The disclosure relates to a platform for the space-saving formation of an energy conversion system. In this, containers are stacked one above the other as housings of components of the energy conversion system with the platform arranged between the containers, wherein the platform has a frame structure which has, on a first side, first alignment elements for placing the platform on a first container and, on a second side, opposite the first side, of the frame structure, second alignment elements for placing a second container on a placement area of the frame structure. The first and second alignment elements are arranged in such a way that they result in an arrangement, which is laterally centered and vertically spaced apart by a height (H) of the platform, of the second container above the first container, wherein the frame structure forms a standing area, which circumferentially surrounds the placement area and is walkable by persons, as access to the second container. An energy conversion system can be designed as a stack of at least two containers as housings of components of the energy conversion system, between each of which containers such a platform is arranged.

Provided is a portable facility (1) including: a power generation unit (3) and a function unit (5), wherein the power generation unit (3) includes a transportable first housing (H1) and at least one power generation device attached to the first housing (H1), the first housing including a top wall (15), a bottom wall (17), and a surrounding wall (19), the at least one power generation device being one or more of a wind power generation device (7), a solar power generation device (9), and a hydraulic power generation device, and the function unit (5) includes a transportable second housing (H2) and an electric apparatus (11) disposed inside the second housing (H2) and configured to be powered by the power generation unit (3) to operate, the second housing including a top wall (15), a bottom wall (17), and a surrounding wall (19).

A modular multi-container housing structure connector for containers, which each have sides including a roof, a floor, and four lateral sides, includes a connector frame comprising vertical and horizontal struts shaped to connect to at least one of the sides of two adjacent containers and at least one interlock configured to secure the connector frame to the side of one container. The at least one interlock may be a plurality of interlocks. The connector frame may comprise two vertical struts and two horizontal struts each shaped and configured to connect to a respective edge of an adjacent side of two adjacent containers and, responsive to the connector frame being connected to two adjacent sides of two adjacent containers by the plurality of interlocks, the connector frame and interlocks form a container-to-connector frame-to-container connection to establish a weather-tight housing structure with the two or multiple connected containers.

A modular multi-container housing structure connector for containers, which each have sides including a roof, a floor, and four lateral sides, includes a connector frame comprising vertical and horizontal struts shaped to connect to at least one of the sides of two adjacent containers and at least one interlock configured to secure the connector frame to the side of one container. The at least one interlock may be a plurality of interlocks. The connector frame may comprise two vertical struts and two horizontal struts each shaped and configured to connect to a respective edge of an adjacent side of two adjacent containers and, responsive to the connector frame being connected to two adjacent sides of two adjacent containers by the plurality of interlocks, the connector frame and interlocks form a container-to-connector frame-to-container connection to establish a weather-tight housing structure with the two or multiple connected containers.

A system, elements of the system and a method of forming scalable, compatible and resilient building structures. Preferably, one or more of (i) standard intermodal containers or racks (steel cuboidal versions as well as flat racks typically used on cargo ships); (ii) pallet racks (steel frame versions typically used in warehouses), and/or (iii) boat storage racks (steel frame versions typically used in marinas) are utilized to form a main structure/assembly (e.g., outer shell or frame) of a building structure that is easily assembled with width ranges from, for example, 24 feet wide to 40 feet wide, a length of 40 feet or longer and multiple stories or levels (e.g., 2 to 4 stories or levels). Preferably, existing portions of containers and associated racks are used to interconnect these members/elements (e.g., casting corners or fork-lift receiving channels/sections/portions) to form scalable, compatible and resilient building structures.

A modular multi-container housing structure connector for containers, which each have sides including a roof, a floor, and four lateral sides, includes a connector frame comprising vertical and horizontal struts shaped to connect to at least one of the sides of two adjacent containers and at least one interlock configured to secure the connector frame to the side of one container. The at least one interlock may be a plurality of interlocks. The connector frame may comprise two vertical struts and two horizontal struts each shaped and configured to connect to a respective edge of an adjacent side of two adjacent containers and, responsive to the connector frame being connected to two adjacent sides of two adjacent containers by the plurality of interlocks, the connector frame and interlocks form a container-to-connector frame-to-container connection to establish a weather-tight housing structure with the two or multiple connected containers.

The invention is directed broadly to a modular housing system having a structural framework comprising an internal chassis as a core structural element, the internal chassis including: a first ladder frame that defines a base; four columns at least two being extendable columns; and a second ladder frame engaged to the first ladder frame via the four columns, such that at least one of a distance and an angle between the first ladder frame and the second ladder frame is adjustable to define a usable volume of the structural framework.

A cover assembly is disclosed. The cover assembly may cover a gap between a first container and a second container. The cover assembly may have a first rigid element. The cover assembly may also have a second rigid element. Further, the cover assembly may have an elastic body. The elastic body may be positioned between the first rigid element and the second rigid element. The cover assembly may also have a bolt. The bolt may connect the first rigid element with the second rigid element.

A multi-family building structure using light weight prefabricated parallel modular living units is provided. The structure comprises at least first plurality of parallel modular living units and a second plurality of parallel modular living units. Each living unit in the first plurality of living units comprises a first outer and inner modules and a first synthetic residential module between the first outer module and the first inner module. Each living unit in the first plurality of living units comprises a second outer and outer modules and a second synthetic residential module between the second outer module and the second inner module. The structure further comprises a synthetic corridor module formed between the first inner module of the each living unit in the first plurality of living units and the second inner module in the second plurality of living units.

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.