RU2010125857A - MOBILE SUNNY HOUSE - Google Patents

Abstract

 A building characterized by the fact that it contains 4 sections measuring 2.5 m by 2.5 m in plan and 3.3 m in height each, connected to one residential unit and a combined solar power installation for energy, heat and water supply to the house; vertically, the living cell is divided into a residential area 2.2 m high and underground, with equipment located there serving the building, 1.1 m high; the living area of the cell in the plan contains 4 functional subzones: kitchen, sanitary and shower unit, bedroom, common area, it is also a dining room; each section of the living cell contains 4 steel supporting frames rigidly connected by screws and coated with liquid thermal insulation; lightweight frames made of light alloys of metals and coated with liquid heat insulation are fastened to the supporting frames by screw connections in two rows at a distance of 6 cm from each other, thus forming a space inside the circuit of the supporting frame, in which there are communications for water supply, sanitation, electricity and heat supply; 2 types of panels are attached to lightweight frames by means of screw connections: solid, consisting of a protective and decorative coating, vapor barrier and thermal insulation, and window panels; the ceilings of each section contain lightweight frames installed 6 cm apart, with solid panels fixed to them, forming a space in which there are also communications for water supply, drainage, electricity and heat supply from the combined power installation to consumption points inside the house; a combined power plant located on the roof of a building is characterized by the fact that it contains a photovoltaic

Claims (1)

The building, characterized in that it contains 4 sections measuring 2.5 m by 2.5 m in plan and 3.3 m in height each, connected to one residential unit and a combined solar power installation for energy, heat and water supply to the house; vertically, the living cell is divided into a residential area 2.2 m high and underground, with equipment located there serving the building, 1.1 m high; the living area of the cell in the plan contains 4 functional subzones: kitchen, sanitary and shower unit, bedroom, common area, it is also a dining room; each section of the living cell contains 4 steel supporting frames rigidly connected by screws and coated with liquid thermal insulation; lightweight frames made of light alloys of metals and coated with liquid heat insulation are fastened to the supporting frames by screw connections in two rows at a distance of 6 cm from each other, thus forming a space inside the circuit of the supporting frame, in which there are communications for water supply, sanitation, electricity and heat supply; 2 types of panels are fastened to lightweight frames by means of screw connections: solid, consisting of a protective and decorative coating, vapor barrier and thermal insulation, and window panels; the ceilings of each section contain lightweight frames installed 6 cm apart, with solid panels fixed to them, forming a space in which there are also communications for water supply, drainage, electricity and heat supply from the combined power installation to consumption points inside the house; the combined power plant located on the roof of the building is characterized in that it contains a photovoltaic plant, a solar thermal installation, a rainwater collection system, an exhaust ventilation system, a common cold water tank, a tank with recycled water, a fire water tank; the combined solar power plant has a pyramidal shape with an angle of inclination of the faces of 45 ° for the most efficient absorption of solar radiation by a photovoltaic installation, a solar thermal installation and rainwater drainage; moreover, the collection of rainwater is carried out by a rainwater collection system equipped with a rectangular gutter of rectangular shape, to which drainpipes equipped with mechanical filters are connected at the corners to collect rainwater into the rain and untreated water collection tank, located underground in the house; a system for filtering and water treatment is connected to the rainwater collection system for further use of water for the domestic needs of the building and its users; the filtration system is connected to the rain and untreated water collection tank by means of pipes and a pump, and the filtration system contains in addition to the pump (pump station) a sediment filter, a deferrization filter, a water softener, a salt solvent tank, a carbon filter, an ultraviolet sterilizer, a drinking water preparation system (household filter ); water not claimed by users immediately after passing through the filtration system is sent to the public water storage tank located in the combined solar power plant, and also, if necessary, to the public hot water tank, which is part of the solar thermal plant, also located in the combined solar power plant complex shape (see Fig. 8); the solar thermal plant, which is part of the combined solar power plant, in addition to the public hot water tank contains 4 paired solar collectors located on the outer surfaces of the combined solar power plant connected to the public hot water tank; the solar collector consists of a public hot water tank and heat pipes, each of which in turn contain a copper heat pipe absorber, an airtight stopper, a vacuum tube, aluminum foil and a low-boiling working fluid in the absorber; the structure of the heliothermal system, also in the event of strong temperature changes in the environment, is connected to an electric boiler that acts as a backup system for heating water; from the public hot and cold water tanks there are communications that supply water to the residential area, in the form of pipes delivering it to consumption points (kitchen, shower), and the used gray water is delivered through drain pipes to the gray water treatment system for further re-use use underground; The gray water treatment system, in turn, contains: a pump, a tank for separating large impurities from gray water and preparing for biological treatment, a biological water treatment tank, a UV sterilization tank; at the same time, water that has passed through the gray water purification system is sent through a pump and pipes to a tank with recycled water or a fire water tank, depending on the readings of the water level sensor in the tanks, combined with a purified water distributor located in a combined solar power plant; moreover, the water from the tank with circulating water through the pipes is sent to the toilet bowl, where it is used as a flush of waste; all waste from the toilet is flushed into the wastewater storage tank; a fire water tank is connected via pipes to the sprinkler system; also a combined solar power installation contains solar panels located on the external surfaces of the installation and which are part of an autonomous solar power station; In addition to solar panels, an autonomous solar power plant includes: a maximum power take-off device, a discharge charge regulator, an inverter, and batteries; Excessive heat and exhaust air saturated with CO ₂ are removed by a natural ventilation system, which contains flexible tubes connecting the living cell and exhaust duct, exhaust duct, deflector; the exhaust duct is located in the geometric center of the combined solar power installation and is equipped with a deflector mounted on top of the installation.