Material delivery systems as well as systems and methods relating thereto are disclosed. In an embodiment, the material delivery system includes a tank to hold water therein. In addition, the material delivery system includes a hopper to hold dry ingredients of the extrudable building material therein. Further, the material delivery system includes a mixing unit to receive water from the tank and dry ingredients from the hopper. The mixing unit includes an agitator to mix the water and the dry ingredients together to form the extrudable building material. Still further, the material delivery system includes a controller coupled to the agitator that is to: measure a load imparted to the agitator by the extrudable building material, add additional water to the mixing unit when the load is above a first threshold, and add additional dry ingredients to the mixing unit when the load is below a second threshold.

Disclosed herewith a modular integrated building and a construction method thereof. The building includes multiple prefabricated room units, each provided with reserved, exposed reinforcing bars at its top. A bottom of a load-bearing structure of the prefabricated room unit is embedded with grouting couple shafts. Reinforcing bars of the load-bearing structure and of the prefabricated room unit of a next floor are inserted in inner grouting chambers of the grouting couple shafts to connect two prefabricated room units of adjacent floors together. A cast-in-situ concrete interlayer is arranged for connecting adjacent prefabricated room units of a same floor together. The on-site workload is reduced significantly, the construction period is shortened greatly, and the construction is convenient and rapid.

Methods for designing a bio-climatically adapted affordable Zero-Energy prefabricated modular building such as for housing, in which a Layered disposition of Envelope elementsincluding Structural Insulated Panelsin the wall, floor and roof sections, provide a highly energy-efficient Building Envelope, which together with a modular building Support Structure including Aeriated Frames, and an adequately sized renewable energy power generator system, inexpensively achieves the energetic independence of the building. In these methods, different possible configurations of the relevant elements of the Building Envelope, the building structure and the renewable power generator system are evaluated, discarding those configurations which don't meet the defined acceptable criteria for energy-efficiency, thermal isolation and water condensation risks. The building has a low environmental impact thanks to reduced greenhouse emissions during its construction and its useful life.

This invention relates to a versatile, modular building system for constructing a building frame. The components of the modular system are formed from high-density materials, and include one or more base units, one or more floor units connected to the base units, a plurality of end panel units, the end panels units connected to the base units and/or floor units, at least one front beam unit, the front beam unit adapted to connect to at least two end panel units, and one or more front panel units, the front panel unit adapted to connect to at least two end panel units and/or at least one floor unit. Also described are various additional modular units that may be incorporated into the modular building system described. The modular system is designed to be pre-fabricated off site and quickly erected on building sites with a range of contours.

The present invention discloses a prefabricated module, including a bottom plate, a left side plate, a top plate, and a right side plate. The bottom plate, the left side plate, the top plate, and the right side plate are connected in sequence to form a closed loop. Filling internal molds are provided inside the bottom plate, the left side plate, the top plate and the right side plate. The filling internal molds are provided with a plurality of through holes. Tensile members are further provided inside the prefabricated module, the tensile members are continuously distributed inside the bottom plate, the left side plate, the top plate and the right side plate, and the tensile members are connected end to end. The filling internal molds and the tensile members are encapsulated inside an inorganic composite material. The structure of the prefabricated module can improve the strength and reduce the weight.

Material delivery systems as well as systems and methods relating thereto are disclosed. In an embodiment, the material delivery system includes a tank to hold water therein. In addition, the material delivery system includes a hopper to hold dry ingredients of the extrudable building material therein. Further, the material delivery system includes a mixing unit to receive water from the tank and dry ingredients from the hopper. The mixing unit includes an agitator to mix the water and the dry ingredients together to form the extrudable building material. Still further, the material delivery system includes a controller coupled to the agitator that is to: measure a load imparted to the agitator by the extrudable building material, add additional water to the mixing unit when the load is above a first threshold, and add additional dry ingredients to the mixing unit when the load is below a second threshold.

An affordable Zero-Energy prefabricated modular building such as for housing, in which a Layered disposition of Envelope elementsincluding Structural Insulated Panelsin the wall, floor and roof sections of the building's thermal Envelope, provide a highly energy-efficient Building Envelope, which together with a modular building Support Structure including Aeriated Frames, and an adequately sized renewable energy power generator system, inexpensively achieves the energetic independence of the building. A method is disclosed for the adaptation of the building's design and construction to the bio-climatic conditions of its projected location, in which different possible configurations of the relevant elements of the Building Envelope, the building structure and the renewable power generator system are evaluated, discarding those configurations which don't meet the defined acceptable criteria for energy-efficiency, thermal isolation and water condensation risks. The building has a low environmental impact thanks to reduced greenhouse emissions during its construction and useful life.

An entertainment structure includes an offset core, a floor tying assembly and a plurality of floor plate assemblies. The plurality of floor plate assemblies each include a first edge and a second edge. The first edge of each of the plurality of floor plate assemblies is configured to be coupled to the offset core and the second edge of each of the plurality of floor plate assemblies is configured to be coupled to the floor tying assembly.

A shelter, comprising: a foundation system configured to be filled in-place at a construction site with concrete; and a structure mounted to the foundation system, the structure walls and a roof comprising rigid foam insulation plastered with continuous filament winding (CFW), wherein the foundation, walls and roof comprise seamless transitions there between. A method of fabricating a shelter, comprising of a rail system for pressing and gluing together foam walls, floor, ceiling, roof and foundation into a full structure. A foundation for a shelter, comprising: a portable tray configured to support the shelter, the portable tray comprising an interior configured to be filled or injected with a mass, and anchor elements configured to be anchored to an underlying formation. A modular tiling system that can be integrated into the foundation, comprising of movable functional components comprising a toilet, sink, speaker, lights, furniture, electronic equipment, cooking surface, lock box, trash bin and HVAC.

Disclosed herewith a prefabricated bathroom and a construction method and an installation method thereof. The prefabricated bathroom includes a bottom unit (11), multiple wall units (12) and a top plate unit (13). One of the wall units (12) is a structural wall (14), which is provided with a recessed top region (141) reserved for later pouring, a middle full-prefabricated structural wall body (142), and a recessed bottom region (143) reserved for later pouring. Top exposed reserve bars (144) of the prefabricated bathroom of a floor are inserted into the recessed bottom region (143) of the prefabricated bathroom of a next floor, and connected with bottom exposed reserve bars (146) thereof, so that the prefabricated bathroom of said floor can be connected with that of said next floor through pouring concrete in the recessed top region (141) and the recessed bottom region (143).