巴西专利BR112014020092B1 METHOD OF DEPLOYING AN ADJUSTABLE DELIVERY CONTAINER FOR USE AS A CONSTRUCTION FRAME, HEIGHT ADJUSTA

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专利摘要:
method of manufacturing a transportable expandable shipping container for use as a building frame, height adjustable transportable shipping container useful as a building frame, transport system for transporting, packing and building a height adjustable shipping container , and height-adjustable shipping container. it is a height adjustable shipping container useful as a building frame (2400). the container has vertical corner columns (2405) and at least three side walls that can be transported in a reduced height like a shipping container and expanded at the receiving end. at least some of the vertical corner columns (2405) expand in length during an expansion of the reduced-height shipping container. the shipping container can carry in the same structural components such as wall panel (2403, 2404, floor 2401), ceiling (2402a, 2402b) and even fittings to build a building structure that is the equivalent in floor area to that of fur. minus two shipping containers.
公开号:BR112014020092B1
申请号:R112014020092-0
申请日:2013-02-12
公开日:2021-06-15
发明作者:Nicholas Bruce Mullaney
申请人:Lifting Point Pty Ltd；
IPC主号:

专利说明:

FIELD OF THE INVENTION
[001] The invention relates to a height-adjustable shipping container for use as a building structure typically for mining housing and/or accommodation. FUNDAMENTALS OF THE INVENTION
[002] A problem with existing methods of shipping standard shipping containers lies in transport costs and the height of a product that does not occupy the full space within the container particularly where the container is to be used as some form of accommodation or use commercial. In such cases, the interior of the container is often almost empty, but due to the eventual residential height in the container it is full height and transportation costs are high.
[003] Equally, where an accommodation that is greater than the height of a shipping container is to be provided, the only real option is to provide the same as two containers, one without a floor, that need to be mounted one on top of the other. REFERENCES OF THE INVENTION:
[004] All references to any patents or patent applications cited in this specification are incorporated herein by reference. No admission is made that any reference constitutes prior art. The discussion of references declares what the authors of the references affirm and depositors reserve the right to question the accuracy and pertinence of the cited documents. It will be clearly understood that, although numerous prior art publications may be referred to herein; such reference does not constitute an admission that any of these documents form part of the common general knowledge of the technique in New Zealand or any other country. PURPOSE OF THE INVENTION
[005] An advantage of the invention is directed towards providing a height adjustable shipping container that alleviates some of the disadvantages and limitations of the known art or at least provides the public with a useful choice. SUMMARY OF THE INVENTION
[006] In a first aspect as described herein, the invention relates to a height adjustable shipping container for use as a building structure, the container having an unexpanded transportable configuration and an expanded building structure configuration, wherein the transportable configuration houses, during transportation, a roof and floor to connect to the height-adjustable shipping container expanded building structure configuration, wherein the expanded building structure configuration has an equal or equal floor area or superior to that of two standard shipping containers, the height-adjustable shipping container having: (i) a container base and vertical corner members and three interchangeable and relocatable side walls, the vertical corner members being extendable, wherein at least some of the vertical corner members expand in length during an expansion of the height-adjustable shipping container, so that the adjustable container in the transportable housings in the structural building components, for connection with the adjustable shipping container in the expanded building structure configuration; (ii) a part of each of the relocatable and interchangeable side walls is attached to a part the top of the height-adjustable container during expansion and a portion of each of the interchangeable and relocatable side walls is secured to the bottom of the height-adjustable container during expansion, the bottom of the side walls being sized to accommodate structural building components in the same; and (iii) wherein the vertical members include a horizontally extending channel to support a portion of a load-bearing beam adapted to extend between two separate vertical members, wherein the height-adjustable shipping container in the unexpanded transportable configuration has a height less than 50% of that of a standard shipping container, and the height-adjustable shipping container in the expanded building frame configuration has a height equal to or greater than the height of a standard shipping container, and the raised side walls are coaxially aligned with the container base to form outer walls that have a smooth flat surface over the entire surface area of the outer wall.
[007] Preferably the vertical corner members are columns or vertical rails.
[008] Preferably, at least some part of a sidewall is secured to a height adjustable container top during an expansion.
[009] Preferably, at least some other part of a sidewall is secured to the bottom of the height-adjustable container during an expansion.
[010] Preferably, the bottom of the side walls is substantially high enough to accommodate furniture below the height of the same.
[011] Preferably, the bottom of the side walls is substantially 0.9 meters high.
[012] Preferably, the upper part of the side walls is substantially 0.3 meters high.
[013] Preferably, access points for utilities are at the junctions of the top and bottom walls.
[014] Preferably, at least part of a wall that fills the gap between upper and lower shipping container parts is pushed into place in expanding container.
[015] Preferably, elements that form the shipping container walls during transportation can be relocated elsewhere within the container after expansion.
[016] Preferably, the top surface of the shipping container is angled with respect to the floor plane.
[017] Preferably, two such expanded top surfaces can be placed side by side to form an edged sloping roof.
[018] Preferably, the floor of the shipping container can act to receive a configurable pourable material and can include elements that act as reinforcement for the configurable material.
[019] Preferably, the reinforcing elements may extend across two adjacent expanded shipping container floors.
[020] Preferably, the shipping container corner members may include telescopic portions in which any engaging features at the top of the corner rail are substantially repeated at the top of each telescopic portion.
[021] Preferably, in the expanded form, the corner members remain capable of sustaining vertical loads.
[022] Preferably, the expandable vertical members include a horizontally extending channel to support a portion of a load-bearing beam adapted to extend between two separate expandable vertical members.
[023] Preferably, the floor includes separate openings adapted to receive the tines of a forklift to allow the unlifted shipping container to be transported easily and are adapted when the shipping container is erected to be used as service ducts.
[024] Preferably, the vertical corner members have an open cross section.
[025] Preferably, the vertical corner members have a substantially "L" shaped cross section.
[026] In another aspect, as described herein, the invention relates to a method of deploying a height-adjustable shipping container for use as a building structure, wherein the container has an unexpanded transportable configuration and a expanded building structure configuration where the configuration is adapted to house a roof and floor to connect to the adjustable shipping container expanded building structure configuration, where the expanded building structure configuration has an equal floor area to that of two standard shipping containers, the method including: (i) providing a container base and vertical corner members, providing at least a first vertical wall portion adapted to be attachable to the base and adapted to extend less than a packaged height of the container, providing an upper surface secured in at least one position to an upper portion of a vertical corner member, providing at least a second vertical wall portion adapted to extend towards the first vertical wall portion of the top surface, the vertical members having a horizontally extending channel to support a portion of a load-bearing beam adapted to fit. extending between two separate expandable vertical members; (ii) extending the vertical corner members to an extended position; (iii) attaching a first portion of an interchangeable and relocatable sidewall to an upper portion of the height adjustable container during expansion; and (iv) attaching a second portion of the interchangeable and relocatable side walls to the bottom of the height-adjustable container during an expansion whereby the bottom of the side walls is dimensioned to accommodate building components below the height thereof; the container is in an unexpanded transportable configuration a height of the container is equal to or greater than 50% of that of a standard shipping container, and when the container is in the expanded building structure configuration, the height of the container is equal to or larger than that of a standard shipping container, and the raised side walls are coaxially aligned with the container base to form outer walls that have a smooth flat surface across the entire surface area of the outer wall.
[027] In a further aspect as described herein, the invention relates to a transport system for transporting, packaging and building a transportable height adjustable shipping container useful as a construction, wherein the expandable shipping container transportable, during transport, houses within it a minimum of two roofs and two floors so that when the transportable expandable shipping container is in a construction mode for use as a building structure, the transportable expandable shipping container occupies a minimum area equivalent to that of two standard shipping containers, the transport system including an outer construction housing transformable from transport mode to construction mode, when in transport mode, the outer construction housing is within the same floor dimensions and floor area as a shipping container format, with the outer construction casing rna is height adjustable so that the outer casing is adapted to be transformed from transport mode to construction mode by adjusting the height of the outer construction casing to a desired height, when in transport mode, the inner space within the external building housing includes structural components such as building components, wall panels, floor, ceiling fittings, furniture and fasteners necessary to erect and equip a building structure that is equivalent in floor area to that of at least two container shapes. Shipping; wherein the outer construction housing includes: a) vertical corner members and at least three interchangeable and relocatable side walls which can be transported in a reduced height as a shipping container and expanded at the receiving end in which at least some of the members vertical corners expand in length during expansion of the reduced-height shipping container; b) at least some part of interchangeable and relocatable sidewalls is attached to an upper part of the height-adjustable container during an expansion and at least some other part of the interchangeable and relocatable sidewalls is attached to the bottom of the height-adjustable container during an expansion, with the bottom of the sidewalls being substantially high enough to accommodate structural components such as building components, wall panels, ceiling fittings , furniture and accessories below the height of the same when in the mo. of transportation; and c) the expandable vertical members have a horizontally extending channel to support a portion of a load-bearing beam adapted to extend between two separate expandable vertical members,
[028] in which the transport system, when in transport mode, the outer construction casing is at a reduced height of at least 50% of that of a standard shipping container and so that when in construction mode , the outer construction housing is at a height equal to that of a living area or greater than the height of a standard shipping container, and the raised side walls are coaxially aligned to form outer walls that have a smooth flat surface throughout the entire length. surface area of the outer wall. BRIEF DESCRIPTION
[029] The invention will now be described, by way of example only, with reference to the attached drawings:
[030] Figure 1 is a height-adjustable shipping container according to a first preferred embodiment of the invention.
[031] Figure 2 is the container of Figure 1 in an expanded position.
[032] Figure 3 is a variation of the container in Figure 1.
[033] Figure 4 is an assembly of two containers as shown in Figure 3.
[034] Figure 5 is a prefabricated floor assembly suitable for a container.
[035] Figure 6 is a detail of a joint between two prefabricated floor assemblies in Figure 3.
[036] Figure 7 is a detail of a vertical container rail that expands telescopically.
[037] Figure 8 is a side view of a section of a compact accommodation container.
[038] Figure 9 is a side view of the container of Figure 8 in expanded form.
[039] Figure 10 is a perspective view of collapsing containers situated on a trailer truck ready for transport according to a second preferred embodiment of the invention.
[040] Figure 11 is a perspective view of one of the collapsing containers shown in Figure 10.
[041] Figure 12 is a perspective view of the container shown in Figure 11 in expanded form.
[042] Figure 13 is an end view of the container shown in Figure 12.
[043] Figure 14 is an additional alternative end view of the container shown in Figure 12.
[044] Figure 15 is a cut-away perspective view of the container shown in Figure 12.
[045] Figure 16 is a top view of the container shown in Figure 15.
[046] Figure 17 is a perspective view of the lower structure
[047] of the container shown in Figure 12. Figure 18 is a perspective view of the lower structure shown in Figure 17 without side panels and floor.
[048] Figure 19 is a top view of the lower structure shown in Figure 18.
[049] Figure 20 is a perspective view of the upper structure of the container shown in Figure 12.
[050] Figure 21 is a side view of the detail of a vertical container column that expands telescopically.
[051] Figure 22 is a detail of the upper and lower portions of the column shown in Figure 21.
[052] Figure 23 is a side cross-sectional view of part of the container as shown in figure 12.
[053] Figure 24 is a perspective view of an unerected container packaged in accordance with a third preferred embodiment of the invention.
[054] Figure 24A is an exploded perspective view of the container as shown in Figure 24.
[055] Figure 24B is a perspective view of the underside of the unlifted packaged container as shown in Figure 24.
[056] Figure 24C is a perspective view of the container as shown in figure 24 in an erected state.
[057] Figure 24D is a perspective view of an assembled construction.
[058] Figure 24E is a perspective view of an additional partially assembled construction created from two containers as shown in Figure 24.
[059] Figure 24F is a perspective view of a fully assembled construction as shown in figure 24E.
[060] Figure 24G is a perspective view of another assembled construction.
[061] Figure 24H is a perspective view of another partially assembled construction.
[062] Figure 24I is a perspective view of the building as shown in figure 24G in a finished state.
[063] Figure 24J is a perspective view of a container ready for transport.
[064] Figure 24K is a partial exploded view of the container shown in Figure 24J.
[065] Figure 25 is a perspective view of an unerected container packaged in accordance with a fourth preferred embodiment of the invention.
[066] Figure 25A is an exploded perspective view of the container as shown in figure 25.
[067] Figure 25B is a perspective view of the bottom of the packaged unerected container as shown in figure 25.
[068] Figure 25C is a perspective view of the container as shown in figure 25 in an erected state.
[069] Figure 25D is a perspective view of an assembled construction.
[070] Figure 26 is a perspective view of an unerected container packaged in accordance with a fifth preferred embodiment of the invention.
[071] Figure 26A is an exploded perspective view of the container as shown in figure 26.
[072] Figure 26B is an exploded perspective view of the container as shown in figure 26 in an erected state.
[073] Figure 26C is an additional perspective exploded view of the container as shown in figure 26 in an erected state.
[074] Figure 26D is a perspective view of the bottom of the packaged unerected container as shown in figure 26.
[075] Figure 26E is a perspective view of the container as shown in figure 26 in an erected state.
[076] Figure 26F is a perspective view of an assembled building.
[077] Figure 26G is an exploded perspective view of another partially assembled construction.
[078] Figure 26H is a perspective view of a fully assembled building as shown in figure 26G.
[079] Figure 27 is a perspective view of a container in kit form.
[080] Figure 27A is an exploded view of the container as shown in figure 27.
[081] Figure 28 is a perspective view of a container in schematic form in layers.
[082] Figure 28A is an exploded view of the container as shown in figure 28. DESCRIPTION OF THE PREFERRED MODE(S):
[083] The following description will describe the invention in relation to preferred embodiments of the invention, i.e. a height adjustable shipping container. The invention is in no way limited to these preferred embodiments as they are purely for exemplify the invention and that possible variations and modifications are immediately perceived without departing from the scope of the invention.
[084] The construction system of the invention is applicable for use as residential accommodation, domestic garages, farm & machinery sheds, emergency accommodation, etc.
[085] The invention relates to a new system for building and transporting accommodation that has many benefits compared to existing systems. The proposed system has a significant reduction in the net cost of production and it solves and solves problems in currently available systems.
[086] In general, the invention pertains to an external construction housing that is delivered and erected in a minimum time that can be as little as a few hours in some construction cases (eg garages). As the construction housing is completely enclosed, there are no weather limitations on the construction timeline. Local businesses can be invited to do the indoor installations, which promotes the local construction industry and stimulates the local economy, which is desired by councils and governments. Highly skilled local workers are more likely to be effective than cheaper low-skill workers from foreign economies and as weather conditions are not a factor these local workers would be better able to work with excellent efficiency and remain economically competitive compared to the global market . The inventive system is formatted around the ISO shipping container design and is easily transported and positioned using equipment that is readily available. Due to the simplicity of the construction housing configuration in place, for simple projects a low skill set is required to complete the required assembly. Temporary erected construction complies with international forest fire building regulations.
[087] In emergency accommodation situations, the ease of erecting the building and the completely enclosed nature of the system means that homeless people can have immediate shelter and safety. In the Collapsed Container status, the inventive system can also be used to transport and store emergency relief materials such as food and construction resources within the Collapsed Container.
[088] Due to the versatility of the inventive system, which includes the potential to connect many individual containers together, it is possible to quickly create a large, secure and sheltered space that can be used for a variety of purposes such as a hospital, a storage facility. for food or for occupation by many families. This later use can also promote a sense of community life, which helps provide comfort for people affected by disasters.
[089] Side panels that are used as support when the construction unit is transported can be relocated in the outer shell of the erected structure to create a combination of exterior walls, windows and door openings. The panels, windows and doors are interchangeable and can create any number of different shapes as desired.
[090] Returning now to the drawings that exemplify the invention.
[091] Figure 1 shows a height adjustable shipping container 101 in which vertical corner rails extend to lift and transport points 102 at each end. Vertical walls on the outside extend to cut line 105 which forms a partial end panel 103, partial side panel 104 and top panel and top side partial panels 106.
[092] Figure 2 shows the container of Figure 1 in expanded form in which telescopic rails 107 have been expanded, a panel 110 previously behind panel 103 has been pulled into place and a window 108 previously packed into container with windows 109 has been placed in the gap formed by the expansion. Other panels or equipment that may have been packed inside the container such as doors, rolling doors, fans, tables, etc., can be fitted into the expanded container. Still others can be permanently fitted to the container prior to shipment such as lighting or metered furniture.
[093] Figure 3 shows a container 111 with a sloping top forming part of a tipped sloping roof 112 and an end panel 113. Cut lines 105 are offset, which provides different panel equipment in each cut. Typically any necessary services on the vessel (piping, electrical) are located adjacent to a junction line to allow easy service delivery and testing at installation. Figure 4 shows two containers like those in Figure 3 abutting together before being expanded into a single larger accommodation structure. Several of the walls can be shifted into position when expanded so that, for example, end panels 113 can be relocated to fill the other end, which leaves one end open for access.
[094] In an alternative, the two containers can be separated and parts to connect the gap between them can be packed with the containers. This can include, for example, a floor and a ceiling ventilation link.
[095] Figure 5 shows a view of a floor pan for a container that is intended to be static. It consists of an edge structure 501 and reinforcing bars 502 to allow pouring of concrete or some other configurable pourable material into the pan at the final location, which produces a reinforced concrete block within the container.
[096] Figure 6 shows a method of loading reinforcement 603 through containers abutted and secured together as in Figure 4 such that edge rails 601, 602 are adjacent to make the concrete blocks continuous.
[097] Figure 7 shows a view of a telescopic pole in expanded form. A lower portion 701 with hook feature 703 for transporting or lifting has a lid 702 which slides through a portion 701. When slid in, the hook features 704 align with those at 703 to allow lifting of the compacted container.
[098] Figure 8 shows a side view of the interior of an accommodation container. Exterior panels 801, 802 have a cut line between them that allows you to compact the container into a chair 803, sink and faucet 804, table 805 and lights 806, 807. Piping, electricity and any other utilities for the lights, wall feed and sink can be located in areas 808 at the cut line junctions, which provide access to services before the container is collapsing and after it is expanded. These services can be located within channels at the top of the bottom of a wall attached to the container structure.
[099] The cutting line for such accommodation is preferably 900 mm above the floor with the 801 panel having 300 mm in height to give a compacted height for the container of 1,200 mm compared to the standard total height of 2,500 mm or 2,900 mm . This means that normal furniture can be accommodated inside the zipped container.
[0100] Figure 9 shows the same container in expanded form with the cut lines separated by panels 810. Before panels 810 are finally placed, services are connected, for example, by light cables 806, 807 being connected to a board of central connections within the 808 areas by sockets or by connector block. This has the advantage that access is relatively easy as the container is expanded on site.
[0101] It is important that the compacted container must still adhere to the measurements of a standard shipping container, which means that, in some cases, a collapsing telescopic pole will still be above part of the structure of a container construction, as in Figure 3.
[0102] Figure 10 shows a truck that transports the shipping containers of the invention. Each container 1001 to 1006 is collapsed and of a reduced size or height compared to a standard shipping container. Each shipping container 1001 to 1006 includes all components including framing, walls, panels, etc., necessary to erect a construction structure such as for mining, housing and/or commercial purposes.
[0103] Figure 11 shows a shipping container 1000 in the state of storage and transport thereof. The container has a chassis 1010 with side beam 1011 and end beam 1012. Side beam 1011 has at least two separate stacking pocket openings 1013. Side and end beams 1011, 1012 connect with an element in the ISO pattern of lower corner 1054 at the base of a post 1050. Post 1050 includes a lower section insert guide portion 1051 and an upper section insert guide portion 1052 where the upper section insert guide portion 1052 shortens within the portion. of lower section interleaving guide 1051 so that the height of container 1000 can be adjusted to form a building structure when transported to the desired location. Container 1000 has side walls 1060, end walls 1030 and roof 1040. Column 1050 has an ISO standard 1053 top corner element.
[0104] Figures 12 and 13 show the container 1000 in an erected state in which the columns 1050 are fully extended. The erected container is shown with end wall panels 1031, 1032, side wall panels 1062, 1063, 1064, 1065, 1067, 1068 and door 1066, 1082. End wall panel 1031 and side wall panels 1063, 1064 are secured in place while end wall panel 1032 and side wall panels 1065, 1065, 1067 & 1068 are removable. Side panels 1061, 1062 open to form gutters, canopy or shade panels and can be connected to another adjacent container to form a covered walkway/balcony area.
[0105] Figure 14 shows a variation to the container 1000 shown in Figure 13 in which Figure 14 includes a pipe flow component 2300 below the floor of an assembled and erected container 1000. Preferably, the flow of pipe 2300 is conveyed inside of the container and connected in place once the container is located and erected in the desired place.
[0106] Figures 15 and 16 show a cut-away view of an assembled and finished container 1000. Container 1000 is shown to include a bedroom 2101, living area 2102, kitchen area 2103, bathroom 2104 and toilet 2115. preferred accessories and amenities shown are microwave 1805, refrigerator 1806, hot water tank 1807, cabinet 1808 and toilet 1809. It is contemplated that other fittings, accessories and amenities may be used to suit the purpose for which the erected and finished container is to to be used.
[0107] Figures 17 and 18 show the lower structure 1000A of the container. Figure 17 shows the lower frame in an assembled state with the LA floor, side panels, and end panels in place. End walls 1030, 1070 consist of end beams 1012, 1015 and structural service duct supports 1701, 1708 connected and separated by lower section guide columns 1051. Side walls 1060, 1080 include side beams 1011, 1014 connected to the underside of lower section interleaving guide columns 1051. The structural service duct supports 1702, 1705, 1707, 1709, 1712, 1714 are respectively separated above the side beams 1011, 1014 by the combination of the guide columns of lower section inserts 1051 and vertically extending door jambs 1703, 1704 and structural service duct supports 1706, 1710, 1711, 1713 to form substructures to define walls for panels and windows and openings 1069A, 1085A for doors. Upper structural service duct supports 1701, 1702, 1705, 1707, 1708, 1709, 1712, 1714 may include notched holes into which windows and wall panels can be inserted and held in place without the need to use fasteners or the like to retain windows and panels in place.
[0108] Figure 19 shows the floor F of the container. The floor consists of a structure that includes side beams 1011, 1014 and end beams 1012, 1015 which are connected at the ends to the bases of column 1050. At separate intervals between side beams 1011, 1014, floor joists 1016 are connected. separated from the center of the floor structure are 1017 stack support compression plates that are hollow to accommodate the forks of a forklift. Floor F as shown in figure 19 is included in the unraised container and is mounted and erected on the floor or piles or the like at the desired location onto which the container is then lowered and erected thereon. A configurable pourable medium such as cement is then poured (or this can be done before the container is put in place) to form a concrete floor.
[0109] To construct the floor, a reinforcing steel is fixed inside the container and positioned so that concrete or other means of configuration can be installed immediately and under cover. The technical requirement for floor construction is low as there is a relatively small distance between the planks so that they are of uniform height. This allows for easy planing of the concrete. Cement for concrete can also be transported inside the collapsed Container carcass. Concrete also provides a floor that can be easily decontaminated and cleaned, which is essential for use in hospitals.
[0110] Figure 20 shows the top structure 1000B of the shipping container. The 1000B top frame consists of top side section structural members 1091, 1094 connected to top end section structural member 1092, 1093, top corner ISO standards 1053 of top section insert guide columns 1052. Service Structures 1095 are located separate between the upper side section structural members 1091, 1094 to provide structural support. Lower upper side section structural members 1097, 1098 extend spaced apart below upper section structural members 1091, 1092, 1093, 1094. Structural service duct supports 1099 extend between upper side section structural members 1091, 1094 to provide Additional structural integrity for 1000B top structure. Depending on the lower upper side section structural members 1097, 1098 are door striker lugs 1096 located in the position where a door is to be situated and supported under it. The upper frame 1000B may include stack support compression plates (not shown) similar to the compression plates 1017 in Figure 19. These compression plates which are hollow accommodate the forks of a forklift to allow the upper structure to be lifted and situated. in the place where a building structure stands.
[0111] Figures 21 and 22 show aspects of the expandable column 1050. The column is fixed at its base to the side beam 1011 by a standard ISO 1054 corner. The column 1050 consists of three hollow telescoping guide columns 1051, 1055 and 1062. A lower section interleaving guide column 1051 is connected at the lower end thereof to a standard ISO corner. A center section interleaving guide column 1055 is of a smaller diameter than that of both interleaving guide columns 1051 and 1052 so that a center section interleaving guide column 1055 can shorten within interleaving guide columns 1051, 1052 so that when the container is in a state of transport and storage, the center section interleaving guide column 1055 is completely enclosed within the interleaving guide columns 1051, 1052. An upper interleaving guide column 1052 is attached to the upper ISO Standard 1053 corner and may also be of a smaller diameter than that of the lower section guide column 1051 so that in the unraised state, part of the upper section guide column section 1052 fits within the column. of lower section collation guide 1051.
[0112] The standard ISO 1053, 1054 corners include holes 1056, 1057 that can act as lifting points so that the insert guide columns 1052, 1055 can be raised and lowered relative to an insert guide column. lower section 1051.
[0113] Figure 23 shows a cross-sectional view of part of an erected container. Shown is a floor F supported by floor joists 1016 attached to a side beam 1010 that support a lower wall panel 1063, service duct support 1705, upper wall/window panel 1067 all forming part of the side wall 1060. side panel 1061 secured to a side wall 1060 during transport made by fasteners 1716 is used as a cover or extended chute or louver when and once the container is erected and mounted. A 1061 side panel also acts during transport as a shock absorber and as a clamp. A ceiling panel 1720 extends transversely from, and is connected via the inner corner recess 1715 to the top of the wall/window panel 1067 and is situated below the ceiling 1040. An air gap exists between the ceiling panel 1720 and the roof 1040 which can be used as part and connected to an air conditioning system.
[0114] Figures 24 and 24A show a packaged container 2400 ready for transport (minus the side panels), the container 2400 consists of a floor base 2401, ceiling sections 2402A, 2402B, additional ceiling/wall sections 2403, 2404 and columns 2405. Figure 24B shows a partially assembled container 2400 in which The roof section has not yet been raised from the base 2401 by adjusting the columns 2405. Figure 24C shows the container in a fully raised state ready to be fitted and finished. Figure 24D shows a building structure of an area equal to the area of two containers 2400, 2410 joined side by side to form a building structure. Figures 24E & 24F show two assembled containers 2400, 2410 joined together by a covered roof/passage 2420. While in the lower unraised position like that shown on the roof of Figure 24E, gutters and other roof related components and fittings for facilitation assembly and occupational health and safety requirements. Figures 24G & 241 show a building structure 2430 which has two levels and is equal in area to that of eight shipping containers. Figure 24H shows a building structure 2440 equal in area to that of three shipping containers. Figures 24J & 24K show a 2400 container in a ready-to-ship condition and configuration showing floor base 2401A, 240 IB, ceiling sections 2402A, 2402B, columns 2405, and wall panel sections 2406, 2407, 2408, 2409. It is contemplated that a container includes enough components to construct a building structure that is equivalent in floor area to that of at least two shipping containers.
[0115] Figures 25 and 25A show a packaged container 2500 ready for transport (minus the side panels), the container 2500 consists of a floor base 2501A, 2501B, ceiling sections 2502A, 2502B, additional detector/wall sections 2503, 2504 and 2505 columns. Figure 25B shows a partially assembled 2500 container in which the roof section has not yet been raised from the base by adjusting the 2405 columns. Figure 25C shows the 2500 container in a fully raised state ready to be fitted and finished. Figure 25D shows a building structure 2520 formed and equal in area to that of eight shipping containers.
[0116] Figures 26 and 26A show a packaged container 2600 ready for transport (minus the side panels), the container 2600 consists of a floor base 2601, roof sections 2602A, 2602B, additional roof/wall sections 2603, 2604 and columns 2605. Figures 26B & 26C show exploded views of container 2600 in an erected state. Figure 26D shows a partially assembled container 2600 in which the roof section has not yet been raised from the base by adjusting the columns. Figure 26E shows the container in a fully raised state ready to be adjusted and finished. Figure 26F shows a building structure 2620 formed and equal in area to that of four shipping containers. Figures 26G & 26H show a building structure 2630 formed and in area to that of four shipping containers and has a covered passageway/roof.
[0117] Figures 27 & 27A show the container 2700 in kit form that identifies the key components required to build a building structure at least equal in area to the floor area of two combined shipping containers. Kit includes floor base 2701A, 2701B, 2701C, 2701D, ceiling sections 2702A, 2702B, columns 2705, center ceiling panels 2706, 2707, extra columns 2708 and gutter panels 2709, 2710.
[0118] Figures 28 & 28A show container 2800 in a schematic layered form that identifies the key components required to construct a building structure at least equal in area to the floor area of two combined shipping containers. Kit includes floor base 2801A, 2801B, 2801C, 2801D, 2801E, 2801F, 2801G, ceiling sections 2802A, 2802B, 2802C, 2802D, columns 2805, central ceiling panels 2806, 2807, extra columns 2808, and 2809 gutter panels .
[0119] The columns may include a horizontal steel channel to support a beam between the columns. The beam may be concrete, steel, wood or similar suitable material adapted to withstand and sustain a load from an upper floor.
[0120] Forklift pockets can be used for towing services once the floor is concreted.
[0121] The lower and upper structure parts can be delivered together to eliminate sequence confusion that currently exists with known methods.
[0122] The unassembled parts can be transported in a structure so that they can be assembled at the destination point and therefore allow the transport of a larger floor and ceiling area.
[0123] High quality exterior finishes such as cladding or bricks can be installed to create a more traditional look. Paint and/or texture patterns like ceiling tiles or bricks can also be printed on the steel panels. Interior walls can also be built easily, which includes insulation, plasterboard and paint.
[0124] If a wider construction is desired, additional infill sections can be installed on the ceiling and floor, which connect two housing module units on either side.
[0125] Building units can be used to quickly and inexpensively build a double garage.
[0126] Multi-story buildings are contemplated whereby building shells can be erected on top of one another. Floor pans can be installed in the concrete sections to build a second floor concrete floor (or other means), which can also be fire rated.
[0127] Any existing build format can be replicated. Gutters, valleys, spikes and other traditional construction features are designed into the system.
[0128] Builders can schedule projects without the weather restrictions that currently exist. This maximizes the effectiveness of labor and capital and, since progress is not constrained by adverse weather conditions, it creates more stable cash flows and a predictable and more stable construction industry.
[0129] In 2011, the prefab housing market in America alone produced 185,000 units and was worth $8 to 6 billion. This is a huge market and this method will significantly reduce the cost of construction housing and could potentially revolutionize the industry by providing more efficient and affordable housing.
[0130] The versatility of the building design allows the inventive system to be used to create a wide variety of buildings for different applications including, but not limited to, residential housing, storage units, sheds, garages and emergency relief buildings , public or commercial use.
[0131] The inventive new construction system has many applications for portable/modular constructions and a main use for such constructions is in mining camp accommodation.
[0132] The modular construction industry is less than five years old and has gone through many developments that have led to greater efficiencies over that time. However, there is a need for more effective and useful products. The inventive and new system for constructing and transporting portable accommodation accommodation has many benefits and improvements compared to existing systems. The proposed inventive system has a significant reduction in the net cost of production and it solves problems in currently available systems.
[0133] The product requires minimal site configuration with fully interior fittings and services. The collapsed construction housing simply needs to be placed, lifted and center panels inserted, which takes minimal time.
[0134] The inventive system allows access to all services with ease and allows for updating, testing and repair if required at any time.
[0135] The inventive system solves occupational health and safety issues and reduces the risk of harm to employees during construction. Since it was completely designed with safety in mind.
[0136] The inventive system is shaped around the ISO shipping container and is easily transported and positioned using readily available equipment.
[0137] The required storage space is reduced by 50%, so transport costs are also reduced by up to 50% or more, which is a considerable cost advantage. Furthermore, twice as many units can then be delivered in the same amount of time.
[0138] The manufacturing process has been designed so that different components can be built at different sites and services can be installed depending on local government standards, eg wiring colors, piping, etc. The installation of services and amenities will take place at the final assembly stage.
[0139] Covered walkways and balconies can be included in the project.
[0140] The inventive system can be used for mining and military accommodation and emergency relief and is light enough that it can be dropped into the air of a cargo plane.
[0141] As fuel and transportation costs are greatly reduced, the inventive system is “greener” than current systems and eligible for carbon credits.
[0142] The inventive system was designed to be mass produced by using a similar method as used in the automobile industry.
[0143] It is estimated that over the next 5 years accommodation will be needed for millions of mine workers.
[0144] The location of service ducts is horizontally at the level at which services are required, that is, at a duct height of approximately 900 mm and then a spacing panel of approximately 1150 mm and then another duct of service to light and then a top panel above the ceiling joint. The roof section is placed in place last and therefore captures the panels in position and then secures the roof section to the posts for transport.
[0145] As the inventive system allows more than one building shell to be transported, multiple and individual building sections can be coupled together to create a larger building structure.
[0146] The finished building structure can have a sloping roof that is more aesthetically pleasing and allows water or snow to drain from the roof and also create a void between the roofs for ventilation and a more effective roof insulation area.
[0147] The inventive system can use more spread pieces for the roof and floor and thus increase the overall width of a finished building where two or more building shells must be joined together to form a single building structure.
[0148] By delineating the outer faces of the container sections transported with shrouds that can be relocated to finish the outer walls, the shroud panels serve the purpose as a supporting component and a buffer to absorb destructive energy during transportation caused by potholes or irregularities in road surfaces and other unknown factors during transport. These panels can be installed in such a way as to allow for window and door openings. This provides an outer shell of a construction that can then be finished in a conventional manner. A concrete floor slab as the base gives the building mass to hold the building together. A concrete slab can be added to the top of the container when used in a high elevation situation.
[0149] Columns can also be filled with concrete or other suitable material from the top.
[0150] Reinforcing material such as steel rods can also be installed inside the columns. Therefore, the completed construction will have sufficient structural integrity and fire classification capability.
[0151] The inventive system generally comes with a horizontal roof that is easier to store, transport and install and can be stacked on many levels if needed.
[0152] The inventive system can be transported 2, 3 or higher in a truck or car in an almost ready state (see figure 10).
[0153] The inventive system can be pre-certified and easily adapted to suit all regions of the world.
[0154] The inventive system requires minimal site configuration, with services and interior fittings completely finished. The inventive system simply needs to be placed, lifted and the center panels inserted, which reduces set-up times and reduces costs.
[0155] The inventive system allows easy access to all services and allows for updating, testing and repair, if necessary, at any time.
[0156] The manufacturing process has been designed so that different components can be built at different sites and services can be installed depending on local government standards, eg wiring colors, piping, etc. Installation of services and amenities takes place at the final assembly stage.
[0157] Covered walkways and balconies can be included in the project by using the side panels.
[0158] The product can be used for mining and military accommodation and emergency relief and is light enough that it can be dropped into the air from a cargo plane.
[0159] The inventive system was designed to be mass produced by using a similar method as that used in the automobile industry. There is nothing like that on the market.
[0160] Chute shoulders, valley panels and other sections that may be required can be installed in the construction. REFERENCE NUMBERS DESCRIPTION LIST
[0161] 1000 Container
[0162] 1000A Lower Section
[0163] 1000B Upper Section
[0164] 1001 Collapsed Container - Transport Arrangement
[0165] 1002 Collapsed Container - Transport Arrangement
[0166] 1003 Collapsed Container - Transport Arrangement
[0167] 1004 Collapsed Container - Transport Arrangement
[0168] 1005 Collapsed Container - Transport Arrangement
[0169] 1006 Collapsed Container - Transport Arrangement
[0170] 1010 Chassis
[0171] 1011 Lower Section - Side Beam
[0172] 1012 Lower Section - End Beam
[0173] 1013 Forklift Pocket Opening
[0174] 1014 Lower section - Side beam
[0175] 1015 Lower Section - End Beam
[0176] 1016 Floor Bar
[0177] 1017 Forklift Pockets * Clearing Plate
[0178] 1030 End Wall
[0179] 1031 End Wall Panel — Attached to the bottom
[0180] 1032 End Wall Panel -Removable
[0181] 1033 Side Wall Panel - Top (Fixed)
[0182] 1040 Ceiling
[0183] 1041 Ceiling Lining
[0184] 1042 Ceiling Lining
[0185] 1050 Rail/Column
[0186] 1051 Collar/Column Guide Rail - Lower Section
[0187] 1052 Interleaving/Column Guide Rail - Upper Section
[0188] 1053 ISO standard corner
[0189] 1054 ISO standard corner
[0190] 1055 Interleaving Guide Rail -Central Section
[0191] 1056 ISO Standard Corner Top Opening
[0192] 1057 ISO Standard Corner Side Opening
[0193] 1060 Side wall
[0194] 1061 Side Panel/Cover
[0195] 1062 Side Panel/Cover
[0196] 1063 Fixed Side Wall Panel - Insulated (Sandwich Panel)
[0197] 1064 Fixed Side Wall Panel - Insulated (Sandwich Panel)
[0198] 1065 Removable Side Wall Panel - Insulated (Sandwich Panel)
[0199] 1066 Door
[0200] 1067 Side Window - Removable
[0201] 1068 Removable Sidewall Panel -Insulated (Sandwich Panel)
[0202] 1069 Entry
[0203] 1069A Entry
[0204] 1070 End wall
[0205] 1080 Side wall
[0206] 1081 Removable Sidewall Panel -Insulated (Sandwich Panel)
[0207] 1082 Door
[0208] 1083 Removable Sidewall Panel -Insulated (Sandwich Panel)
[0209] 1084 Removable Sidewall Panel -Insulated (Sandwich Panel)
[0210] 1085 Entry
[0211] 1085A Entry
[0212] 1091 Upper Side Section Structural Corner Member
[0213] 1092 Upper End Section Structural Corner Member
[0214] 1093 Upper End Section Structural Corner Member
[0215] 1094 Upper Side Section Structural Corner Member
[0216] 1095 Structural Service Pipeline Support
[0217] 1096 Door Stop Boss
[0218] 1097 Structural Service Pipeline
[0219] 1098 Structural Service Pipeline
[0220] 1099 Structural Service Pipeline
[0221] 1600 Collapsing Guide Rail -Collapsed - Section
[0222] 1660 Collapsing Guide Rail -Collapsed - Section
[0223] 1701 Structural Service Pipeline
[0224] 1702 Structural Service Pipeline
[0225] 1703 Door knocker
[0226] 1704 Door knocker
[0227] 1705 Structural Service Pipeline Support
[0228] 1706 Structural Service Pipeline Support
[0229] 1707 Structural Service Pipeline Support
[0230] 1708 Structural Service Pipeline Support
[0231] 1709 Structural Service Pipeline Support
[0232] 1710 Door knocker
[0233] 1711 Door knocker
[0234] 1712 Structural Service Pipeline Support
[0235] 1713 Structural Service Pipeline Support
[0236] 1714 Structural Service Pipeline Support
[0237] 1715 Internal Pit
[0238] 1716 Fastener
[0239] 1720 Ceiling Panel
[0240] 1801 Inner Wall Panel - Removable
[0241] 1802 Inner Wall Panel - Removable
[0242] 1803 Inner Wall Panel - Removable
[0243] 1804 Inner Wall Panel - Removable
[0244] 1805 Microwave
[0245] 1806 Refrigerator
[0246] 1807 Hot Water Tank
[0247] 1808 Cabinet
[0248] 1809 Private
[0249] 1810 Flexible Doors
[0250] 2101 Dormitory
[0251] 2102 Room
[0252] 2103 Kitchen
[0253] 2104 Bathroom
[0254] 2115 Sanitary
[0255] 2300 Piping/Draining
[0256] 2400 Container
[0257] 2401 Floor base
[0258] 2402A Ceiling Section
[0259] 2402B Ceiling Section
[0260] 2403 Ceiling/wall sections
[0261] 2404 Ceiling/wall sections
[0262] 2405 Column
[0263] 2406 Wall Panel
[0264] 2407 Wall Panel
[0265] 2408 Wall panel
[0266] 2409 Wall Panel
[0267] 2410 Container
[0268] 2411 Floor base
[0269] 2420 Passage/roof
[0270] 2430 Two-story building structure
[0271] 2440 Container Construction Structure
[0272] 2500 Container
[0273] 2501A Floor base
[0274] 2501B Floor base
[0275] 2502A Ceiling Section
[0276] 2502B Ceiling Section
[0277] 2503 Ceiling/wall sections
[0278] 2504 Ceiling/wall sections
[0279] 2505 Column
[0280] 2520 Construction Structure
[0281] 2600 Container
[0282] 2601 Floor base
[0283] 2602A Ceiling Section
[0284] 2602B Ceiling Section
[0285] 2603 Ceiling/wall sections
[0286] 2604 Ceiling/wall sections
[0287] 2605 Column
[0288] 2620 Container Construction Structure
[0289] 2630 Container construction structure with covered walkway
[0290] 2701A Floor base
[0291] 2701B Floor base
[0292] 2701D Floor base
[0293] 2701G Floor base
[0294] 2702A Ceiling Section
[0295] 2702B Ceiling Section
[0296] 2705 Columns
[0297] 2706 Central Ceiling Panel
[0298] 2707 Central Ceiling Panel
[0299] 2708 Extra columns
[0300] 2709 Gutter Panel
[0301] 2710 Gutter Panel
[0302] 2801A Floor base
[0303] 2801B Floor base
[0304] 2801C Floor base
[0305] 2801D Floor base
[0306] 2801E Floor base
[0307] 2801F Floor base
[0308] 2801G Floor base
[0309] 2802A Ceiling Section
[0310] 2802B Ceiling Section
[0311] 2802C Ceiling Section
[0312] 2802D Ceiling Section
[0313] 2805 Columns
[0314] 2806 Central Ceiling Panel
[0315] 2807 Central Ceiling Panel
[0316] 2808 Extra columns
[0317] ADVANTAGES 2809 Gutter panels
[0318] a) A height adjustable shipping container is provided which allows a compacted construction to be easily transported and expanded at the destination.
[0319] b) Multiple containers can be located together to provide enclosures that are larger than a single container.
[0320] c) Container outer panels may either be packed inside the container or moved from one position when compacted to another when expanded.
[0321] d) Significant reduction in the net cost of providing accommodation.
[0322] e) Formatted around ISO shipping container design.
[0323] f) Can create high lift by stacking multiple containers on top of each other.
[0324] g) Can be used in different applications including but not limited to residential accommodation, storage units, sheds, garages and buildings for emergency relief, public or commercial use.
[0325] h) The required storage space is reduced by at least 50% so that transportation costs are also reduced by up to 50%.
[0326] i) Twice as many containers can then be delivered in the same amount of time. VARIATIONS
[0327] It will be understood, of course, that although the foregoing was given as an illustrative example of this invention, all such and other variations thereof as evident to those skilled in the art are considered to be within the broad scope and scope of this invention as is previously mentioned in this document.

权利要求:
Claims (17)
[0001]
1. METHOD OF DEPLOYING AN ADJUSTABLE DELIVERY CONTAINER (101) FOR USE AS A CONSTRUCTION FRAME, wherein the container has an unexpanded transportable configuration and an expanded construction structure configuration, wherein the transportable configuration is adapted to accommodate a roof and floor for connecting to the adjustable shipping container expanded building frame configuration, wherein the expanded building frame configuration has a floor area equal to two standard shipping containers, the method being characterized by including: (i) providing a container base and vertical corner members (107), providing at least a first vertical wall portion (103) adapted to be attachable to the base and adapted to extend less than a packaged height of the container. , providing an upper surface secured in at least one position to an upper portion of a vertical corner member (107); vertical wall assembly (110) adapted to extend towards the first vertical wall portion of the upper surface, the vertical members having a horizontally extending channel to support a portion of a load bearing beam adapted to extend between two separate extendable upright corner members; (ii) extending the upright corner members to an extended position; (iii) securing a first part of an interchangeable and relocatable side wall to an upper part of the height adjustable container during an expansion; and (iv) attaching a second interchangeable and relocatable sidewall portion to a height adjustable container lower portion during an expansion whereby the sidewall lower portion is sized to accommodate construction components below the height thereof; when the container is in the unexpanded transportable configuration, a container height is equal to or greater than 50% of that of a standard shipping container, and when the container is in the expanded construction structure configuration, the container height is equal to or greater than that of a standard shipping container, and the raised side walls are coaxially aligned with the container base to form outer walls that have a smooth flat surface over an entire surface area of each outer wall.
[0002]
2. HEIGHT ADJUSTABLE SHIPPING CONTAINER (101) FOR USE AS A CONSTRUCTION FRAME, the container having an unexpanded transportable configuration and an expanded construction structure configuration, wherein the transportable configuration accommodates, during transport, a ceiling and a floor for connecting to the height-adjustable shipping container expanded building frame configuration, where the expanded building frame configuration has a floor area equal to or greater than that of two shipping containers, where the height adjustable shipping container is characterized by having: (iv) a container base and vertical corner members (107) and three interchangeable and relocatable side walls, the vertical corner members being extendable, wherein at least one of the vertical corners extend in length during an expansion of the adjustable shipping container, so that the adjustable container in the transport housings capable on the same building structural components, for connection to the adjustable shipping container in the building frame configuration; (v) a portion of each of the relocatable and interchangeable side walls is secured to a height adjustable container top during a expansion and a portion of each of the interchangeable and relocatable side walls is secured to a lower part of the height adjustable container during expansion, the lower part of the side walls being sized to accommodate structural building components therein; and (vi) wherein the vertical members (107) include a horizontally extending channel to support a portion of a load-bearing beam adapted to extend between two separate vertical members, wherein the height-adjustable shipping container (101 ) in the unexpanded transportable configuration has a height less than 50% of that of a standard shipping container, and the height-adjustable shipping container in the expanded building frame configuration has a height equal to or greater than the height of a shipping container pattern, and the raised side walls are coaxially aligned with the container base to form outer walls that have a smooth flat surface over the entire surface area of each outer wall.
[0003]
3. HEIGHT ADJUSTABLE SHIPPING CONTAINER (101) according to claim 2, characterized in that the vertical corner members (107) are columns or vertical rails.
[0004]
4. HEIGHT-ADJUSTABLE SHIPPING CONTAINER (101) according to any one of claims 2 or 3, characterized in that the height-adjustable shipping container includes access points (808) for public utility services, the access points being (808) are located at the junctions of the top (801) and bottom (802) walls.
[0005]
A HEIGHT ADJUSTABLE SHIPPING CONTAINER (101) as claimed in any one of claims 2 to 4, characterized by at least part of a wall filling a gap between upper (105) and lower (106) shipping container parts be positioned by the expansion of the container (101).
[0006]
6. HEIGHT ADJUSTABLE SHIPPING CONTAINER (101) according to any one of claims 2 to 5, characterized in that a floor pan of the shipping container (101) receives a configurable pourable material, and the floor pan includes elements ( 502) that act as reinforcement for the configurable material.
[0007]
A HEIGHT ADJUSTABLE SHIPPING CONTAINER (101) as claimed in claim 6, characterized in that the reinforcing elements (603) extend across two adjacent expanded shipping container floors.
[0008]
A HEIGHT ADJUSTABLE DISPLAY CONTAINER (101) as claimed in any one of claims 2 to 7, characterized in that each corner member (107) includes a telescopic portion wherein a lower portion (710) of the vertical corner member ( 107) has a lid (702), each of the lower portions (701) and lid (702) having engaging features (703, 704) that align with each other when the lid (702) is slid down on the corner member. vertical (701).
[0009]
9. HEIGHT ADJUSTABLE DISPLAY CONTAINER (101) according to any one of claims 2 to 8, characterized in that the vertical corner members (107) are configured to support vertical loads in their extended configuration.
[0010]
10. HEIGHT ADJUSTABLE SHIPPING CONTAINER (101) according to any one of claims 2 to 9, characterized in that the side walls (1060, 1080, 1083, 1084) are relocated around an outer shell of the shipping container. Expanded adjustable height (101) to create a combination of exterior walls, windows and door openings.
[0011]
A HEIGHT ADJUSTABLE DISPLAY CONTAINER (101) as claimed in any one of claims 2 to 10, characterized in that the floor includes separate openings (1013) adapted to receive teeth of a forklift when the container is in an unexpanded transportable configuration and adapted to provide service ducts when the height adjustable shipping container (101) is in the expanded building structure configuration.
[0012]
A HEIGHT ADJUSTABLE DISPLAY CONTAINER (101) as claimed in any one of claims 2 to 11, characterized in that the vertical corner members (107) have an open section.
[0013]
13. HEIGHT ADJUSTABLE SHIPPING CONTAINER (101) according to any one of claims 2 to 12, characterized in that the lower part of the side walls is 0.9 meter high, and the upper part of the side walls is 0.3 meter tall.
[0014]
A HEIGHT ADJUSTABLE SHIPPING CONTAINER (101) as claimed in any one of claims 2 to 13, characterized in that the height adjustable shipping container top surface is angled relative to a plane of the floor.
[0015]
15. HEIGHT ADJUSTABLE DISPLAY CONTAINER (101) according to any one of claims 2 to 14, characterized in that the vertical corner members have an "L"-shaped cross section.
[0016]
16. TRANSPORTABLE HOUSING SYSTEM (2800), capable of forming an external construction housing with a roof (2802A, 2802B, 2802C, 2802D, 2806, 2087, 2809) and a floor (2801A, 2801B, 2801C, 2801D, 2801E, 2801F, 2801G) and external building panels, comprising: the tall shipping container (101) as defined in any one of claims 2 to 15; and the roof and the outer building and floor panels being housed in the height-adjustable shipping container in an unexpanded transportable configuration; characterized by the outer construction housing being formed when the height-adjustable shipping container is expanded from a transportable configuration to a building frame configuration and the roof and external floor and building panels are engaged with the height-adjustable height shipping container in the expanded building frame configuration.
[0017]
17. METHOD OF CONSTRUCTING THE HEIGHT ADJUSTABLE SHIPPING CONTAINER (101) as defined in claim 1, which includes an additional step of relocating the side walls of the shipping container within the expanded height adjustable shipping container.

类似技术:

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同族专利:

公开号 | 公开日

AU2013211507A1|2013-09-05|

EA028086B8|2017-12-29|

EA033583B1|2019-11-07|

US20150028025A1|2015-01-29|

CN104114784A|2014-10-22|

EA201491439A1|2015-03-31|

CA2864601A1|2013-08-22|

TN2014000334A1|2015-12-21|

CO7061060A2|2014-09-19|

IN2014KN01635A|2015-10-23|

CA2864597A1|2013-08-22|

EA028086B1|2017-10-31|

US20150014886A1|2015-01-15|

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ZA201406746B|2016-05-25|

IL234068D0|2014-09-30|

KR20140143753A|2014-12-17|

CO7071113A2|2014-09-30|

CN104204380A|2014-12-10|

AP2014007851A0|2014-08-31|

EA201491440A1|2015-01-30|

EP2815042A1|2014-12-24|

WO2013120129A1|2013-08-22|

PH12014501856A1|2014-11-17|

AU2013220923A1|2014-08-21|

NZ628172A|2016-07-29|

PH12014501858A1|2014-11-17|

PH12014501856B1|2014-11-17|

ZA201406745B|2016-08-31|

AU2013211507B2|2015-06-18|

IN2014KN01634A|2015-10-23|

SG11201404471QA|2014-09-26|

WO2013120138A1|2013-08-22|

AP2014007849A0|2014-08-31|

KR20140128424A|2014-11-05|

PE20142202A1|2015-01-10|

US20150034634A1|2015-02-05|

PE20142201A1|2015-01-10|

NZ628158A|2016-12-23|

US9248957B2|2016-02-02|

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CN104136692B|2017-04-26|

CN104136692A|2014-11-05|

MY173294A|2020-01-13|

CL2014002186A1|2015-01-02|

PH12014501858B1|2014-11-17|

JP2015511910A|2015-04-23|

CN104204380B|2017-11-10|

EP2815037A1|2014-12-24|

EP2815042A4|2015-12-02|

CL2014002137A1|2014-11-03|

JP2015513622A|2015-05-14|

SG11201404476UA|2014-10-30|

MX2014009841A|2015-04-13|

EP2815037A4|2015-12-02|

MX2014009843A|2015-09-08|

JP2015510561A|2015-04-09|

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法律状态:
2018-01-23| B11A| Dismissal acc. art.33 of ipl - examination not requested within 36 months of filing|

2018-03-20| B04C| Request for examination: application reinstated [chapter 4.3 patent gazette]|

2018-12-04| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2020-02-18| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

2021-04-06| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

2021-06-15| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 12/02/2013, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

AU2012900570|2012-02-17|

AU2012900570A|AU2012900570A0|2012-02-17|Height Adjustable Shipping Container|

PCT/AU2013/000117|WO2013120129A1|2012-02-17|2013-02-12|Height adjustable shipping container|

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