AU2021203202B2 - Modular Buildings - Google Patents

Modular Buildings Download PDF

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AU2021203202B2
AU2021203202B2 AU2021203202A AU2021203202A AU2021203202B2 AU 2021203202 B2 AU2021203202 B2 AU 2021203202B2 AU 2021203202 A AU2021203202 A AU 2021203202A AU 2021203202 A AU2021203202 A AU 2021203202A AU 2021203202 B2 AU2021203202 B2 AU 2021203202B2
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building
unit
units
modular
corridor
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AU2021203202A1 (en
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Susan Unger
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1 Space Pty Ltd
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1 Space Pty Ltd
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Priority to AU2023258445A priority patent/AU2023258445A1/en
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Abstract

A building structure is formed of one or more elongate clusters. Each cluster comprises a plurality of side by side module banks. Each module bank formed of end to end modular building units. At least one modular building unit of each bank is a corridor building unit that comprises a portion of a corridor that spans at least two banks. The corridor building unit of each bank also comprises at least part of a room on either side of the corridor. At least two of the side by side banks form a template. The template is repeated at least once in the elongate cluster. 1/14 16 UNIT 16 10 14 BANK 14' 14" 14 12 12 |1|4|" 11 1 _I I 1 4 I || CLUSTER 20 F--F 12' I I l I I I l I PRECINCT FIG. 1

Description

1/14
16 UNIT 16 10 14 BANK
14' 14"
14
12 12
|1|4|" 11 1
_I I14I|| CLUSTER 20F--F
12'
IIl I
IIl I
PRECINCT
FIG. 1
Modular Buildings
The present invention relates to modular buildings.
Background
Known modular buildings comprise buildings formed of custom modified intermodal shipping containers, also known as sea containers. However shipping containers are of a fixed width - 2.4m (8ft) - and of a limited number of lengths - 6.1m (20ft) or 12.2m (40ft). Accordingly areas or rooms inside building constructed of these containers are limited in their dimensions, according to the dimensions of the container. Making an area wider than the width of the container requires extensive structural modification of the containers, such as cutting through walls of the containers, which is undesirable and defeats the purpose of modularisation. Furthermore each container is individually customised to its particular application, which is counter to the concept of modularisation.
Reference to prior art documents is not an admission that they form part of the common general knowledge of a skilled person in any jurisdiction.
Summary of the Invention
In this specification the terms "comprising" or "comprises" are used inclusively and not exclusively or exhaustively.
According to the present invention there is provided a building structure formed of one or more elongate clusters, each cluster comprising a plurality of side by side module banks, each module bank formed of end to end modular building units, wherein at least one modular building unit of each bank is a corridor building unit that comprises a portion of a corridor that spans at least two banks, wherein the corridor building unit of each bank also comprises at least part of a room on either side of the corridor, wherein at least two of the side by side banks form a template, and the template is repeated at least once in the elongate cluster.
In an embodiment, at least two of the side by side modular building units in each template form a room spanning the at least two of the side by side modular building units in each template.
In an embodiment, a modular building unit on each side of the corridor building unit is mirrored in each template.
According to the present invention there is provided a method of forming a building comprising: providing a plurality of different predetermined modular building unit types, wherein at least one of the types of modular building units is a corridor type which comprises a portion of a corridor extending transverse to the length of the modular building unit and between the sides of the modular building unit, and the corridor type of modular building unit further comprises at least a part of a room on either side of the portion of the corridor; determining the usage requirements of the building in terms of types of areas within the building from the plurality of the different predetermined modular building unit types; determining the space requirements of the building in terms of the number of each type of the determined types of areas within the building and size of each type of area, where each type of area has a plurality of predetermined available sizes, the sizes available being smaller than, the same as or larger than a modular building unit; determining which of the plurality of the predetermined of modular building unit types are to be used in the building and the number of each type of modular building unit to meet the determined usage requirements and determined space requirements; obtaining the modular building units according to the determined types and determined number of each type; transporting the modular building units to a building site; and assembling the modular units into the building which comprises at least one corridor formed of at least two adjacent side by side corridor type modular building units; wherein a respective determined area is formed by a respective one of the at least a part of a room on either side of the portion of the respective portion of the corridor, wherein the modular building units are assembled to form the building according to the determined space requirements.
In an embodiment, the method further comprises specifying internal spaces defined by an internal wall to conform to a grid dimensioned to a fraction of the length and or a fraction of the width of the modular building unit.
In an embodiment, determining a configuration of the building comprises selecting a type of unit, wherein the unit type determines the internal wall configuration, where an end of an internal wall defines an opening in the modular building unit, which will be internal to the building when the building is assembled.
In an embodiment, modules in the palette comprise: a dry use unit; a wet use unit; a partly wet and partly dry use unit, separated along the length; a part inside use area and a part outside environment use area unit, separated along the length; a corridor unit with rooms on either side of the corridor and entry doors to each room; and a corridor unit with services accesses to wet use areas on either side of the corridor.
In an embodiment, the building comprises assembling at least two side by side building units with a room extending across the building units, and the at least two side by side building units form a template, wherein the template is repeated side by side at least once.
According to the present invention there is provided a building formed by performing the above method.
According to the present invention there is provided a building structure formed of one or more elongate clusters, each cluster comprising a plurality of side by side horizontally abutting module banks, each module bank formed into a stackable substantially planar layer of only three equi-sized end to end abutting modular building units, each modular building unit comprising an occupiable area therein.
In an embodiment the middle modular building unit of each module bank is a corridor building unit that comprises a portion of a corridor that spans at least two banks, wherein the corridor building unit of each bank also comprises at least part of a room on either side of the corridor and the portion of the corridor extends transversely to the lengths of the modular building units and between the sides of each modular building unit.
In an embodiment the part of the room of the modular unit on either side of the corridor extends floor to ceiling of the room.
In an embodiment the portion of the corridor is opened to span into the adjacent bank when a side panel of used in transport is removed.
In an embodiment a respective room on an end of the corridor building unit spans into the respective end to end abutting building unit of the same module bank when a respective end panel using in transport is removed.
In an embodiment one of the building units comprises an internal wall one side of which is open when the side panel is removed and an adjacent side by side building unit comprises an internal wall one side of which is open when the side panel is removed, and the respective walls meet to form a continuous wall and the respective openings form a continuous open area spanning both side by side building units.
In an embodiment a vertical support between ends of two side by side building units is in place during transport and is removed leaving a clear open space spanning the side by side building units.
In an embodiment one of the building units comprises a wet area separated from a dry area, with plumbing services piped to be stackable.
In an embodiment a living or working quarters of each cluster is formed by a plurality of portions of the modular building units.
According to the present invention there is provided a building structure formed of one or more elongate clusters, each cluster comprising a plurality of side by side module banks, each module bank formed of end to end modular building units, wherein at least one modular building unit of each bank is a corridor building unit that comprises a portion of a corridor that spans at least two banks, wherein the corridor building unit of each bank also comprises at least part of a room on either side of the corridor.
According to the present invention there is provided a building structure formed of one or more elongate clusters, each cluster comprising a plurality of side by side module banks, each module bank formed of end to end modular building units of substantially the same dimensions, wherein a living or working quarters of each cluster is formed by a plurality of portions of the modular building units.
In an embodiment each of the units has the same dimensions.
In an embodiment a clear area within the building has a Cartesian dimension larger than an equivalent dimension of the modular units. For example a clear room width is larger than the width of the modular unit.
In an embodiment the modular units are configured such that they are able to be assembled into the building structure without structural modification or additional internal structure to each modular building unit.
In an embodiment each unit is of a unit type and each unit is configured according to its unit type. In an embodiment the modular units comprises one or both of an internal wall configuration and an external (perimeter of the unit) wall configuration. In an embodiment each bank is of a bank type, where each bank type is defined according to the unit types of its units.
In an embodiment the modular units are selected from a selection range of available units and are assembled in a relationship to form functional areas that meet a design requirement.
In an embodiment the modular building units are stackable for transport and are able to be stacked in the building structure.
Preferably the outer units of the bank are mirrored.
In an embodiment each cluster comprises at least two banks of the same type.
In an embodiment a room in a cluster is defined by one of: a portion of a modular unit; a bank; a plurality of module banks; or a plurality of portions of modular building units spanning a plurality of module banks.
In an embodiment there are least three and preferably between six and twenty four banks in each cluster. Preferably there are ten to eighteen banks in each cluster. Preferably there are fifteen or less banks before there is access to the outside of the building or a fire escape.
In an embodiment there are four clusters. In an embodiment there are four clusters of the same height and a fifth cluster of a greater height that is closer to a transport node.
In an embodiment each cluster comprises a plurality of levels, each level comprising a plurality of side by side banks, each bank formed of the end to end modular building units. The modular building units of each level are stacked one atop another.
In an embodiment at least one of the building units comprises a level spanning unit having a height of at least two modular building units.
In an embodiment each cluster is parallel, and linked laterally at the ends by access ways.
In an embodiment at the end of each cluster is a stairway between levels or access to an outside of the building.
In an embodiment there are banks of a type to provide common facilities at an end of the cluster.
In an embodiment internal spaces with a dimension longer than the length of a modular building unit are constrained to a maximum dimension without an internal floor to ceiling support structure of the length of the modular building structure less the thickness of the support structure.
In an embodiment the building is multistorey, with support structures for the multiple stories being provided by structural supports in each modular unit.
In an embodiment building internal areas are provided that span at least one modular building unit, wherein the building internal areas are isolated from the elements outside of the building structure.
In an embodiment an area is smaller than or the same size as a modular building unit, with multiples of the area repeating with end to end or side to side modular building units.
In an embodiment a modular building unit type has a portion of an internal corridor therein and an entrance doorway to spaces either side of the corridor, where there are a plurality of such modular building units adjacent one another so as to connect the corridor portions to form the corridor.
In an embodiment the corridor is through the centre of the modular building unit and the areas either side of the corridor are mirrored. In an embodiment the modular building units on either side of a central modular building unit of each bank are mirrored.
In an embodiment an internal portion of the building has a plurality of areas with the same type of use, with an outer portion providing an external entrance to the internal portion, the external entrance being an area provided for in one type of modular building unit.
In an embodiment an outer portion of the building has a different use to the internal portion. For example the inner portion has multiple bedrooms and the outer portion has a common use laundry.
In an embodiment, each bank provides an external thermal and or moisture barrier that are able to be substantially continuous between adjacent abutting banks.
In an embodiment the building comprises a plurality of banks of usage areas.
In an embodiment a joining portion of the building joins one cluster, such that there is internal, or covered access-way between clusters.
In an embodiment there is a vertical access between levels, such as stairway or elevator between levels.
According to the present invention there is provided a method of forming a building comprising: specifying a plurality of predetermined modular building unit types; wherein each of the modular building unit types has a different internal wall configuration and/or external perimeter wall configuration; determining the usage requirements of the building in terms of types of areas, including rooms, within the building from a plurality of predetermined available types, such that the types of areas able to be built is determined according to the plurality of predetermined modular building unit types that are available; determining the space requirements of the building in terms of the number of each type of the predetermined types of areas within the building and size of each type of area, where each type of area has a plurality of available sizes, wherein the sizes of each type of area available are selected as being a portion of a modular building unit of a type suitable for the respective determined user and that has a room: (i) smaller than the size of one modular building units, or (ii) the same as a modular building unit of a type suitable for the respective determined use, or (iii) larger than a modular building unit, where the area larger than a modular building unit comprises a plurality of portions of modular building units which have a type suitable for the respective determined use; determining the size of the building based on the space requirements and the dimensions of the predetermined modular building unit types available in the predetermined types; determining a composition of one or more required types of modular building unit and the number of each type of modular building unit to meet the determined usage requirements and determined space requirements; manufacturing or obtaining the modular building units according to the determined type and number; transporting the modular building units to a building site; and assembling the modular units into the building.
In an embodiment the modular building units are stackable for transport and stackable for assembly into the building.
In an embodiment construction of the building consists of assembly of the modular building units on a foundation and interconnection of the building units and their services. In particular additional construction is not required.
In an embodiment the modular building units of each type of modular building unit have one or more of the following predetermined: room size, room position, room orientation, internal walls, entrance/exit, windows, electrical/data services, plumbing services, and covered areas.
Also according the present invention there is provided a building comprising assembled modular building units, where the units are assembled into one or more groups according to a type of unit used to form one or more types of area in the building, where one or more of the areas may be larger than the size of a building unit by spanning more than one unit, wherein the units have been formed to provide the areas when assembled.
According to the present invention there is provided a method of forming a building comprising: specifying a palette of predetermined modular building unit types; determining the usage requirements of the building in terms of types of areas within the building, from the palette of determined types; determining the space requirements of the building in terms of the number of each type of area within the building and size of each type of area, where each type of area has a plurality of available sizes, the sizes available being smaller than, the same as or larger than a modular building unit; determining the size of the building based on the space requirements and the dimensions of the predetermined modular building unit types available in the palette of predetermined types; determining a composition of one or more required types of modular building unit and the number of each type of modular building unit to meet the determined usage requirements and determined space requirements, where the composition is selected from the palette of predetermined modular building types; obtaining the modular building units according to the determined type and number; transporting the modular building units to a building site; and assembling the modular units into the building.
In an embodiment prior to transport one or more of the modular building units are packed into a container form for transport. In an embodiment prior to assembly the modular building units, one or more of the modular building units are unpacked from container form to an assemble-able form, without need for structural modification.
In an embodiment the method further comprises specifying internal spaces to conform to a grid dimensioned to the length and width of the modular unit.
In an embodiment the method further comprises specifying internal spaces to conform to a grid dimensioned to the length and width of the modular unit, or standard fractions thereof. A standard fraction may comprise , 1/3, or1
. In an embodiment determining a configuration of the building comprises selecting a type of unit, wherein the unit type determines one or both of internal wall configuration and external (perimeter of the unit) wall configuration.
In an embodiment determining the configuration comprises selecting a type of module bank, wherein each module bank is of a type that is determined according to the unit types of its units.
In an embodiment determining the configuration comprises selecting units such that there is an area within the building larger than a dimension of the modular units.
In an embodiment the modular units are assembled without structural modification.
In an embodiment each modular unit is custom manufactured and assembled in a relationship with the other units to form the banks and clusters.
In an embodiment the determined space requirements comprise determining that the units are to be stacked in the building.
In an embodiment the units are stacked for transport. In an embodiment panels are stacked in a unit for transport.
Preferably the determined composition comprises determining a configuration such that the outer units of the bank are mirrored.
In an embodiment the determined composition comprises determining a configuration such that each cluster comprises at least two banks of the same type.
In an embodiment the determined composition comprises determining a configuration such that a room in a cluster is defined by one of: a portion of a modular unit; a bank; a plurality of banks; a plurality of portions of modular units spanning a plurality of banks.
In an embodiment the determined composition comprises determining a configuration such that there are least three and preferably between six and twenty four banks in each cluster. In an embodiment there are fifteen banks in each cluster.
In an embodiment the determined composition comprises determining a configuration such that a level spanning unit is the height of at least two units.
In an embodiment the determined composition comprises determining a configuration such that each cluster is parallel, and linked laterally at the ends by access-ways.
In an embodiment the determined composition comprises determining a configuration such that at the end of each cluster is a stairway between levels or access to an outside of the building.
In an embodiment the determined composition comprises determining a configuration such that there are banks of a type to provide common facilities at an end of the cluster.
In an embodiment the determined composition comprises determining a configuration such that there are banks of a type to provide a link at an end of the cluster to another end of another cluster.
In an embodiment the determined space requirements comprises determining a configuration such that internal spaces with a dimension longer than the length of a modular building unit are constrained to a maximum dimension without an internal floor to ceiling support structure of the length of the modular building structure less the thickness of the support structure.
In an embodiment the determined composition comprises determining a configuration such that the building is multistorey, with support structures for the multiple stories being provided by structural supports in each modular unit.
In an embodiment the determined space requirements comprises determining a configuration such that an area is smaller than or the same size as a modular building unit, with multiples of the area repeating with end to end or side to side modular building units.
In an embodiment the determined composition comprises determining a configuration such that a modular building unit type has a portion of an internal corridor therein and an entrance doorway to spaces either side of the corridor, where there are a plurality of such modular building units adjacent one another so as to connect the corridor portions to form the corridor.
In an embodiment the determined composition comprises determining a configuration such that a modular building unit type has a portion of an internal service corridor therein, where there are a plurality of such modular building units adjacent one another so as to connect the service corridor portions to form the service corridor.
In an embodiment the determined composition comprises determining a configuration such that the corridor is through the centre of the modular building unit and the areas either side of the corridor are mirrored.
In an embodiment the determined space requirements comprises determining a configuration such that an internal portion of the building has repeated use areas, with an outer portion providing an entrance to the internal portion, the entrance being an area provided for in one type of modular building unit.
In an embodiment the determined composition comprises determining a configuration such that an outer portion of the building has a different use to the internal portion.
In an embodiment the determined composition comprises determining a configuration such that the building comprises a plurality of banks of usage areas.
In an embodiment the determined composition comprises determining a configuration such that a joining portion of the building joins one bank of connected building units to another bank of building units, such that there is internal, or covered access-way between banks.
According to the present invention there is provided a building formed by performing the above method.
Also according to the present invention there is a building structure formed of one or more elongate clusters, each cluster comprising a plurality of end to end module banks, each module bank formed of a plurality of side to side modular building units.
According to the present invention there is provided a building structure formed of one or more elongate clusters, each cluster comprising a plurality of end to end abutting module banks, each module bank formed into a stackable layer of at least three side by side abutting modular building units, wherein a living or working quarters of each cluster is formed by a plurality or portions of the modular building units, each modular building unit comprising an occupiable area therein.
In an embodiment at least one modular building unit of each bank comprises a portion of a corridor that spans at least two banks, wherein the modular building unit of each bank also comprises at least part of a room on either side of the corridor.
Description of Drawings
In order to provide a better understanding of the present invention example embodiments will now be described in reference to the accompanying drawings, in which: Figure 1 is a schematic set of plan views showing a building according to an embodiment of the present invention; Figure 2 is an upper isometric view of a bank of modular building units of the building of Figure 1; Figure 3 is a lower isometric view of the bank of Figure 2; Figure 4 is an upper isometric view of a modular building unit of the building of Figure 1, with a top face removed; Figure 5 is an upper isometric view of a frame of the modular building unit of Figure 4;
Figure 6 is an end view of a cluster of the building of Figure 1; Figure 7 is a side elevation of the cluster of the building of Figure 6; Figure 8 is a plan view of a connecting portion of the building of Figure 1; Figure 9 is a side elevation of the bank of Figure 3 in a transportation configuration; Figure 10A is an end view of the bank of Figure 3 in a transportation configuration; Figure 10B is an end view of an inside end of the unit of Figure 4 in a transportation configuration; Figure 11 is a plan view of a village comprising the building of Figure 1; Figure 12A is a plan view of an embodiment of a bank of modular units and a cluster according to an embodiment of the present invention; Figure 12B is a plan view of an alternative embodiment of a bank of modular units and a cluster according to an embodiment of the present invention; Figure 12C is a plan view of an alternative embodiment of a bank of modular units and a cluster according to an embodiment of the present invention; Figure 12D is a plan view of an alternative embodiment of a bank of modular units and a cluster according to an embodiment of the present invention; Figure 13 is a plan view of a selection palette of modular building units according to an embodiment of the present invention; Figure 14A is a plan view of an embodiment of a fitted out unit of the type in the bank of Figure 12A; Figure 14B is a plan view of an embodiment of a fitted out unit of the type in the bank of Figure 12B; Figure 14C is a plan view of an embodiment of a fitted out unit of the type in the bank of Figure 12C; Figure 14D is a plan view of an embodiment of a cluster according to an embodiment of the present invention; Figure 15 is a schematic set of plan views showing a building according to an embodiment of the present invention; Figure 16 is an exploded upper isometric view of an embodiment of an apartment building according to an embodiment of the present invention; Figure 17A is a plan view of a ground storey of the apartment building of Figure 16; Figure 17B is a plan view of a first storey of the apartment building of Figure 16; Figure 17C is a plan view of a second storey of the apartment building of Figure 16; Figure 18 is a schematic set of isometric views showing examples of configurations of banks of modular units of Figure 16; Figure 19 is a schematic set of a plan view and perspective views showing an alternative building according to an embodiment of the present invention;
Figure 20 is a schematic set of a plan view and perspective views showing an alternative building according to an embodiment of the present invention; Figure 21 is a schematic set of a plan view and perspective views showing an alternative building according to an embodiment of the present invention; Figure 22 is a plan view of a fitted out and furnished building according to Figure 19; Figure 23 is a plan view of a fitted out and furnished building according to Figure 20; Figure 24 is a plan view of a fitted out and furnished building according to Figure 21; Figure 25 is a schematic plan view of a complex which includes three buildings according to an embodiment of the present invention; Figure 26 is a plan view of one of the buildings of Figure 25; Figure 27 is a plan view of a building according to an embodiment of the present invention; Figure 28 is a plan view of a building according to an embodiment of the present invention; and Figure 29 is a plan view of a building according to an embodiment of the present invention.
Description of Preferred Embodiments
Referring to Figures 1 and 11 there is shown a building 10 according to an embodiment of the present invention. In this case the building 10 is a precinct in a village 100. The village 100 comprises a number of buildings 10. For example the precinct may be a mine site accommodation complex, a hotel, hospice or offices.
The building 10 comprises one or more clusters 12. In this embodiment a cluster comprises a plurality of similar usage areas. For example in an accommodation complex a living quarters may comprise usage areas that may be bed and bath rooms. The cluster comprises a plurality of banks 14, 14', 14", 14"' of modules. A bank 14 of modules comprises a plurality of modular building units 16. Every unit in the bank, and preferably in the cluster has the same dimensions. In this embodiment each bank 14 comprises three units 16 positioned end to end. Thus each bank has the same dimensions. Further in this embodiment each bank 14 comprises a mirrored usage area on each side of a corridor, which will be described further below. For example each bank may comprise living quarters on each side of a corridor. In this embodiment each cluster comprises a plurality (in this case ten) of banks 14 in a side by side arrangement. Further the cluster 12 comprises a bank 14"' on one side of the banks 14 and a bank 14" on either side of the banks 14"'/14. Further still the cluster
12 comprises a different usage type of bank 14' on either side of the plurality of banks 14". In this embodiment the banks 14' comprises a vertical access unit, such as a stair way or elevator. In this embodiment the clusters are offset and connected to each other by a cluster connection portion 20. In this embodiment cluster 12' is substantially a mirror of cluster 12. The mirroring need not be identical as described more in relation to Figure 8.
In an alternative or in addition a bank 14 may comprise a plurality of units 16 side by side as will be described in more detail below in relation to Figure 15.
In an embodiment each unit is of a unit type and each unit is configured according to its unit type. In an embodiment the configuration comprises one or both of internal wall configuration and external (permitter of the unit) wall configuration. In an embodiment each bank is of a bank type, where each bank type is defined according to the unit types of its units.
A bank 14 is shown in more detail in Figures 2 and 3. In this embodiment the bank 14 comprises unit 16A, which comprises a corridor 30 and entries 32 and 32'. On either end of unit 16A are units 16B and 16C, each of these comprises a bedroom 34/34' and bathroom 36/36'. In an alternative the corridor may be a service corridor and rooms 32 and 32' are the bathroom and room 36 and 36' are the entries. Also referring to Figures 4 and 5, each unit 16 comprises a structural frame 40 in the shape of a rectangular prism. Longitudinally disposed end faces of the frame have vertically extending support members 44. Such a suitable frame is of the type used in a shipping container. The longitudinal frame members have removable supports 52 extending vertically between them, which are used during transport of the unit and may be retained to provide additional support strength to the structure. However these supports 52 may also be removed leaving open the space 46 between the top and bottom longitudinal frame members. When the walls are removed leaving open space 46, this enables an area in the building to be larger than would otherwise be available. A bottom face of the frame has transverse support members 42. The top face of the frame may also have transverse support members. These support members 42 allow the floor of the unit to support sufficient weight and can also be used to mount a bottom level to a ground mounting system or to a level of units beneath.
For transport, and if desired to be used in the assembled building, the faces of the prism may have walls as shown in Figures 9, 10A and 1OB. In one embodiment an internal wall is provided inside of an outer wall. The outer wall is preferably suitable for transport of the unit in a weather exposed condition. In an embodiment the wall is formed of weathering steel, such as Cor-ten TM. In an embodiment the wall is formed of a fibre reinforced polymer. In an embodiment the outer wall is removable after transport or retained as a weather resistant outer wall in the building.
Also for transport the corners 50 of the unit 16 may have attachment points for lifting the unit to and from a transport vehicle, such as a truck, rail car, or ship, and for positioning in place in the building 10. The attachment points are in the normal form of "castings" using for shipping containers. In the sides of the longitudinal frame members 40 there are fork pockets for receiving tines of a forklift, the same as is a normal shipping container. The attachment points may also be used to secure adjacent units together in the building.
In an embodiment a portion of or the whole of the building is multistorey. In the embodiment shown in Figures 6 and 7 there are two stories. There may be more stories if desired. As shown, banks 14A, 14B and 14C each have respective banks 14AA, 14BB and 14CC on top so that there are two storeys. Bank 14A has end corridor unit 16A with a door to the exterior of the building, and lower stair well units 16BA and 16BA'. Above unit 16A in bank 14AA is an end corridor unit 16AB with a door to the exterior of the building and a hand rail. A top part of the stairwell units 16BA and 16BA' is in bank 14AA. A unit may be two storeys high to span two stories with a stair well or elevator shaft between the stories. An embodiment of a roof 60 is in two parts and spans bank 14AA. Each part is longer than the respective end building unit and partly covers unit 16AB.
Referring to Figure 8 a cluster connection portion 20 is shown in more detail. It can be seen that the end banks 14A are spaced apart, both axially and longitudinally. Opposite longitudinal walls of the respective clusters are aligned in this embodiment. A bridging bank 22 of units is provided to connect the banks 14A together. Each bank 14A abuts a respective half of the bank 22. The clusters are generally mirrored. However one of the clusters (or both if desired) may be provided with an overlapping bank 24 that overlaps the lower bank 14A. In this case the overlapping bank may provide a usage not required internally of the cluster or not required in each cluster. For example a laundry or lockers may be provided in the bank 24. Other variations include services (such as plumbing, electrical, air conditioning) or if made larger common access rooms can be provided, or universal access rooms or suites.
Banks may be wider than one unit. For example in Fig 12A the bank 14D is one unit wide for a first type of use. In Figure 12B the bank 14E is two units wide for a second type of use. In Figure 12C the bank is three units wide for a third type of use. It can be seen that the banks of whichever type are repeated within the cluster and at the end of each cluster there are different banks.
Wider banks or areas spread over a plurality of banks can allow for a greater range of usages or areas not constrained by building unit size size, which is the case with standard shipping containers, without structural modification of the container(s) particularly when the side walls are removed to produce open areas 46 between the banks of a larger dimension than the width of the unit. In other words a room can span two or more units.
Clusters may have more than one type of bank. For example in Figure 12D, the cluster 12G comprises types 14D, 14E and 14F. In these examples the end banks can be verandas in a single story building or can be stair wells in a multistory building. Alternatively they can be common areas. If secured during a storm or cyclone secured accessways will still allow movement within the building. In an embodiment a bank in the building may be a cyclone / hurricane shelter.
Referring to Figure 13 a plurality, in this example, 13 different types of unit can be available as stock units. This allows the building to be modularly design the building and for it to be built by following the following process: determining the usage requirements of the building in terms of types of areas within the building, from a plurality of available types; determining the space requirements of the building in terms of the number of each type of area within the building and size of each area of each type, where each type of area has a plurality of available sizes, the sizes available being smaller than, the same as or larger than a modular building unit; determining a composition of one or more required types of modular building unit and the number of each type of modular building unit to meet the determined usage requirements and determined space requirements, where the composition is selected form a plurality of stock types; obtaining the modular building units according to the determined type and number; transporting the modular building units to a building site; and assembling the modular units into the building.
In Figure 13 each of the types of unit is, by way of example: 0 - service corridor, with a 'wet area', for example a bathroom, on either side of the service corridor; 1 - carport; 2 - alfresco area; 3 - living room; 4 - dining room with kitchen bench; 5 - study or bedroom with veranda; 6 - bathroom/laundry with veranda; 7 - bathroom/laundry with passage; 8 - bedroom with bathroom; 9 - meals room with kitchen; 10- alfresco with barbeque area; 11 - entry veranda with stairs; and 12 - stairs entry and living area.
In this example, plain white areas may have a concrete floor, vertical shading may be a timber or similar floor, dotted areas are "dry area" floors (eg carpet) and square pattern is a "wet area" floor, with appropriate services (eg vinyl floors).
In Figure 12A, the bank 14D has type 5 units on either side of a type 0 unit.
Alternatively if a unit of non stock type is required the required number of units can be mass manufactured according to the requirements and then transported to the building site for assembly.
In an embodiment prior to transport one or more of the modular building units are packed into a container form for transport. In an embodiment prior to assembly the modular building units, one or more of the modular building units are unpacked from container form to an assemble-able form, without need for structural modification.
In an embodiment the method further comprises specifying internal spaces to conform to a grid dimensioned to the length and width of the modular unit. In an embodiment the method further comprises specifying internal spaces to conform to a grid dimensioned to the length and width of the modular unit, or standard fractions thereof. A standard fraction may comprise ', 1/3, or 1 . In an embodiment the grid is based on a unit size suitable for transport.
In an embodiment determining a configuration of the building comprises selecting a type of unit, wherein the unit type determines one or both of internal wall configuration and external (perimeter of the unit) wall configuration. In an embodiment determining the configuration comprises selecting a type of unit, wherein each bank type is determined according to the unit types of its units.
In an embodiment determining the configuration comprises selecting units such that selection of the unit designate whether a room in the building is a "wet area", such as for example a bathroom, including the wall and floor treatments and furnishings in the room.
In an embodiment determining the configuration comprises selecting units such that there is an area within the building larger than a dimension of the modular units.
In an embodiment the determined space requirements comprise determining that the units are to be stacked in the building.
Preferably the determined composition comprises determining a configuration such that the outer units of the bank are mirrored. In an embodiment the determined composition comprises determining a configuration such that each cluster comprises at least two banks of the same type.
In an embodiment the determined composition comprises determining a configuration such that a room in a cluster is defined by one of: a portion of a modular unit; a bank; a plurality of banks; a plurality of portions of modular units spanning a plurality of banks.
In an embodiment the determined space requirements comprises determining a configuration such that internal spaces with a dimension longer than the length of a modular building unit are constrained to a maximum dimension without an internal floor to ceiling support structure of the length of the modular building structure less the thickness of the support structure.
In an embodiment the determined composition comprises determining a configuration such that the building is multistorey, with support structures for the multiple stories being provided by structural supports in each modular unit.
In an embodiment the determined space requirements comprises determining a configuration such that an area is smaller than or the same size as a modular building unit, with multiples of the area repeating with end to end or side to side modular building units.
In an embodiment designing a building comprises: determining the area of the building which is a multiple of a floor area of a modular building unit, where the floor area may span a plurality of levels; determining the types of uses of rooms in the building, subject to a constraint of the determined area of the building; i) selecting a module type according to one or more of the determined types of room usage from a plurality of available module types; ii) selecting a number of the selected module type to accommodate a desired area of the room usage or usages for which the module type was selected; and iii) repeating the selection steps i) and ii)) so that each of the types of use of the rooms is accommodated in the area available within the building.
The modular building units used may be manufactured ready for assembly into the building, transported to the building site in a stackable manner and may be assembled into the building in a stackable manner.
Figures 14A to 14C show alternative lay outs of a dwelling. The dwelling may be stand-alone in a complex of similar dwellings or it may be a part of a cluster 18. Figure 14A comprises one modular building unit fitted out with an entry, bedroom and bathroom. It might be for example a hotel room or a single worker's quarters in an accommodation village. Figure 14B comprises of two side by side modular building units in a bank and is fitted out with an entry, bedroom, bathroom kitchen, living room and study. It might be a hotel suite or a supervisor's quarters in an accommodation village. Figure 14C comprises of three modular building units in a bank fitted out with an entry, bedroom, bathroom, kitchen, laundry, dinning theatre, study and living room.
It might be a hotel penthouse suite or a manger's quarters in an accommodation village. As shown in Figure 14D, in an embodiment, banks of these dwellings 102 may be arranged into buildings in an accommodation precinct building or hotel building 100, with connecting pathways/corridors 104. This floor plan may be repeated with stacked banks of building units many levels high.
Referring to Figure 15 there is shown a set of buildings 10A, 1OB, 10C and 1OD, each of which comprise an end to end bank 14 or an alternative side to side bank 14A. In an alternative bank 14A, the plurality of units 16 are side by side and the banks abut end to end.
Building 10A is one building in a cluster of buildings that have a dwelling density of R60, that is 60 dwellings are permitted in a 1 hectare (10000m2) area of land.
Building 10B is one building in a cluster of buildings that have a dwelling density of R40, that is 40 dwellings are permitted in a 1 hectare area of land. This building has two alternate banks 14A of three units side by side on a first level and one alternate bank of three units on a second level and one alternate bank of three units on a third level.
Building 10C is one building in a cluster of buildings that have a dwelling density of R30, that is 30 dwellings are permitted in a 1 hectare area of land.
Building 10D is one building in a cluster of buildings that have a dwelling density of R20, that is 20 dwellings are permitted in a 1 hectare area of land.
Figure 25 is another example of a complex 200 with three buildings of R40 density. Figure 26 shows the make up of each building from the unit types 3, 4, 2 (in the first alternative bank of 3 units) and unit types 8, 3, and 8 (in the second alternative bank of units). It can be seen the areas of units 3 and 4 are combined to form a large room and unit 4 and 3 have a joining doorway and that both of units 8 have joining door ways with unit 3. It can also be seen that the right side unit 8 is a mirror of left side unit 8.
Referring to Figure 16 to 18, a three story apartment building 110 is shown. In this embodiment the banks are formed of side by side modular units. In this case the widths of bank are the same, but in an alternative embodiment the width need not be the same in each bank.
The ground level is 112, the first level is 114 and the second level is 116. Figure 18 shows the removal of side/end panels used in transport in each back of the ground 112, first 114 and second 116 levels. This allows for larger internal areas or in the case of the units in the ground level side access to the units, such as for car parking spaces. Figure 17A shows the floor plan of the ground level 112 using the types of modular units in Figure 13. Figure 17B shows the floor plan of the first level 114 and Figure 17C shows the floor plan of the second level 116.
Figure 19 shows an alternative building comprising a bank of units in a side by side arrangement. In this building, notional unit types are 5, 8 and 9, with 2 of type 5 and type 8 being used, along with the removal of external walls between types 5 and 9, so as to produce a larger area internal to units 5 and 9. The external wall units may be surplus to the units transported. In an embodiment this building can be transported on a single move using a single vehicle (truck / road train). Figure 22 shows an example of how this might be laid out, with the fittings installed for transport and the furnishings, optionally, also packaged in the containers for transport.
Figure 20 shows an alternative building comprising two banks of units in a side by side arrangement, with the banks being offset by a unit width and with the units end to end. In this building, notional unit types are 1, 2, 3, 4, 7, and 8, with 1 of type 1, 2 of type 2, 2 of type 3, 1 of type 4, 3 of type 7 and 1 of type 8 being used, along with the removal of external walls between the 2 type 2 units and the type 4 and 8 units, so as to produce a larger area internal to units 2-2 and 4-8. The external wall units are surplus to the units transported. In an embodiment this building can be transported on a single move using two vehicles (truck / road train). Figure 23 shows an example of how this might be laid out, with the fittings installed for transport and the furnishings, optionally, also packaged in the containers for transport.
Figure 21 shows an alternative building comprising three banks of units in a side by side arrangement. In this embodiment two banks are perpendicular and a shorter bank is end to end with one bank and offset from the other bank by a unit width. In this building, notional unit types are 1, 2, 3, 4, 5, 7, 8 and 9, with 2 of type 1, 2 of type 2, 3 of type 3, 1 of type 4, 2 of type 5, 1 of type 7, 2 of type 8 and 1 of type 9 being used, along with the removal of external walls between types 1 and 1, 2 and 2, 3 and
3 and 3 and 4, so as to produce a larger area internal to units 1-1 2-2, 3-3, 3-4. The external wall units are surplus to the units transported. In an embodiment this building can be transported on a single move using three vehicles (truck / road train). Figure 24 shows an example of how this might be laid out, with the fittings installed for transport and the furnishings, optionally, also packaged in the containers for transport.
Figure 27 is another example building of R20 density and is assembled from four alternative banks of three side by side units. The first bank is assembled from unit types 1, 1 and 0. The next bank is assembled from unit types 4, 3, and 5'. The next bank is assembled from unit types 2, 2, and 0. The final bank is assembled from unit types 5', 5', and 5'.
Figure 28 is another example building of R30 density where each level has a common area 202 and two individual bedrooms adjacent to each staircase.
Figure 29 is a further example building of R30 density similar to Figure 28 with a different floor plan.
The transportability of the units may also be useful not just to construct a build, but also to move the building to a different location, or to break up the building and reuse the modular units on one or more other buildings of different design.
The modular building unit are suitable for transport by road, rail and ship. The dimensions of each unit may be for example 3.3m x 6m, 3.4m x 6m, 3.6m x 7.2m, 3.7m x 7.3m, or otherwise.
Modifications may be made to the present invention with the context of that described and shown in the drawings. Such modifications are intended to form part of the invention described in this specification.

Claims (9)

Claims
1. A building structure formed of one or more elongate clusters, each cluster comprising
a plurality of side by side module banks, each module bank formed of end to end modular
building units, wherein at least one modular building unit of each bank is a corridor building
unit that comprises a portion of a corridor that spans at least two banks, wherein the corridor
building unit of each bank also comprises part of a room on both sides of the corridor,
wherein at least two of the side by side banks repeat at least once in the elongate cluster.
2. A building structure according to claim 1, wherein at least two of the side by side
modular building units in each of the repeated side by side banks form a room spanning the
at least two of the side by side modular building units in each of the repeated side by side
banks.
3. A building structure according to claim 1 or 2, wherein a modular building unit on
each side of the corridor building unit is mirrored in each of the repeated side by side banks.
4. A method of forming a building comprising:
providing a plurality of different predetermined modular building unit types, wherein at least
one of the types of modular building units is a corridor type which comprises a portion of a
corridor extending transverse to the length of the modular building unit and between the
sides of the modular building unit, and the corridor type of modular building unit further
comprises a part of a room on both sides of the portion of the corridor;
determining the usage requirements of the building in terms of types of areas within the
building from the plurality of the different predetermined modular building unit types;
determining the space requirements of the building in terms of the number of each type of
the determined types of areas within the building and size of each type of area, where each type of area has a plurality of predetermined available sizes, the sizes available being smaller than, the same as or larger than a modular building unit; determining which of the plurality of the predetermined of modular building unit types are to be used in the building and the number of each type of modular building unit to meet the determined usage requirements and determined space requirements; obtaining the modular building units according to the determined types and determined number of each type; transporting the modular building units to a building site; and assembling the modular units into the building which comprises at least one corridor formed of at least two adjacent side by side corridor type modular building units which repeat at least once in the elongate cluster; wherein a respective determined area is formed by a respective one of the part of a room on both sides of the portion of the respective portion of the corridor, wherein the modular building units are assembled to form the building according to the determined space requirements.
5. A method according to claim 4, wherein the method further comprises specifying
internal spaces defined by an internal wall to conform to a grid dimensioned to a fraction of
the length and or a fraction of the width of the modular building unit.
6. A method according to claim 4 or 5, wherein determining a configuration of the
building comprises selecting a type of unit, wherein the unit type determines the internal wall
configuration, where an end of an internal wall defines an opening in the modular building
unit, which will be internal to the building when the building is assembled.
7. A method according to any one of claims 4 to 6, wherein modules in the plurality of
different predetermined modular building unit types further comprise: a dry use unit; a wet
use unit; a partly wet and partly dry use unit, separated along the length; a part inside use area and a part outside environment use area unit, separated along the length; a corridor unit with rooms on either side of the corridor and entry doors to each room; and a corridor unit with services accesses to wet use areas on either side of the corridor.
8. A method according to any one of claims 4 to 7, wherein the building comprises
assembling at least two side by side building units with a room extending across the building
units, and the at least two side by side building units form a repeating arrangement of
building units, wherein the repeating arrangement of building units is repeated side by side
at least once.
9. A building formed by performing the method according to any of claims 4 to 8.
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