion storage tank |
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