RU205938U1 - FACADE SANDWICH PANEL - Google Patents

Abstract

The utility model relates to the field of construction, namely to the structures of facade panels intended for cladding and insulation of facades of buildings and structures. The technical result is to increase the durability, fire safety and bearing capacity of the facade panel, resistance to wind loads due to the use of a material made of non-combustible perforated foil fabric as the inner paneling of the panel. Facade sandwich panel for cladding and insulation of building structures contains a facade cladding having locking elements in two opposite end parts and made of thin sheet metal with a protective polymer coating, an inner cladding and a heat-insulating layer located between the facade and inner cladding. The heat-insulating layer is made of separate lamellas of heat-insulating fibrous material with grooves forming ventilation ducts with the facade cladding, where the end slats are made in one piece, and the heat-insulating fibrous material is hydrophobic and the fibers of the lamella material are oriented perpendicular to the facade cladding. In this case, the ends of the lamellas are displaced longitudinally with respect to each other. The material of the inner lining is made of perforated foil-fabric, which is a fiberglass fabric laminated with foil, and in each cross-section of the panel there is no more than one lamella joint. 3 ill.

Description

The utility model relates to the field of construction, namely to the structures of facade panels intended for cladding and insulation of facades of buildings and structures.

From the prior art, structures of facade panels for cladding and insulation of building structures are known, including a facade element to which an insulation is attached. Foamed heat-insulating material is often chosen as a heater. However, the use of such materials, which have low vapor permeability, leads to the fact that moisture from the room cannot go outside and accumulates in the outer walls of the structure, which leads to the wetting of the surfaces of the latter.

Known wall panel for cladding and insulation of building structures, including a facade element and insulation, connected by means of an adhesive composition, (RF patent No. 94597, class E04F 13/00, publ. 27.05.2010 g). The insulation consists of at least two layers of heat-insulating material, with the heat-insulating layer adjacent to the insulated structure, sealing, and grooves are made in the heat-insulating layer adjacent to the rear side of the facade element, forming ventilation ducts with it. On the end sides of the facade element, at least one hook and at least one locking projection are made, respectively.

However, such a structure has insufficient thermal insulation and strength characteristics of the facade panel.

Known wall panel for cladding and insulation of building structures, containing a facade element, to which, by means of an adhesive composition, a heat-insulating layer with grooves made in it is attached, forming ventilation ducts with the facade element (RF patent No. 100793 for a useful model, IPC E04F 13/00, publ . 09/08/2010). The panel is additionally equipped with a skin made of an air-permeable material, the heat-insulating layer is placed between the facade element and the skin, to which it is connected by means of an adhesive composition and is formed from bars of heat-insulating material displaced along the ventilation ducts. The cladding can be made, for example, of fiberglass. For example, mineral wool, glass wool, expanded polystyrene, polyurethane foam are used as the heat-insulating material of the bars. For example, a thin sheet galvanized metal with a polymer coating is used as a facade element. The wall panel is equipped with additional layers of heat-insulating, sealing, moisture-proof materials, attached to the cladding from the side adjacent to the structure to be insulated. However, ventilation ducts are made in all lamellas of the heat-insulating layer, which violates the heat-insulating properties of the front panel from the end sides.

The closest analogue (prototype) is a facade panel for cladding and insulation of building structures, containing a facade element made of a material with a low moisture and vapor permeability coefficient, an inner lining of a vapor-permeable material and a heat-insulating layer located between the facade element and the inner lining, while a heat-insulating layer made of separate lamellas of heat-insulating fibrous material with grooves forming ventilation ducts with the facade element, where the end lamellas are made in one piece, and the heat-insulating fibrous material is hydrophobized, and the fibers of the lamella material are oriented perpendicular to the facade element, while the ends of the lamellas are displaced longitudinally with respect to each other ( utility model patent of the Russian Federation No. 170175, IPC E04F 13/07; E04F 13/075; E04F 13/077, publ. 18.04.2017). As a material with a low coefficient of moisture and vapor permeability of the facade element, thin sheet metal, polymer material, composite material, drywall, plywood, OSB (oriented strand board), LSU (glass-magnesium sheet), high-pressure laminates, sprayed coatings, for example cork. The thermal insulation fibrous material is mineral wool and / or glass wool. Fiberglass, fiberglass, glass companions, sprayed products can be selected as the cladding material. The lamellas of the heat-insulating layer are connected to the facade element by means of an adhesive composition. The front element is made with elements of the lock connection. The inner surfaces of the ventilation ducts can be treated with dedusting agents. The facade panel is equipped with an additional layer of heat-insulating material, attached to the inner lining from the side adjacent to the insulated structure.

However, such a structure has insufficient thermal insulation and strength characteristics of the facade panel.

The technical result is to increase the durability, fire safety and bearing capacity of the facade panel, resistance to wind loads due to the use of a material made of non-combustible perforated foil fabric as the inner paneling of the panel.

The specified technical result is achieved by the fact that in a facade sandwich panel for cladding and insulation of building structures, containing a facade cladding, having locking elements in two opposite end parts and made of thin sheet metal with a protective polymer coating, an inner cladding and a heat-insulating layer located between facade and internal cladding, while the heat-insulating layer is made of separate lamellas of heat-insulating fibrous material with grooves forming ventilation ducts with the facade cladding, where the end lamellas are made in one piece, and the heat-insulating fibrous material is hydrophobic and the fibers of the lamella material are oriented perpendicular to the facade cladding, while the ends of the lamellas are displaced longitudinally with respect to each other, according to the utility model, the material of the inner lining is made of perforated foil-fabric, which is a fiberglass fabric, which is laminated with foil, and in each transverse the section of the panel has no more than one lamella joint.

The facade panel is equipped with an additional layer of heat-insulating material, attached to the inner lining from the side adjacent to the insulated structure.

The façade and interior claddings are bonded to the heat-insulating fibrous material with a two-component and / or one-component polyurethane adhesive.

Heat-insulating fibrous material is a mineral wool based on rocks of the basalt group on a synthetic binder and / or glass wool.

The device contains the following graphics. FIG. 1 shows a sectional diagram of a facade sandwich panel with an additional layer of heat-insulating material attached to the inner cladding from the side adjacent to the structure to be insulated. The image is shown at the junction of two panels located in one horizontal row. FIG. 2 shows a sectional diagram of a facade sandwich panel without an additional layer of heat-insulating material. The image is shown at the junction of two panels located vertically relative to each other. FIG. 3 shows a diagram of the inner lining of a sandwich panel made of perforated foil fabric.

Facade sandwich panel for cladding and insulation of building structures (Fig. 1) contains a facade cladding (1) having locking elements (2) in two opposite end parts and made of thin sheet metal (galvanized steel) with a protective polymer coating, inner cladding (3) and an insulating layer (4) located between the front (1) and inner (3) cladding. In this case, the heat-insulating layer (4) is made of separate lamellas (5) of heat-insulating fibrous material with grooves (6) forming ventilation ducts (7) with the facade cladding (1), where the end lamellas are made solid, and the heat-insulating fibrous material is hydrophobic and the fibers of the material the lamellas are oriented perpendicular to the facade cladding (1), and the ends of the lamellas (5) are displaced longitudinally with respect to each other. The material of the inner lining (3) is made of perforated foil-fabric with through holes (8), which is a fiberglass fabric, which is laminated with foil (Fig. 3). In each cross-section of the panel, there is no more than one lamella joint.

The facade panel is equipped with an additional layer (9) of heat-insulating material, attached to the inner lining (3) from the side adjacent to the insulated wall (10) of the structure.

The front (1) and inner (3) claddings are bonded to the layer (4) of heat-insulating fibrous material with a two-component and / or one-component polyurethane adhesive.

A technological gap of 50 mm is made between the horizontal rows of the facade panel to ensure ventilation of the panels (Fig. 2). This gap is filled with bars - lamellas 11 made of mineral wool insulation. When installing the lamellas (11), it is necessary to ensure a snug fit to the wall and not to block the ventilation ducts (7) of the panel. The width of the lamella (11) must be equal to the thickness of the continuous layer of the panel insulation.

Heat-insulating fibrous layers (4) of material and lamellas (11), unprotected by the facade cladding (1), are closed with shaped elements (12) made of galvanized sheet steel with a polymer coating (Fig. 2). Heat-insulating fibrous material is a mineral wool based on rocks of the basalt group on a synthetic binder and / or glass wool. The facade sandwich panel is attached to the insulated wall (10) with a dowel (13).

Work on the installation of the facing elements of the facade panel is carried out in the following sequence:

- marking of holes on the facing facade panel for fastening according to the working drawings. The hole for the facade dowel (13) must be located between the ventilated air ducts (7) of the panel, i.e. in those places where the mineral wool is adjacent to the steel sheet of the facade cladding (1);

- drilling holes in the facade panel with the diameter specified in the project;

- installation of the panel in the design position and through the panel drilling a hole in the wall, the depth is determined in the project, based on pull-out tests of dowels (13);

- fastening to the wall (10) is made with a dowel (13) for fastening the thermal insulation with a pitch of not more than 330 mm. To ensure the tightness and durability of the joints in the places where the fittings (12) adjoin each other and the fittings (12) to the facade layer (1) of the panel, it is necessary to use a silicone sealant for external work. It is recommended to install horizontal fittings (12) on a sealing tape;

- start screwing in the dowels (13) from the upper edge of the facade panel. It is necessary to achieve a tight abutment of the panel to the wall and prevent deformation of the outer steel sheet by the press washer of the facade dowel (13),

- along the vertical ends, the front panels are interconnected by means of a labyrinth lock (2) "Z-Lock" (Fig. 2).

After fixing the first row of panels, a row of lamellas (11) is installed. After fixing the lamellas (11), proceed to the installation of the next row of panels.

Cutting panels to the desired size is performed as the work progresses. After the installation of the panels is completed, fittings are installed (12). Fittings (12) must be fixed according to the working drawings. After completing the installation work, remove the protective film.

According to calculations, the base of the insulated wall (10) is in the temperature zone above the dew point, provided that the calculated resistance to heat transfer of the insulated wall is> Rreg and the calculated temperature (t) inside the room is + 20-22 ° C, with a humidity of 55%. Calculations carried out by the Institute of Thermophysics of the SB RAS prove that if the technology of ventilation ducts (7) is observed in the insulated wall (10), moisture condensation will not occur, and there is no danger of fungus growth in the insulation layer.

The main advantage of the inner lining (3) made of perforated foil-fabric over fiberglass (glass compound) in the prototype is as follows: perforated foil-fabric is an environmentally friendly, non-combustible reinforcing heat-insulating material that does not interfere with gas and moisture exchange between the wall (10) and the facade panel and represents is a fiberglass coated with aluminum foil, connected to the base with a polymer binder. Perforated glass fabric with aluminum foil can be used at temperatures from -60 to +130 degrees Celsius and above, reflects up to 93% of thermal radiation, is not subject to corrosion, decay, and is resistant to fungi and mold. Reinforced foil fabric significantly increases the bearing capacity of the facade panel, resistance to wind loads on multi-storey buildings (https://www.progress-rus.ru/products/folma-tkan).

Thus, the description of the application confirms the claimed technical result, which consists in increasing the durability, fire safety and bearing capacity of the facade panel, resistance to wind loads due to the use of a material made of non-combustible perforated foil fabric as the inner paneling of the panel.

Claims (4)

1. Facade sandwich panel for cladding and insulation of building structures, containing facade cladding, having locking elements in two opposite end parts and made of thin sheet metal with a protective polymer coating, inner cladding and a heat-insulating layer located between the facade and inner cladding, when In this case, the heat-insulating layer is made of separate lamellas of heat-insulating fibrous material with grooves, forming ventilation ducts with the facade cladding, where the end slats are made one-piece, and the heat-insulating fibrous material is hydrophobic and the fibers of the lamella material are oriented perpendicular to the facade cladding, while the ends of the lamellas are displaced longitudinally with respect to each other friend, characterized in that the material of the inner lining is made of perforated foil-fabric, which is a glass fabric laminated with foil, and in each cross-section of the panel there is no more than one lamella joint. 2. The panel according to claim 1, characterized in that the front panel is provided with an additional layer of heat-insulating material attached to the inner lining from the side adjacent to the structure to be insulated. 3. The panel according to claim 1, characterized in that the front and inner cladding is bonded to the heat-insulating fibrous material with a two-component and / or one-component polyurethane adhesive. 4. The panel according to claim 1, characterized in that the heat-insulating fibrous material is mineral wool based on rocks of the basalt group on a synthetic binder and / or glass wool.

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