The present invention provides a foldable and framed wall assembly comprising: a wall frame and at least one wall skin, the wall frame including an upper beam, a lower beam, at least one middle beam, and multiple short rods to connect the upper beam, the lower beam, and the middle beam together. In addition, the wall frame can be folded up for easy transportation and handling, and the wall skin has conventional building acoustic and thermal insulation material attached to the inside and a latch to connect with the frame and looks basically indistinguishable from normal wall skin after installation. Through those structure, the workers can quickly build a wall with strength not much different from a normal wall, while the foldable frame ensures that the wall can be prefabricated in advance in the factory, which can also significantly improve the transportation efficiency.

Methods for constructing a building module which is a sandwich panel comprising a first region which provides part of the roof structure of a building, a second region which provides part of the wall structure of building, and a third region which provides part of the floor structure of the building.

The Invention is a panel of modular pieces that can be assembled into a series of different useful objects that include a chair, table, wall, car chassis and a series of additional items that efficiently accomplish desired outcomes without the need for tools, nails or significant additional pieces. One side of the panel is fully flat to allow for smooth outward facing surfaces on constructions, while the other side has holes that can be used to affix knobs, secure the panels to each other to secure them in a manner that accomplishes a useful purpose with modular poles, snaps, hinges and bearings.

Modular wall panels having a frame of a plurality of frame components and at least one wall sheet affixed to the frame. The frame components may have angled ends, straight ends, or a combination thereof to collectively form a frame which may include corners. Each frame component includes an outer surface with at least one aperture configured to receive and retain an insert therein. The apertures are also configured to permit a cable(s) to pass therethrough for running cables and such through the interior of the wall panel. Connectors and spacers may be inserted into the apertures as inserts and bridge between adjacent panels to selectively connect the panels. Caps may be placed in empty apertures to cover the openings for aesthetic purposes. A wall system includes a plurality of such wall panels connected to one another along the outer surfaces of the frame components of their respective frames.

A hollow plastic wall panel, the panel having a length greater than a width, a thickness less than the width, a front wall, an opposite back wall and opposed first and second long edge regions, wherein the panel comprises a first end and a longitudinally opposite second end, wherein the first long edge region defines at least one first recessed portion to longitudinally receive and mate with a first longitudinal support structure and wherein the second long edge region defines at least one second recessed portion to longitudinally receive and mate with a second longitudinal support structure.

The present disclosure discloses a fabricated air conditioner wall and an operation method thereof, and the fabricated air conditioner wall included a precast wall and a heat pump system embedded in the precast wall. The components of the fabricated air conditioner wall are mass-produced and assembled in factories. The fabricated air conditioner wall mainly includes an indoor heat exchanger, a throttle valve, a condensate water tank, a four-way valve, a wall-buried pipe, a compressor, and an outdoor heat exchanger. In a cooling mode, condensate water is collected in the condensate water tank to cool the refrigerant. In winter, when the precast wall is illuminated by sunlight, a temperature of an outer wall is often higher than a temperature of outdoor air, and this solar energy can be reasonably utilized by the wall-buried pipe, thereby improving the heating effect of the air conditioner itself.

A shell system for a building, facilitating internal bottom-up flow of air inside the shell system, the shell system includes a plurality of modular thermal panels, and connecting means for interconnecting the plurality of modular thermal panels or a portion thereof Each of the modular thermal panel includes an enclosed frame having two side faces, a top face and a bottom face, wherein two openings are formed in the frame's faces: a sealingly enclosed internal face and a sealingly enclosed external fac wherein an inner gap, filled with air, is formed between the internal face and the external face. At least one frame-opening is formed in each of the faces of the frame, allowing air to flow between adjacent modular thermal panels, that are sealingly interconnected, while allowing the inner air flow.

A building module which is a sandwich panel comprising a first region which provides part of the roof structure of a building, a second region which provides part of the wall structure of the building, and a third region which provides part of the floor structure of the building.

There is disclosed a method of constructing a building, comprising installing: wall structure of the building, the wall structure comprising a panel having opposed skins and a core within which extends at least one cavity; and a ceiling structure of the building, such that the ceiling structure is adjacent the wall structure, and the wall structure bounds a space at a side of the space and the ceiling structure bounds the space at a top of the space, and such that: the space is sheltered and/or isolated from the elements; and/or lock-up is attained in respect of said space, the method further comprising: thereafter installing at least one service line through at least one said cavity of said panel and/or installing at least one service line which comprises at least one said cavity of that panel; and thereafter installing a roof structure of the building over the ceiling structure, wherein a connector is secured between the wall structure and the ceiling structure to form therebetween a connection which is such that the connector engages both the ceiling structure and at least one of the skins so as to direct, to the skin(s) engaged thereby, loading exerted by the ceiling structure, and wherein said at least one said cavity is accessed through said connector and/or through said ceiling structure, to install the service line(s).

Construction panel for use as a self-supporting wall or roof panel having a high thermal insulation, comprising a base layer (1) of foamed material provided on both sides with a cover layer (2, 3) of fibre-reinforced, thermo-setting sheet material. The transverse surfaces are covered with a layer of polyurea, polyester or epoxy (5, 7).