Abstract: A modular mobile temporary structure is provided with a plurality of primary modules. Each module includes a housing formed utilizing an intermodal shipping container, with the plurality of primary modules forming a base and an outside periphery of a temporary structure. A lightweight pneumatic frame consists of multiple inflatable elements, and a sealing tent. The pneumatic frame forms a dome of the temporary structure, and the inflatable elements are connected to each other and to the base. The sealing tent interconnects the inflatable elements and covers an exterior of the temporary structure to protect an interior of the structure from atmospheric factors.
Abstract: A modular shading facade spaced from a building wall includes multiple decorative modules. Each module is formed by a rigid frame with outwardly extending legs connected to the frame by multiple receiving brackets. Each receiving bracket has a base and a stepped region formed by two angle shaped parts disposed at an angle to each other to define an open space for receiving the respective leg. A primary bracket is defined by a base with a primary socket attached to the base for inserting said legs. The primary bracket is connected to a facade frame.
Abstract: The method of the invention optimizes logistics of prefabricated modules delivery to a building site. The method of the uses the pre-fabricated sets of the multiple elements prepared at the building site including: the modules, the slabs with apertures for the installation of columns, the foundation with capping, and the columns which are preferably. The columns are fabricated with the internal channels for water runoff. During installation the columns are joined by the diagonal braces. The roofing slab modules are mounted to provide connection with the internal channels in the columns. The utility modules are provided with a control system having the software to allow control of the electrical and water supply systems.
Abstract: A construction magnetic panel is provided having a flexible base formed with front and internal sides and including magnetic particles placed within the body of the panel. The magnetic particles are operated within a working temperature range between ?60 and +120° C., whereby the magnetic particles are characterized by the maximum energy product (BH)max within the range between 2,0 and 100,00 kJ/m3 and are capable of magnetic interaction with external magnetically susceptible materials.