Block construction of prefabricated buildings is disclosed. A building is constructed by the following steps. A plurality of structural units are assembled into a plurality of volumetric blocks. The structural units fabricated separately prior to assembly into the volumetric blocks. The volumetric blocks are assembled into a building frame. At least one non-structural module is inserted into the building frame. The non-structural module is affixed to one or more of the volumetric blocks.

The present application relates to a volumetric module constructed from a module chassis, an exterior wall attached to at least a portion of the module chassis, a floor assembly attached to at least a portion of the module chassis, and a faade adjustably attached to at least a portion of the module chassis. The volumetric module may be configured to interface with a separate accommodation module.

Techniques for automatically modulating a physical configuration of a reconfigurable building structure. A reconfigurable building structure may be constructed of physical elements that are movable with respect to one another to facilitate actuating the reconfigurable building structure between a plurality of different physical configurations. The physical configuration of a reconfigurable building structure may be adjusted to accommodate for physical dimensions of an item that is going to be moved into the reconfigurable building structure. For example, a spacing between two shelves may be expanded in response to an order being placed for a large item. In this way, when the item is delivered to a physical address associated with the reconfigurable building structure, various physical characteristics of the reconfigurable building structure may have already been modulated to accept the item.

Disclosed are various embodiments of a modular building structure including modular cartridges. In one example, a modular residential structure comprises a systems cartridge that is configured to provide a number of services for the modular residential structure. A spine cartridge is configured to be attached to a top of or a bottom of the systems cartridge. The spine cartridge comprises conduits for conveying the services from the systems cartridge to a number of access points. A planar wall can be configured to form a portion of the modular residential structure. The systems cartridge, the planar wall, and the spine cartridge can be prefabricated at an off-site location. The systems cartridge can be attached to the spine cartridge at an on-site location.

The present invention relates to a design structure of an apartment house in which a plurality of apartment units, each of which is a maisonette in which two floors including an upper floor and a lower floor are combined into a single apartment unit, are repeatedly arranged in vertical and horizontal directions, wherein, in the design structure, each apartment unit has a living room disposed on the upper floor and a plurality of bedrooms disposed on the lower floor, double pillars spaced apart from each other are installed on side boundaries of adjacent apartment units, the double pillars include a pair of first pillars disposed inside an apartment unit and a pair of second pillars disposed outside the apartment unit and disposed inside another apartment unit adjacent thereto, a first beam member, which serves as a structure carrying a load, is connected to and installed at the first pillar, a second beam member, which serves as a structure carrying a load, is connected to and installed at the second pillar, and a double pillar connecting beam configured to connect the first pillar and the second pillar is additionally provided on a side surface of a slab of the lower floor.

The present disclosure describes a modular building system and method adapted to achieve a more efficient and durable longer-term building solution that can resist adverse weather conditions, natural disasters, and common building material degradation for years or decades, and can be built on remote sites that may otherwise be cost prohibitive to build permanent structures using more conventional building methods. In accordance with an illustrative embodiment, the modular building system comprises of a modular unit that is formed into a unitary building structure that may be interconnected laterally or vertically to form two or more floors.

A kit for constructing a building may include an intermodal container. The intermodal container may include four exterior walls forming a perimeter of the intermodal container, a floor connected to each of the four exterior walls, and a roof connected to each of the four exterior walls. The four exterior walls, the floor, and the roof collectively define an interior volume of the intermodal container. The kit may also include a plurality of structural building components disposed within the interior volume. When the building is constructed with the structural building components, at least one of the four exterior walls of the intermodal container is repurposed as an interior wall of the building.

The present invention belongs to the technical field of architectural design, and provides a folding industrialized precast temporary house module, comprising: external windows, a floor, a roof, a side wallboard and a roof tarpaulin, wherein each of the floor, the roof and the side wallboard is provided with a window and a door as required. The arrangement of modular temporary dwelling units is realized in a standardization production mode adopting a high-strength external light thermal insulation wallboard, and meanwhile, the folding process in installation or removal is simplified to an optimal process. The temporary house module of the present invention realizes simple assembly, transportation, storage, recycling and reuse through the full industrialization production of modular units, greatly improves the dwelling function of temporary houses, and realizes the sustainable reuse of temporary houses, thereby meeting higher economic requirements.

A modular housing system and methods for using the same are provided. In accordance with some embodiments of the disclosed subject matter, the modular housing system comprises: a plurality of prefabricated system modules that are vertically aligned with each other and joined with a first fastener assembly to form a central system module having a front perimeter portion and a rear perimeter portion; a mechanical, electrical, and plumbing (MEP) module that is connected to the rear perimeter portion of the central system module; an elevator module that is connected to the front perimeter portion of the central system module; and a plurality of prefabricated housing modules that are connected to the central system module, the MEP module, and the elevator module, wherein each of the plurality of prefabricated housing modules is vertically aligned with each other to form a stacked housing unit and joined to the central system module and the elevator module with a second fastener assembly.

Embodiments herein relate to a dwelling device (100) having a plurality of unilaterally open dwelling units (110, 110, 110) for temporary accommodation of one or more people. Each dwelling unit (110) comprises a uniform hexagonal honeycomb-shaped outer profile (120) with a base panel (111), a screen panel (112) arranged parallel to the base panel (111), as well as two upper and two lower side panels (113, 114, 113, 114) connecting the base panel (111) and screen panel (112) in the area of the opposing side edges (115, 115). Each dwelling unit is made of a material whose stability is dimensioned to ensure both the stability of a dwelling unit (110) as a single piece of furniture as well as an adjacent vertical stacking of a plurality of dwelling units (110, 110, 110) without further aids in a safe manner. A robust design, which makes a vertical stacking on top of each other possible, is achieved by the hexagonal honeycomb-shaped wall of the dwelling unit (110) being integrally formed as a single piece and by the wall being made of a carton material.