RU2014139280A - The method of construction of energy-efficient structures and the temperature maintenance system in the structure - Google Patents

Abstract

1. The method of construction of energy-efficient structures, according to which the foundation is erected in technological sequence, the base is mounted on the foundation, then the walls are erected, then the ceiling, roof elements and roof are mounted, the ventilation and heating systems are mounted, by which the set room temperature is maintained, which differs the fact that in the heating system for transferring heat to a given temperature, heating mats are used, which are modular in the form of multilayer panels, which are laid on a prepared base with a waterproofing heat-reflecting layer and connect them to the building’s energy supply system. 2. The method according to claim 1, characterized in that each heating mat is provided with a thermal element and is made with heat-insulating and heat-accumulating layers, which are made from sieving into fractions of 3-16 mm of an encapsulated porous aggregate, mainly expanded clay, the porous aggregate is bonded with cement-adhesive composition only in the places of contact of the capsules, while the laying of the filler layers is carried out in layers and continuously in fractions, the insulating layer is laid from the filler fractions of 5-16 mm, heat the mullation layer is laid from a filler of fractions of 3-10 mm, the heat-insulating layer is laid at least 20 mm thick, and the heat-accumulating layer is laid at least 30 mm thick and at least 3.5 diameters of the thermal element. 3. The method according to claim 1, characterized in that the thermal element is made in the form of a corrugated thin-walled tube, mainly made of stainless steel, with the possibility of heating and transferring heat to a given floor

Claims (8)

1. The method of construction of energy-efficient structures, according to which the foundation is erected in technological sequence, the base is mounted on the foundation, then the walls are erected, then the ceiling, roof elements and roof are mounted, the ventilation and heating systems are mounted, by which the set room temperature is maintained, which differs the fact that in the heating system for transferring heat to a given temperature, heating mats are used, which are modular in the form of multilayer panels, which are laid on a prepared base with a waterproofing heat-reflecting layer and connect them to the building’s energy supply system. 2. The method according to p. 1, characterized in that each heating mat is provided with a thermal element and is made with heat-insulating and heat-accumulating layers, which are made from sieving into fractions of 3-16 mm encapsulated porous aggregate, mainly expanded clay, the porous aggregate is cement bonded to each other -glue composition only in the places of contact of the capsules, while laying the aggregate layers is carried out in layers and continuously in fractions, the insulating layer is laid from the aggregate fractions 5-16 mm, heat umuliruyuschy layer stack of aggregate fractions 3-10 mm, the insulating layer is placed at least 20 mm thick, and the heat storage layer - thickness of not less than 30 mm and not less than 3.5 diameter of the heat element. 3. The method according to p. 1, characterized in that the thermal element is made in the form of a corrugated thin-walled tube, mainly made of stainless steel, with the possibility of heating and transferring heat to the floor at a given temperature either by directing the flow of heat carrier, or by means of a heating element in the form of a wire or spirals, which are placed inside the thermal element and are made of heat-resistant and chemically stable alloyed with rare-earth metals alloy, mainly of nichrome X20H80, with free space in the thermal element is filled with a finely divided mixture of non-conductive electricity refractory, refractory materials, mainly magnesium oxide MgO. 4. The system for maintaining the temperature in the building, containing a heating device in which thermal elements are installed for heating and transferring heat to the floor, characterized in that the heating device is made in the form of a heating mat with a heat-insulating layer and a heat storage layer, and the thermal element is made in the form corrugated thin-walled tube and placed in a heat-accumulating layer between two metal grids that are installed on the spacers, a heating element is placed inside the thermal element in the form of a wire or spiral, which is made of a heat-resistant and chemically resistant alloy doped with rare-earth metals, and the free interior of the thermal element is filled with a finely ground mixture of non-conductive electricity, refractory, refractory materials. 5. The system according to p. 4, characterized in that the heat-insulating layer and the heat-accumulating layer are made of encapsulated porous aggregate, mainly expanded clay, and the heat-insulating layer is made of aggregate fractions of 5-16 mm and a thickness of at least 20 mm, the heat-accumulating layer is made of aggregate fractions of 3-10 mm and a thickness of at least 30 mm, and at least 3.5 diameters of the thermal element. 6. The system according to p. 4, characterized in that the heating mat is made modular in the form of a multilayer panel, which is designed to cover the prepared floor of the room and then heat it and transfer heat to it, the thermal elements of the installed modular heating mats are interconnected in parallel or in series, and the laid heating mats form the heated floor of the room. 7. The system according to claim 4, characterized in that the corrugated thin-walled tube of the thermal element is made mainly of stainless steel, the heating element is made mainly of nichrome, and the interior of the thermal element is filled with a ceramic mixture, mainly magnesium oxide MgO. 8. The system according to p. 4, characterized in that the thermal element of the heating mat is placed in it in parallel rows with a pitch of 250-350 mm and is oriented either along or across the heating mat.