RU2609507C2 - Building module and l-shaped reducer - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to civil engineering. The building module of a modular building envelope comprises a heat exchange unit of channels for recovery of gas emissions, and also contains a flat structural element from glass mineral sheet composite with cement binder, a building insulant, namely foam aerated concrete with cold (non-autoclaved) hardening, and the layers of light insulation with low specific weight, such as rock wool mats. The module has a length equal to the sum of interstorey distance and the thickness of the floor slab, it contains contact inserts for fixing in two points of metalware fastening of external and internal cladding of the building envelope as well as for fastening to the floor slabs, as well as composite flexible couplings, which are mutually joined by chemical anchors in anchor nodes the heat exchange unit of the gas emissions recovery channel, contact inserts and plaster layer with fiberglass reinforcement. The module is provided with "male-female" mating elements. L-shaped adapter for mating of building modules comprises the heat exchange of gas emissions recovery channels, and also contains the elements of glass-mineral sheet composite with cement binder with a curved surface radius, providing low values of the local aerodynamic resistance, structural insulation, which is foam-aerated concrete with cold (non-autoclave) curing, and light insulation layers with low specific weight, such as rock wool mats. The adapter comprises contact inserts for fixing in two points of metalware fastening of external and internal cladding of the building envelope, and the composite flexible couplings, which are mutually joined by chemical anchors in anchor nodes, the heat exchange unit of regeneration gas emissions channels, the contact inserts, and the plaster layer with reinforcing fiberglass. The reducer is also fitted with "male-female" mating elements.

EFFECT: invention allows to reduce the building erection time, increase its thermal insulation and energy efficiency.

13 cl, 5 dwg

Description

The present invention relates to the field of construction.

Closest to the claimed technical solution is a method of forming and operating a duct system for enclosing a building with recuperation of exhaust air inside a peat binder insulator during the construction of building envelope structures, described sequentially in RU 2432435 C2, publ. 2011.10.27. and RU 2487223 C1, publ. 2013.07.10.

The disadvantages of this technical solution are:

- use as a heater of fire hazardous materials of organic origin;

- a lengthy process of layer-by-layer formation directly at the construction site, by drying the raw organic mixture with a peat binder, a heat-resistant layer with a duct system for the recovery of exhaust air;

- It is intended to be used only for low- and mid-rise construction.

The task to which the claimed invention is directed is to reduce the fire hazard, reduce the construction time, the possibility of increasing the number of storeys of buildings with the utilization of thermal energy from gas-air emissions of the building in heat transfer channels located in the insulation layer of the building's fence.

This problem is solved due to the fact that the Building Module and the L-shaped Adapter of prefabricated building envelopes, including the recovery channels for gas-air emissions of the building:

- being composed, including only of non-combustible mineral insulators, having docking interconnect units of the "father" and "mother" type for the assembly of any external fence of the building with through channels for the recovery of gas-air emissions of the building without the use of "wet" technologies, have such a length of Construction The module, in order to provide the possibility of its fastening with steel hardware, to at least one floor of the building;

- have thermal resistance, providing the necessary level of thermal protection of the building;

- have a width that ensures the rational use of other building materials during the construction of the outer shell of the building with double-circuit air recovery;

- are related to the thermal resistance of the parts of the Building Module and the L-shaped Adapter in front of and after the heat-exchange block of the gas-air emission recovery channels, so that, on the one hand, during operation of the building with normalized room temperature in the air-gas recovery channels of the Building Module and G-building the shaped adapter did not form ice at the temperature of the coldest five days of the heating season normalized for a particular point of localization of the building with security s 0.92, and on the other hand, provided the maximum possible coefficient of efficiency of the recovery of thermal energy of gas-air emissions, as the replacement of part of the transmission heat loss;

- contain flat structural elements from a glass-mineral sheet composite with a cement binder, as well as elements with a curved surface with a radius that provides small values of local aerodynamic drag for the L-shaped adapter, which are molded from a glass-mineral sheet composite with a cement binder, immediately after its manufacture, until formation cement stone;

- contain contact inserts that are necessary for reliable mechanical fastening at two points of hardware fasteners of the external and internal sheathing of the fence to the Building Modules with L-shaped Adapters, as well as the Building Module of the L-shaped Adapter to the floor;

- contain composite flexible bonds that bind together, using chemical anchors in anchor nodes, by winding a strong thread on a waterproof glue and subsequent polymerization curing, a heat-exchange block of gas-air emission recovery channels, contact inserts and a plaster layer with a glass reinforcing mesh;

- have foam-aerated concrete with cold (non-autoclave) curing as structural insulation by pouring foam-aerated concrete components into the formwork with structural elements and insulation layers with a low specific gravity of Building Modules and L-shaped Adapters;

- have, as an external structural layer, a modified stucco sand-cement layer along a glass reinforcing mesh with 1% by weight of cement by the addition of amorphous pyrolytic silicon dioxide nanopowder;

- have internal surfaces of channels for the recovery of gas-air emissions of Building Modules and L-shaped Adapters, to increase the water and chemical resistance of the surface, treated with silicone (silicone) impregnation;

- are processed to seal the joints with silicone (silicone) sealant in the place of the contact nodes "father" and "mother" of adjacent Building Modules and L-shaped Adapters.

The device of the Building Module (L-shaped Adapter) is illustrated by its stereometric image from the side of the docking unit "father" of Fig. 1 (Fig. 3), as well as the image from the side of the docking site "mother" without a plaster layer and an armature, as well as insulation layers, FIG. 2 (Fig. 4).

The Construction Module (L-shaped Adapter) includes the “father” docking element 1, the heat-exchange block of the gas-air emissions recovery channels of building 2, structural insulation No. 13, structural insulation No. 24, contact inserts of the connection of the Construction Module with the exterior and interior cladding of building 5, insulation with low specific gravity 6, a plaster layer with an armature 7, a docking element "mother" 8, flexible connections 9, chemical anchor 10.

The Building Module and the L-shaped Adapter are multilayer composite building elements of the building envelope with a thickness of D _x , which provides a thermal protection level normalized for a specific point of the climatic localization of the building; width D _y , ensuring the rational use of components of building materials (for example, a width of 580 mm, taking into account 20 mm of the row-spacing space, proposed for filling with light insulation, for example, stone wool mat). The length of the Building Module D _z is, for example, the sum of the floor distance and the thickness of the floor slab. The angle B of the inclination of the L-shaped Adapter should not be lower than the angle providing gravitational removal of condensate along the walls of the heat exchange channels (for example, not less than ninety-three degrees).

The ratio of the thermal resistance of the parts of the Building Module (L-shaped Adapter) in front of and after the heat exchange unit should, on the one hand, ensure that they do not freeze without passing a stream of gas-air emissions at an acceptable room temperature in the building’s premises during the coldest five-day heating period and on the other hand, to ensure the maximum possible coefficient of performance of the heat recovery system for gas-air emissions of the building.

For the manufacture of elements of prefabricated building envelopes, as structural materials used sheet composite material of the type described in the patent for invention US 2007267120 A1, publ. 2007.11.22, with a cement binder, are interconnected by composite flexible bonds of the type described in patent for invention RU 2410505 C1, publ. 2011.01.27, by chemical anchoring, for example, winding a strong thread (for example, carbon, described in patent for invention RU 2224057 C2, publ. 2002.02.20, or polypropylene, described in patent for invention RU 2394945 C1, publ. 2010.07. 20) on waterproof glue (for example, on polydicyclopentadiene described in the patent for invention RU 2465286 C2, publ. 2012.10.27.) In the flexible link anchor unit and the subsequent polymerization curing of the chemical anchor. At the same time, contact inserts are necessary for reliable mechanical fastening at two points of hardware fasteners of the external and internal sheathing of the fence to the Building Modules with L-shaped Adapters. To obtain a structural sheet with a curved surface with a radius that provides small values of local aerodynamic drag for the L-shaped Adapter, a composite sheet with a cement binder is formed by formwork of a given shape immediately after its manufacture, until the cement stone is formed.

It is proposed to use mats made of, for example, stone wool, as insulation layers with a low specific gravity.

As layers of structural insulation, it is proposed to use foam-aerated concrete described in patent for invention RU 2263085 C2, publ. 2005.10.27, with cold (non-autoclave) curing by pouring foam-aerated concrete components into the formwork with structural elements and insulation layers with a low specific gravity of Building Modules and L-shaped Adapters.

As the external structural layer, a modified stucco sand-cement layer is used along the grid, for example, with 1% by weight of cement, by the addition of amorphous pyrolytic silicon dioxide nanopowder, described in patent RU 2474535 C1, publ. 2013.02.10.

The inner surface of the channels for the recovery of gas-air emissions of Building Modules and L-shaped Adapters to increase the water and chemical resistance of the surface is treated with silicone (silicone) impregnation, described, for example, in patent for invention RU 2164505 C2, publ. 1999.06.01.

Contact nodes "father" and "mother" of adjacent Building Modules and L-shaped Adapters for sealing their joints before they are joined are processed, for example, with silicone (silicone) sealant described in patent RU 2486222 C2, publ. 2013.06.27.

One of the possible installation options for prefabricated building envelopes, including the building's air-gas recovery channels using Building Modules and L-shaped Adapters, sheet building composites with cement binder and steel hardware fasteners is illustrated in FIG. 5.

The dissipation of thermal energy from the building’s gas-air emissions in the recovery channels of the building’s fencing during the cold season replaces part of transmission losses, thereby reducing the necessary heat energy for heating the building.

Claims (13)

1. The building module of the prefabricated building envelope, including a heat-exchange block of gas-air exhaust recovery channels, characterized in that it contains a flat structural element made of a glass-mineral sheet composite with a cement binder, structural insulation, which is used foam-aerated concrete with cold (non-autoclave) curing, and layers of light insulation with a low specific gravity, for example stone wool mats, has a length equal to the sum of the floor distance and the thickness of the floor slab, s holds contact inserts for fastening at two points of hardware fasteners of the external and internal cladding of the building envelope, as well as for fastening to the floor, as well as composite flexible connections that connect the heat exchange block of gas-air exhaust recovery channels through chemical anchors in the anchor nodes inserts and a plaster layer with a reinforcing fiberglass mesh, and is also equipped with docking elements such as "father-mother". 2. L-shaped adapter for joining building modules according to claim 1 of the prefabricated building envelope, comprising a heat-exchange block of gas-air emission recovery channels, characterized in that it contains elements of a glass-mineral sheet composite with a cement binder, made with a curved surface with a radius that provides small values local aerodynamic drag, structural insulation, which is used foam-aerated concrete with cold (non-autoclave) curing, and light layers insulation with a low specific gravity, for example stone wool mats, contains contact inserts for fastening at two points of hardware fasteners of the external and internal cladding of the building envelope, as well as composite flexible connections that connect the heat exchange block of the recovery channels with the help of chemical anchors in the anchor nodes gas-air emissions, contact inserts and a plaster layer with a reinforcing fiberglass mesh, and is also equipped with docking elements such as "father-mother". 3. The building module according to claim 1 or the L-shaped adapter according to claim 2, characterized in that its thermal resistance provides the necessary level of thermal protection of the building. 4. The building module according to claim 1 or the L-shaped adapter according to claim 2, characterized in that its width ensures the rational use of other building and assembly materials in the construction of the outer shell of the building with double-circuit air recovery. 5. The building module according to claim 1 or the L-shaped adapter according to claim 2, characterized in that the ratio of the thermal resistance of the parts of the building module or L-shaped adapter in front of and after the heat-exchange block of the gas-air exhaust recovery channels is such that, on the one hand , during operation of the building with normalized room temperature, no ice was formed in the channels for recovering gas-air emissions from the building of the building module or L-shaped adapter when normalized for a specific localization point Ia temperature of the coldest five days of heating season with 0.92 security, and on the other hand, provides the highest possible efficiency of thermal energy recovery gas emissions as a substitution of part of heat transmission. 6. The L-shaped adapter according to claim 2, characterized in that the angle of inclination of the L-shaped adapter is not lower than the angle providing gravitational removal of condensate along the walls of the heat transfer channels. 7. The building module according to claim 1 or the L-shaped adapter according to claim 2, characterized in that the building module or L-shaped adapter contains flat structural elements from a glass-mineral sheet composite with a cement binder or elements with a curved surface with a radius providing small values local aerodynamic drag for the L-shaped adapter, which are molded from a glass-mineral sheet composite with a cement binder, immediately after its manufacture, to the formation of a cement stone. 8. The building module according to claim 1 or the L-shaped adapter according to claim 2, characterized in that the building module or L-shaped adapter contains contact inserts that are necessary for reliable mechanical fastening at two points of the hardware fastener of the outer and inner sheathing of the fence to a building module or L-shaped adapter, as well as a building module or L-shaped adapter to the floor. 9. The building module according to claim 1 or the L-shaped adapter according to claim 2, characterized in that the building module or L-shaped adapter contains composite flexible bonds that are connected together using chemical anchors in the anchor nodes, by winding a strong thread on waterproof glue, and subsequent polymerization curing, the heat-exchange block of the gas-air exhaust recovery channels, contact inserts and a plaster layer with a reinforcing fiberglass mesh. 10. The building module according to claim 1 or the L-shaped adapter according to claim 2, characterized in that foam-aerated concrete with cold (non-autoclave) curing is used as a structural insulation by pouring foam-aerated concrete components into the formwork with structural elements and layers insulation with a low specific gravity of the building module or L-shaped adapter. 11. The building module according to claim 1 or the L-shaped adapter according to claim 2, characterized in that a modified stucco sand-cement layer is applied as an external structural layer along the reinforcing fiberglass mesh with 1% by weight of cement by the addition of amorphous pyrolytic silicon dioxide nanopowder. 12. The building module according to claim 1 or the L-shaped adapter according to claim 2, characterized in that the inner surface of the air-gas recovery channels of the building module or L-shaped adapter is treated with silicone (silicone) impregnation to increase the water and chemical resistance of the surface . 13. The building module according to claim 1 or the L-shaped adapter according to claim 2, characterized in that the contact nodes “father” and “mother” of the adjacent building module and the L-shaped adapter for sealing their joints are treated with silicone (silicone) ) sealant.

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