RU80870U1 - BUILDING PANEL - Google Patents

Abstract

The utility model relates to the field of ground construction, in particular to buildings, namely, wall panels and floor panels, and can be used in the construction of low-rise buildings up to 4 floors for mass and individual cottage buildings, low-rise houses for residential and public purposes ( and when combined with reinforced concrete structures, the surface is limited only by the bearing capacity of these structures), during the reconstruction of houses, attic floor equipment, during the reconstruction and repair of coating systems to Rysh and facades, as well as in floating structures as a structural basis and wall filling. The construction panel contains a series-connected internal magnesite plate, vapor barrier film, sound-absorbing tape, metal frame, waterproof layer, cellulose insulation, external magnesite plate and facade finish layer. A building panel has been created with increased fire resistance and bearing capacity in case of fires, the best thermal insulation properties, which are produced in an industrial way, saving time on manufacturing.

Description

The utility model relates to the field of ground construction, in particular to buildings, namely, wall panels and floor panels, and can be used in the construction of low-rise houses up to 4 floors for mass and individual cottage development, low-rise houses for residential and public purposes ( and when combined with reinforced concrete structures, the superficiality of building structures is limited only by the bearing capacity of these structures), during the reconstruction of buildings, equipment of attic floors, during reconstruction and Repairing roof covering systems and facades, as well as floating structures as a constructive basis and wall padding.

Known multilayer wall panel containing interconnected layers, one of which is a carrier and formed between removable formwork, and the other is heat-insulating. The carrier layer is made of claydite concrete inner with reinforcement made of PVC pipes located in it in the vertical direction and metal rods laid in the horizontal direction. The thermal insulation layer is made of foam. The panel additionally contains a facade layer of moisture-resistant gypsum fiber sheet, a reinforcing layer of fine-mesh fiberglass mesh, a heat-, moisture- and sound-insulating layer of extruded polystyrene foam, a layer for interior decoration of moisture-proof gypsum plasterboard. In this case, the layers are interconnected by gluing, and on top of the heat, moisture and sound insulating layer of extruded polystyrene foam and the heat insulating layer of foam, a cavity is formed by performing a facade layer of gypsum fiber sheet moisture resistant with a heat, moisture and sound insulating layer of extruded polystyrene foam and a foam insulating layer with a layer for the interior decoration of the moisture-proof gypsum plasterboard, larger in height than the inner

the supporting layer of expanded clay concrete [RU No. 2006139806, EV 1/14, 2008].

This multilayer wall panel has insufficient fire resistance and bearing capacity in case of fires, as well as insufficient strength due to the bonding of layers by gluing and weak bearing capacity of expanded clay concrete. In addition, heavy lifting gear must be used to mount the wall panel.

A structural system for the construction of low-rise houses with a metal frame is also known, including external load-bearing walls, internal load-bearing walls, partitions, structures for floors and attics with a frame of steel profiles, load-bearing trusses or beams, roof and wall girders made of steel profiles. These structural elements are formed on the basis of frame frames made of thin-walled steel profiles connected by a detachable connection. Thin-walled frame profiles of the outer walls and attic floors have a perforated wall, and the heat and sound insulating material in the walls and floors is located within the cross-sectional height of the frame elements and is protected from the inside by a vapor barrier film and from the outside by a diffusion waterproofing film. The frameworks of walls, partitions and ceilings are lined with plasterboard or gypsum fiber sheets from the inside. Steel structural elements have a corrosion-resistant coating [RU No. 62128 U1, E04B 1/24, 2007].

The specified structural system also has insufficient fire resistance and bearing capacity in case of fires. In addition, for the installation of a wall panel, like the previous analogue, it is necessary to use heavy lifting mechanisms with a lifting capacity of 3 tons or more.

Closest to the claimed utility model is a wall structure comprising successively connected gypsum board, vapor barrier, sound-absorbing tape, metal frame, mineral wool, cement-bonded particleboard, foam or solid mineral wool and a facade layer, for example, of mineral or acrylic

plasters [EXPO prospectus, ExpoBud construction company, Ukraine, Ternopil].

The specified wall design, like the previous analogue, has insufficient fire resistance and bearing capacity in case of fires.

Mineral wool insulation has high vapor permeability, condensing steam in its thickness, resulting in a deterioration in thermal insulation properties - a decrease in the thermal resistance of the structure over time during the cold season. In this case, the design must be designed in such a way as to minimize the passage of moisture vapor and, as a result, the occurrence of condensate. In addition, when mineral wool is inserted, 4-5% of voids are formed, as a result of which heat loss is 15-25%.

The assembly of this design is carried out at a construction site, which increases labor costs and construction time.

The utility model is based on the task of creating a building panel with increased fire resistance and load-bearing capacity in case of fires, the best thermal insulation properties, which could be produced industrially, saving time on manufacturing.

The problem is solved in that in a building panel containing a series-connected inner plate, vapor barrier film, sound-absorbing tape, metal frame, waterproof layer, insulation, an external plate and a facade finishing layer, according to a utility model, magnesite plates are used as internal and external plates , as a waterproof layer - a waterproofing film, and as a heater - cellulose insulation.

As a cellulose insulation, Unisol can be used.

The frame is made of U-shaped and C-shaped profiles of galvanized steel sheets with perforation.

Additionally, for buildings of the 3rd category, 30% of wooden racks can be used.

The elements are connected using self-drilling

screws or rivets.

Inside building panels communications can be placed.

As a facade finishing layer, you can use facade mineral wool, acrylic plaster, ventilated suspended facades, wooden beams, siding, brick, stone.

The height of building panels can be up to 8 m, and their thickness - 150-250 mm.

Magnesite (glass-magnesite) plate is a moisture-proof, non-combustible and environmentally friendly material used for fire protection of certified fireproof door designs in the technologies of "quick construction" and "dry installation".

The magnesite stove does not burn, does not emit smoke when the fire is open. It does not deform, does not soften, and does not lend itself to decay under the influence of steam, moisture, moisture. The magnesite plate has shockproof properties, low deformation under the action of moisture, heat, dryness, it is durable in operation, it retains anticorrosion properties at temperatures up to -40 ° C. Magnesite plate does not contain harmful substances, is safe for human health.

Compared to gypsum board, a magnesite board is more durable, fasteners can be screwed into it easily and only joints, and not the entire surface, can be puttied.

Compared to cement-bonded particleboard, a magnesite plate has 2 times less weight, better fire resistance properties, is more convenient for installation, decoration and less fragile.

The structure of Unisol cellulose insulation is a loose, very light heat-insulating material, consisting of 81% of recycled cellulose, 12% of antiseptics and 7% of non-volatile flame retardants. Due to this composition, the material has durability, high thermal insulation properties that prevent the formation of condensate and exclude the formation of "acoustic bridges" and "cold bridges", high soundproof properties, a unique filling characteristic

smallest cavities, does not contain substances harmful to health, safe to use. The biostability of the Unisol insulation provides effective protection against decay, the ability to stop the growth of fungi, prevents the appearance of rodents and insects in insulating structures.

Thus, the building panel has increased fire resistance and bearing capacity in case of fires and, unlike analogues, has fire resistance of II, and not III degree, as in the prototype.

The thermal conductivity coefficient of the building panel is 0.28 W / m ² , and it takes into account "cold bridges" of the total metal area in the panel.

Houses built using the claimed building panels withstand seismic loads of up to 9 on the Richter scale.

On the basis of the claimed building panel, it is possible to make ready-made industrial sets of houses, hotels, public institutions (pharmacies, feldsher-midwife points, catering establishments, quickly assembled housing), which, if necessary, can be assembled within 5 days without the use of heavy equipment. The panel can be used for operational construction in case of natural disaster (floods, windbreaks), for the rapid deployment of food outlets and the provision of medical care (for the Ministry of Emergencies). The panel can be used not only in low-rise construction (degree of fire resistance of category III, IIIa and IIIb), but also as wall filling in multi-storey buildings based on metal or reinforced concrete frames (degree of fire resistance of category II), which will reduce the installation time of walls not less than in 2 times, reduce their cost by 50% due to a significant reduction in weight, reduce the load on the construction of foundations, which will make it possible to build more floors on the same foundations, and therefore reduce the cost of 1 m ² for the end consumer, and also use to accelerate the implementation of the state program "social housing".

The utility model is illustrated in the figure, which shows the construction panel.

The building panel contains a series-connected inner 1 magnesite plate (magnesite), vapor barrier 2 film, sound-absorbing tape 3, metal frame 4 made of U-shaped, C-shaped and Z-shaped profiles with perforation (in addition to structures of the 3rd category, 30% of wooden racks are used), waterproofing 5 film, cellulose insulation 6, for example, Unisol, external 7 magnesite plate and facade finishing layer 8 (mineral or acrylic plaster, ventilated facade , Wooden beams, siding, brick, stone). The connection of the elements is carried out using self-drilling screws or rivets. Inside building panels communications can be placed.

The construction is carried out only in a "dry way", therefore, installation can be done year-round, even in winter, which makes the process continuous and quick. Building panels are manufactured at the factory using a conveyor that speeds up their production. First, a metal frame 4 is assembled, and then all other elements are assembled using self-drilling screws or rivets with an electric drill or a screwdriver.

When building a house, installers receive all ready-made components at the construction site along with sets of drawings and mounting cards. A team of 3-4 people can assemble a house frame with an area of 150-200 m ² in 2-3 weeks.

Claims (8)

1. A building panel comprising a series-connected inner plate, a vapor barrier film, a sound-absorbing tape, a metal frame, a waterproof layer, insulation, an external plate and a facade finishing layer, characterized in that magnesite plates are used as the internal and external plates as a waterproof layer - a waterproofing film, and as a heater - cellulose insulation. 2. The construction panel according to claim 1, characterized in that Unisol is used as a cellulose insulation. 3. The construction panel according to claim 1, characterized in that the metal frame is made of U-shaped and C-shaped profiles of galvanized steel sheets with perforation. 4. The construction panel according to claim 3, characterized in that in addition to structures of the 3rd category, 30% of wooden racks are used. 5. The construction panel according to claim 1, characterized in that the connection of the elements is carried out using self-drilling screws or rivets. 6. The construction panel according to claim 1, characterized in that communications are placed inside the construction panels. 7. The building panel according to claim 1, characterized in that as a facade finishing layer, mineral facade wool, acrylic plaster, ventilated facades, wooden beams, siding, brick, stone are used. 8. The construction panel according to claim 1, characterized in that the height of the construction panels is up to 8 m, and their thickness is 150-250 mm.