RU186882U1 - DECORATIVE WALL PANEL - Google Patents

Abstract

The utility model relates to the field of construction, namely to heat-insulating materials with a decorative external surface, and can find application in wall cladding of buildings. The decorative-protective wall panel includes a base layer and a protective layer of fiberglass concrete applied by spraying on it. The main layer is made of mineral wool with a bulk density of 110-150 kg / m ³ . The protective layer is sprayed. The protective layer is made of a mixture of quartz sand fractions of 0.63-2.5 mm, cement grade M500-M600 and glass fibers 10-30 mm long. The technical result is an increase in the vapor permeability of the wall panel with an increase in its ductility. 2 ill.

Description

The utility model relates to the field of construction, namely to heat-insulating materials with a decorative external surface, and can find application in wall cladding of buildings.

Known wall panel, comprising a metal frame and a fibrous insulating layer of mineral wool with a density of 120-175 kg / m ³ (patent RU 120436, publ. 09/20/2012). The metal frame is made with the possibility of connection with the metal frames of adjacent wall panels when laying on the outer wall of the building.

The specified panel is not strong enough, due to the destruction of the metal frame due to its corrosion during prolonged use in outdoor conditions.

The closest in technical essence is the wall panel used in large-panel housing construction and includes reinforced concrete layers, such as the first layer made of expanded clay concrete, the main insulation layer, and the outer (protective) layer connected by flexible metal bonds, while the main layer is made of foam glass with air channels located in the plane of the panel, the channels are not through, and the outer layer is made of fiberglass concrete (patent RU 174708, publ. 30.10.2017). The glass-fiber-reinforced concrete outer layer is made of cement concrete on dense aggregates with alkali-resistant fiberglass and can be applied to the main layer both at the manufacturer's site and at the construction site by torqueting (application under pressure with compressed air).

However, the known wall panel, selected as a prototype, is characterized by insufficient reliability during long-term operation. This is due to the fact that the main layer of the panel (foam glass) is very fragile and when using the panel to insulate walls and ceilings with insignificant movements of the structure of the entire building (with temperature and humidity differences up to 2 mm / r.s.cm), the intermediate layer cracks. Moisture gets into the cracks that, when frozen, further destroys the panel, as a result of which the wall panel becomes unsuitable for use as a heater. In addition, the foamglass is vapor-tight, which leads to the development of molds on the insulated surface (on the ceiling, wall) with its subsequent destruction. A technical problem is the creation of a decorative-protective wall panel, characterized by a high degree of reliability during prolonged use in difficult climatic conditions (high humidity) , sudden changes in temperature, etc.).

The technical result consists in increasing the vapor permeability of the wall panel while increasing its ductility.

The technical result is achieved by the fact that in the decorative protective wall panel including the base layer and the protective layer made of fiberglass concrete applied by spraying, according to the utility model, the main layer is made of mineral wool with a bulk density of 110-150 kg / m ³ , the protective layer made of a mixture of quartz sand fractions of 0.63-2.5 mm, cement grade M500-M600 and glass fibers 10-30 mm long.

The implementation of the main layer of the mineral wool panel allows the specified layer to perceive the deformation of the insulated surfaces (walls, ceilings) during operation without destruction and level their influence (the effect of deformations) on the outer layer (fiberglass concrete layer), which ensures the ductility of the wall panel as a whole. At the same time, the use of mineral wool with the stated bulk density (110-150 kg / m ³ ) determines the presence in the structure of the main layer of the optimal number of pores between the fibers, which allows us to obtain the optimal vapor permeability of the wall panel as a whole while maintaining its ductility and, therefore, increases reliability of the panel during long-term operation in difficult conditions.

The application of the protective layer by spraying under pressure ensures the penetration of the mixture of the protective layer into the surface layers of the main layer, its compaction, which, upon subsequent curing of the applied mixture, increases the adhesion of the panel layers (main and protective) to each other. In addition, it is possible to obtain a layer of very small thickness, which makes it possible for the said layer to transmit steam while maintaining the protective properties and the ability to perceive deformations transmitted from the main layer elastically, without destruction. All this together leads to an increase in the protective functions of the specified layer (for example, from atmospheric influences) while maintaining the ductility and vapor permeability of the panel, and, therefore, further enhances the reliability of the wall panel.

The use of quartz sand, cement and glass fibers with the specified parameters allows you to get a protective layer with optimal morphology (internal structure and density), which allows steam to penetrate while maintaining protective properties, and, therefore, further contributes to the achievement of the technical result. In addition, it also allows the formation of various textures of the surface of the protective layer (the front surface of the panel).

The experimental data of the authors of the utility model showed that the implementation of the main layer of the panel made of mineral wool, the bulk density of which varied in the range of values 110-150 kg / m ³ , with different thicknesses (100-180 mm) ensured that the panel corresponded to the required operational performance for SP 293.1325800.2017 “Facade heat-insulating composite systems with external plaster layers. Rules for the design and production of works. " When performing the main layer with a density of less than 110 kg / m ³ , on the contrary, there was a decrease in the adhesion strength of the protective layer to the main layer, as well as a deterioration in the mechanical characteristics of the main layer. As a result of the operation of such panels in difficult climatic conditions, the protective layer peeled off and cracked, exposing the main layer to moisture, as a result of which the latter became wet and collapsed with minor deformations. When performing the main layer with a bulk density of more than 150 kg / m ^{3, the} vapor permeability of the main layer increased slightly, but the cost of the panel as a whole increased significantly.

The claimed utility model is illustrated by drawings, where in FIG. 1 shows a cross section of a decorative protective wall panel (straight panel), FIG. 2 shows a cross section of a wall panel (corner panel).

The wall panel includes a base layer 1 of mineral wool and a protective layer 2 of fiberglass concrete. The protective layer 2 is applied by spraying a mixture of quartz sand with fractions of 0.63-2.5 mm, cement grade M500-M600 and glass fibers 10-30 mm long. A mixture of fiberglass concrete can be stained in the mass in any color.

Below are examples of the implementation of a utility model. The indicators of adhesion strength, impact strength, frost resistance and vapor permeability were measured according to GOST R 56707-2015.

Example 1.1

The main layer of decorative-protective wall panel is made of mineral wool with a bulk density of 115 kg / m ³ , thickness 110 mm. A protective layer of fiberglass concrete prepared from a solution is applied by spraying onto the main layer, which includes: quartz sand fraction - 1.0 mm, concrete grade - M500, glass fiber length - 15 mm. The characteristics of the resulting panel are as follows: adhesion strength - 0.020 MPa, vapor permeability - 1.33 mg / (m ² * h * Pa), impact strength - 9 J,

frost resistance - 100 cycles. The texture of the front surface of the outer layer is medium-grained.

Example 1.2

The main layer of decorative-protective wall panel is made of mineral wool with a bulk density of 115 kg / m ³ , thickness 110 mm. A protective layer of fiberglass concrete prepared from a solution is applied by spraying the main layer, which includes: quartz sand fraction - 0.65 mm, concrete grade - M500, glass fiber length - 10 mm. The characteristics of the resulting panel are as follows: adhesion strength - 0.022 MPa, vapor permeability - 1.36 mg / (m ² * h * Pa), impact strength - 8.9 J, frost resistance - 100 cycles. The texture of the front surface of the outer layer is fine-grained.

Example 1.3

The main layer of the decorative-protective wall panel is made of mineral wool with a bulk density of 110 kg / m 3 and a thickness of 110 mm. A protective layer of fiberglass concrete prepared from a solution is applied by spraying the main layer, which includes: quartz sand fraction - 0.65 mm, concrete grade - M500, glass fiber length - 10 mm. The characteristics of the resulting panel are as follows: adhesion strength - 0.021 MPa, vapor permeability - 1.36 mg / (m ² * h * Pa), impact strength - 8.7 J, frost resistance - 100 cycles. The texture of the front surface of the outer layer is fine-grained.

Example 2.1

The main layer of the decorative-protective wall panel is made of mineral wool with a bulk density of 125 kg / m ³ and a thickness of 150 mm. A protective layer of fiberglass concrete prepared from a solution is applied by spraying onto the main layer, which includes: quartz sand fraction - 2.5 mm, concrete grade - M600, glass fiber length - 20 mm. The characteristics of the resulting panel are as follows: adhesion strength - 0.025 MPa, vapor permeability - 1.32 mg / (m ² * h * Pa), impact strength - 9 J, frost resistance - 100 cycles. The texture of the front surface of the outer layer is coarse-grained.

Example 2.2

The main layer of the decorative-protective wall panel is made of mineral wool with a bulk density of 125 kg / m ³ and a thickness of 150 mm. A protective layer of fiberglass concrete prepared from a solution is applied by spraying onto the main layer, which includes: quartz sand fraction - 1.5 mm, concrete grade - M500, glass fiber length - 30 mm. The characteristics of the resulting panel are as follows: strength

adhesion - 0.023 MPa, vapor permeability - 1.31 mg / (m ² * h * Pa), impact strength - 9 J, frost resistance - 100 cycles. The texture of the front surface of the outer layer can be - medium-grained, with large impregnations.

Example 3.1

The main layer of decorative protective wall panel is made of mineral wool with a bulk density of 150 kg / m ³ , a thickness of 170 mm. A protective layer of fiberglass concrete prepared from a solution is applied by spraying the main layer, which includes: quartz sand fraction - 2.5 mm, concrete grade - M600, glass fiber length - 30 mm. The characteristics of the obtained panel are as follows: stiffness - 0.028 MPa, vapor permeability - 1.31 mg / (m ² * h * Pa), impact strength - 9 J, frost resistance - 100 cycles. The texture of the front surface of the outer layer is coarse-grained.

Example 3.2

The main layer of decorative protective wall panel is made of mineral wool with a bulk density of 145 kg / m ³ , a thickness of 170 mm. A protective layer of fiberglass concrete prepared from a solution is applied by spraying the main layer, which includes: quartz sand fraction - 2.0 mm, concrete grade - M600, glass fiber length - 20 mm. The characteristics of the resulting panel are as follows: stiffness - 0.027 mPa, vapor permeability - 1.33 mg / (m ² * h * Pa), impact strength - 9 J, frost resistance - 100 cycles. The texture of the front surface of the outer layer is medium-grained.

Thus, the claimed useful provides increased reliability of the decorative-protective wall panel by increasing the vapor permeability of the wall panel while increasing its ductility. An additional technical result is the possibility of creating various textures of the surface of the protective layer (front surface of the panel) while maintaining its protective functions.

Claims (1)

Decorative-protective wall panel, including the main layer and a spray-applied protective layer of fiberglass concrete, characterized in that the main layer is made of mineral wool with a bulk density of 110-150 kg / m ³ , the protective layer is made of a mixture of silica sand fractions 0 , 63-2.5 mm, cement grade M500-M600 and glass fibers 10-30 mm long.

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