RU83527U1 - ALUMINUM COMPOSITE PANEL - Google Patents

Abstract

1. An aluminum composite panel containing a multilayer structure of interconnected layers, one of which is made of aluminum with protective coatings, the other is made of heat-insulating polymer material, characterized in that it contains two aluminum sheets, between which there is a composite polymer layer made based on a fire-resistant mineral-filled non-toxic polymer and connected to aluminum sheets by means of thermopolymer glue, while the surface of one of the aluminum The outer wall is made with a decorative polymer coating, and the composite polymer layer represents a homogeneous phase based on a polyethylene composition filled with hollow microspheres, the internal cavities of which are filled with flame retardant and pentaerythritol. ! 2. The aluminum composite panel according to claim 1, characterized in that the polymer coating is made of Nano-PVDF. ! 3. The aluminum composite panel according to claim 1, characterized in that the polymer coating is made PE. ! 5. The aluminum composite panel according to claim 1, characterized in that the outer surface of one of the aluminum sheets, which is the outer, further comprises a primer layer and a polymer coating (PVDF). ! 6. The aluminum composite panel according to claim 1, characterized in that the flame retardant is ammonium polyphosphate. ! 7. The aluminum composite panel according to claim 1, characterized in that it can be made flat. ! 8. The aluminum composite panel according to claim 1, characterized in that it can be made curved in the form of a cartridge.

Description

The utility model relates to the field of construction, in particular, to the production of cladding panels used in the installation of ventilated facades for exterior and interior decoration of buildings and premises, both new and old, to improve the appearance and insulation.

The following requirements are imposed on the facing panels used in construction: high strength, lightness, fire resistance.

Aluminum composite panels are by far one of the most popular materials for cladding ventilated facades of any complexity and high-rise buildings.

The growing popularity of aluminum composite panels (ACP) as one of the most technologically advanced and aesthetic materials has given rise to a large offer of various cost and quality. In Russia, about 30 companies offer such materials. In this case, until the installation, the panels often have a similar appearance, but have different operational characteristics, and most importantly, fire safety tolerances.

Even insignificant at first glance details are very important when it comes to the use of aluminum composite panels on large volumes of building facade surfaces.

It is especially important to pay attention to the fire resistance of aluminum composite panels.

The fire resistance of aluminum composite panels primarily depends on the structure of the core (central layer), on how much mineral additives it contains, in particular magnesium hydroxide.

In many Asian industries, the so-called halogen-containing fire retardant is added to the core of materials to reduce the cost of materials. This flame retardant is banned in all European countries and other developed countries, since fumes of high toxicity are released when such materials ignite. In addition, these substances not only do not give the proper fire resistance effect during the fire of the building facade, but are also very toxic, and it is not possible to organize mass production with their use. As a result, hiding behind the received certificate, an unscrupulous contractor ships ordinary combustible products.

Until recently, Alucobond-A2 (Alucobond-A2) was the leader in the market of real non-combustible aluminum composite panels, when filling the inner layer, a proportion of 90% of minerals and 10% of the polymer is observed. It is worth noting that Alucobond uses cold pressing technology. Following Alucobond is the Japanese manufacturer Alpolic-A2 (Alpolik-A2), the mineral content of the core of the AKP is more than 65%. Alpolic, like KRASPAN, uses extrusion technology.

Composite panels with A2 class filler, according to the international classification, are know-how products. This type of product is offered on the market by the German manufacturer Alcan Singen GmbH - a composite panel with class A2 filler based on aluminum hydroxide does not burn under the flame of a burner for about two hours. However, this material has lower bending properties - for example, it is impossible to make a column from such a composite material.

Known heat-insulating material, made in the form of a multilayer structure containing the outer layers of foamed polyethylene and an intermediate layer of aluminum foil between them (Utility model No. 25746 U1, 1/04 1/04, priority date 07/17/2002, publication date 10/20/2002).

A disadvantage of the known insulating material is the limited scope due to its unsuitability as a facing material due to insufficient fire resistance, rigidity and strength, due to the structure of the known material.

Closest to the proposed technical solution (prototype) is "COMPOSITE ALUMOPLASTIC PANEL" (RF patent for utility model No. 47931, option 1, IPC 7 E04F 13/08, Е04В 1/80, on. 2005.09.10), which contains a multilayer structure homogeneous for the entire panel, and is made in three versions depending on the shape. The multilayer structure of the composite aluminum-plastic panel is formed by aluminum sheets with or without polymer paint coating, between which the composite polymer layer is located. The connection of aluminum sheets with the core occurs by means of a thermopolymer adhesive applied during the extrusion process to the base polymer in a molten state. Aluminum sheets are made with a protective anti-corrosion coating, the inner one can have a primer coating, the outer one has a soil layer and a polymer decorative coating. The outer surface of the panel is protected by a special film. According to the first embodiment, the panel is made flat in shape. Composite Alu Plastic

the panel, according to the second embodiment, is made with upper and lower bends, L-shaped.

The disadvantages of the prototype are the low fire-resistant properties of the facing panels due to the heterogeneity of the structure of the material, their lack of rigidity and strength.

The objective of the proposed utility model is to create a panel design with both a high degree of fire resistance, strength and lightness.

Effect: increased strength, a high degree of fire resistance.

To achieve the above technical result provided by the utility model, in an aluminum composite panel containing a multilayer structure of interconnected layers, one of which is made of aluminum with protective coatings, the other is made of fire-resistant polymer material, according to this utility model, it contains two aluminum sheets between which there is a composite polymer layer made on the basis of a fire-resistant mineral-filled non-toxic polymer and connected to aluminum initial sheets by means of thermopolymer glue, while the surface of one of the aluminum sheets, which is external, is made with a polymer coating PVDF, Nano-PVDF or PE, while the composite polymer layer represents a homogeneous phase based on a polyethylene composition filled with hollow microspheres, the internal cavities of which are filled flame retardant and pentaerythritol.

This is the totality of essential features that provides a technical result in all cases to which the requested amount of legal protection applies.

In addition, the utility model is characterized by the presence of a number of optional features characterizing particular forms of its execution, namely:

- the outer surface of one of the aluminum sheets, which is the outer one, contains a primer layer and a polymer coating (PVDF, Nano-PVDF or PE).

- Ammonium polyphosphate was used as a flame retardant.

- the panel can be made flat or bent in the form of a cartridge.

Due to its inner layer, Kraspan-A1 panels have increased fire resistance. These are special refractory automatic gearboxes for those structures where high fire safety requirements are imposed on facade structures.

Figure 1 shows a fragment of the structure of an aluminum composite panel; figure 2 is a view of figure 1; figure 3 is a three-dimensional diagram of the installation of flat panels, figure 4 is a three-dimensional diagram of the installation of panels of cassette type.

The aluminum composite panel contains a multilayer structure, as shown in Fig. 1, with uniform layers, and can be made both flat and bent in the form of cassettes, depending on the installation method.

The composition of the panel in layers: protective film - 1; paint coat PVDF, Nano-PVDF or PE - 2; soil - 3; aluminum sheet - 4; thermopolymer adhesive - 5; composite polymer layer - 6; soil or anticorrosion coating - 7.

The aluminum composite panel consists of two aluminum sheets 4, between which there is a composite polymer layer 6, made on the basis of high-pressure polyethylene and connected to aluminum sheets with thermopolymer adhesive 5. The outer surface of one of the aluminum sheets, which is the outer one, is made with PVDF, Nano-PVDF or PE - coatings 2. The outer layer of painted aluminum can be equipped with a protective film - 1. The back side of the panel is covered with soil or anti-corrosion coating - 7.

The panel can be made flat in shape (see figure 3) or with bends around the perimeter of the cassette type; on the lateral, upper and lower bends at a right angle to the previous plane, outward and inward of the cassette, respectively, similar to the bends in the panel (figure 4).

For the manufacture of aluminum composite panels, aluminum is used with a thickness of 0.18 mm to 0.5 mm in rolls coated on the outer surface of one of the aluminum sheets, with a PVDF, Nano-PVDF or PE paint coating. The technology for producing a composite polymer layer is a know-how and is used for the production of panels of the Kraspan brand. A composite polymer layer made on the basis of a flame-retardant mineral-filled non-toxic polymer represents a homogeneous phase based on a polyethylene composition filled with hollow fly ash microspheres obtained from burning coal, the inner microsphere cavities are filled with flame retardant and pentaerythritol crystals, with ammonium polyphosphate used as a flame retardant. A composite polymer layer made on the basis of a fire-resistant mineral-filled non-toxic polymer is obtained by co-extrusion through a flat slot head, in the form of a sheet up to 6 mm thick, coated on both sides with thermopolymer adhesive, and fed to the beginning of the line. On both sides of the rolls, an aluminum tape is fed, and the layers are combined by thermal bonding, with ironing

through a two-roll calender, followed by heating, cooling, applying a protective film on an adhesive basis and cutting the panels to the extent of 4.5 m. The panels are made uniform over the entire width, determined by the size of the slit head of the extruder, which is 1250-1700 mm. The thickness of the composite panels is 3-6 mm. The marking and cutting of the panels is carried out from the back side, while in the places of bending the inner aluminum layer and the polymer layer are removed, for example, by milling. The bend is performed on bending equipment.

Aluminum composite panels can be used as cladding panels in various facade systems, including the system of suspended ventilated facades Kraspan.

Kraspan aluminum composite panels with PVDF, Nano-PVDF - coatings. They have the ability to clean themselves.

Nano-PVDF-coated aluminum composite panels have all the advantages of PVDF-coated aluminum composite panels. So, they have many advantages for different indicators. For example, resistance to pollution and self-cleaning property, also alkaline-acid resistance, etc. These panels are noticeably better than conventional aluminum composite panels with PVDF coatings.

Such products have the ability to self-clean. It is very convenient for ventilated building facades and any other external facings of objects. For example, rain will easily clean such a surface.

And thanks to the special Nano PVDF coating (a two-layer coating with a self-cleaning effect) based on the PVDF multilayer system of fluorocarbon films on the front surface, aluminum is protected from aggressive chemical attack and abrasion, making the panel surface resistant to weather conditions, solar UV radiation, and industrial emissions.

Claims (7)

1. An aluminum composite panel containing a multilayer structure of interconnected layers, one of which is made of aluminum with protective coatings, the other is made of heat-insulating polymer material, characterized in that it contains two aluminum sheets, between which there is a composite polymer layer made based on a fire-resistant mineral-filled non-toxic polymer and connected to aluminum sheets by means of thermopolymer glue, while the surface of one of the aluminum The outer wall is made with a decorative polymer coating, and the composite polymer layer represents a homogeneous phase based on a polyethylene composition filled with hollow microspheres, the internal cavities of which are filled with flame retardant and pentaerythritol. 2. The aluminum composite panel according to claim 1, characterized in that the polymer coating is made of Nano-PVDF. 3. The aluminum composite panel according to claim 1, characterized in that the polymer coating is made PE. 5. The aluminum composite panel according to claim 1, characterized in that the outer surface of one of the aluminum sheets, which is the outer, further comprises a primer layer and a polymer coating (PVDF). 6. The aluminum composite panel according to claim 1, characterized in that the flame retardant is ammonium polyphosphate. 7. The aluminum composite panel according to claim 1, characterized in that it can be made flat. 8. The aluminum composite panel according to claim 1, characterized in that it can be made curved in the form of a cartridge.