RU2008107729A - TECHNOGENICALLY RESISTANT BIOSPHERE MULTIFUNCTIONAL BUILDING - Google Patents

Abstract

1. A technologically stable biosphere multifunctional building with a peripherally closed at least two-story, domed roofed building with a domed courtyard, green spaces and greenhouses and a life support system connected to the atmosphere through at least the upper channel in the dome connected to the wind turbine located on the dome , characterized in that mainly in the central part of the courtyard is installed at least one dome and sleep connected to the specified channel The internal support of the dome, tightly connected to the dome in its upper part and at least two levels in height of the courtyard with a peripherally closed structure, by means of power jumpers radially oriented towards the internal support of the dome, the upper ones of which are kinematically connected, by the air, hydraulic and heat transfer channels of the life support system with the upper part of the power spatial contour of the building and with the upper part of the internal support of the dome, and the lowest with the lower part, for example, made in pounds HTE, spatial power circuit, forming a single closed sensing various types of stress (expansion / contraction, bending, shear, torsion) surround a frame structure of the building. ! 2. The technologically stable biosphere multifunctional building according to claim 1, characterized in that on the internal support of the dome at different levels, the platforms surrounding it are kinematically connected to the power circuits of the peripheral building with radially oriented, mainly horizontal, power jumpers made in the form of lake

Claims (14)

1. A technologically stable biosphere multifunctional building with a peripherally closed at least two-story, domed roofed building with a domed courtyard, green spaces and greenhouses and a life support system connected to the atmosphere through at least the upper channel in the dome connected to the wind turbine located on the dome , characterized in that mainly in the central part of the courtyard is installed at least one dome and sleep connected to the specified channel The internal support of the dome, tightly connected to the dome in its upper part and at least two levels in height of the courtyard with a peripherally closed structure, by means of power jumpers radially oriented towards the internal support of the dome, the upper ones of which are kinematically connected, by the air, hydraulic and heat transfer channels of the life support system with the upper part of the power spatial contour of the building and with the upper part of the internal support of the dome, and the lowest with the lower part, for example, made in pounds HTE, spatial power circuit, forming a single closed sensing various types of stress (expansion / contraction, bending, shear, torsion) surround a frame structure of the building. 2. The technologically stable biosphere multifunctional building according to claim 1, characterized in that on the internal support of the dome at different levels, the surrounding platforms are made kinematically connected to the power circuits of the peripheral building with radially oriented, mainly horizontal, power bridges made in the form of green pedestrian crossings on floors and roof of the peripheral building, which is equipped mainly in the form of a single or multi-level park recreation area and / or greenhouse. 3. The technologically stable biosphere multifunctional building according to claim 1, characterized in that the lower level power jumpers are made in the form of radial transport-pedestrian and technical tunnels and utilities associated with the technical room located in the lower part of the dome’s internal support with engineering equipment made with the possibility of its controlled connection / disconnection or connection / disconnection to the external environment of the building through the channels of the internal support, wind turbine dome and the foundation of the technical facilities of the building with external underground sewage utilities, water, electricity, etc. 4. Technologically stable biosphere multifunctional building according to claim 1, characterized in that the outer wall of the peripheral building is made inclined to the pipe support of the dome mainly with a smooth transition to the surface of the dome. 5. The technologically stable biosphere multifunctional building according to claim 1, characterized in that the internal space of the building between the peripherally enclosed structure, the internal support of the dome and the radial power bridges is divided into sectors and interfloor spaces of different functional purpose, united by both common transitions and utilities closed to the inner space and engineering equipment of the inner support, and at least one sector or interfloor space is made with the possibility of isolating it from other rooms. 6. Technologically stable biosphere multifunctional building according to claim 1, characterized in that the courtyard of the building is multilevel in height of the internal support of the dome and the peripherally enclosed structure. 7. The technologically sustainable biosphere multifunctional building according to claim 1, characterized in that the internal space of the building is configured for daylight passing through the dome to the entire depth of the courtyard of the building, the lower level of which is, if necessary, carried out on the roof of one of the lower floors of a peripherally closed building . 8. The technologically sustainable biosphere multifunctional building according to claim 1, characterized in that the green spaces of the courtyard of the building and their corresponding water pools are located under a transparent dome and are made on roofs of a peripherally closed structure of different levels in height, radial lintels, ring platforms of the dome’s internal support and horizontal courtyard areas lit directly through the dome. 9. The technologically sustainable biosphere multifunctional building according to claim 1, characterized in that the internal support platforms, radial passages and the roof of the peripherally closed building under the dome and the yard are equipped with an automatic irrigation system for the green spaces of the building and fire fighting, and the premises of the courtyard and the peripherally closed building are combined through channels of the dome’s internal support into a unified system of maintaining the specified microclimate in the premises of the building and in the courtyard. 10. The technologically stable biosphere multifunctional building according to claim 1, characterized in that the peripherally enclosed building is equipped with radial power pylons rigidly connected to the foundation and bearing pylons that are kinematically rigidly connected by means of ceilings, forming a vertical power rim common to them connected to different height levels with the internal support of the dome by power bridges with the formation of a single spatial power caracas of the building, with the space above the foundation m forward pylons equipped with entrances, lifts and ramps inside the building. 11. The technologically stable biosphere multifunctional building according to claim 1, characterized in that the building is made with the possibility of modular execution of sections having, in terms of plan, a predominantly semicircle and rectangle shape, having a single configuration at the junctions, and with an internal engineering module common to the sections dome supports. 12. The technologically sustainable biosphere multifunctional building according to claim 1, characterized in that in the basement floor of the building’s foundation in the area of the internal support there is a power supply system of the building with a multi-level heat accumulator, a system for the environmentally friendly disposal of wastewater and household waste, microclimate equipment in the yard and the premises of the building, for heat, air, air conditioning and electric energy, associated with the channels of the internal support through utilities, mainly They are located essentially in the power radial bridges connecting the peripheral structure with the internal support of the dome and through it with atmospheric space, alternative energy sources (photoelectric, wind, thermal, etc.) and underground external communications. 13. Technologically stable biosphere multifunctional building according to claim 1, characterized in that the channel of external communications on water, heat supply and sewage is made passing through the basement directly under the radial power jumpers, made in the form of transport passages. 14. The technologically stable biosphere multifunctional building according to claim 1, characterized in that at least the outer surface of the inner dome support is provided with artificial lighting sources installed mainly along the entire height of the inner dome support with the possibility of controlling the light flux by the time of day, by the height of the courtyard, with the possibility of lighting the dome and the dome space, including the preset program in the light show mode.