RU170175U1 - FACADE PANEL - Google Patents

Abstract

The invention relates to a facade panel for cladding and thermal insulation of building structures, comprising a facade element made of a material with a low coefficient of moisture and vapor permeability, an inner lining of vapor-permeable material and a heat-insulating layer located between the facade element and the inner lining, while the heat-insulating layer is made of separate lamellas of heat-insulating fibrous material with grooves forming ventilation ducts with a facade element, where the end lamellas are made integral, hydrophobized insulating fibrous material and the fibers are oriented perpendicular slat material facade elements, wherein the ends of the slats are displaced longitudinally relative to each other.

Description

The claimed technical solution relates to the field of construction, namely, the design of facade panels designed for cladding and insulation of facades of buildings and structures.

The prior art designs of facade panels for cladding and insulation of building structures, including a facade element to which the insulation is attached. As a heater, foam foamed insulation material is often chosen. However, the use of such materials, which have low vapor permeability indicators, leads to the fact that moisture from the room cannot go outside and accumulates in the outer walls of the structure, which leads to wetting of the surfaces of the latter.

From the patent of the Russian Federation No. 94597, cl. E04F 13/00, publ. 2009, a facade panel for facing and warming structures is known, including a facade element to which a heat-insulating layer is attached, with grooves made in it, forming ventilation ducts with the facade element. However, when laying heat-insulating plates on the facade element, gaps of different sizes arise between their joined ends, which excludes the possibility of obtaining a uniform uniform heat-insulating layer. This reduces the thermal insulation and strength characteristics of the facade panel.

As the closest analogue, RF patent No. 100793 for utility model, class. E04F 13/00, publ. 09/08/2010, which reveals the facade panel, including the facade element, to which is attached a heat-insulating layer consisting of lamellas, with grooves made in them, forming ventilation ducts with the facade element. However, in the joints of adjacent panels, the joint is not sealed due to the need to use fasteners, and precipitation can fall inside the facade panel at the locations of the fasteners. In addition, 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 technical result that can be obtained using the claimed utility model is to improve the thermal insulation of the walls of the structure by increasing the tightness and ensuring the removal of moisture from the surface of the constructed facade.

The specified technical result is achieved due to the design of the facade panel containing the facade element from a material with a low coefficient of moisture and vapor permeability, the inner lining of the vapor-permeable material and the heat-insulating layer located between the facade element and the lining, while the heat-insulating layer is made of individual lamellas of the heat-insulating fibrous material with grooves forming ventilation ducts with the facade element, where the end lamellas are made integral, and the heat-insulating fiber hydrophobized oily material and fiber material slats are oriented perpendicular to the facade elements, the ends of the slats are displaced longitudinally relative to each other.

And also due to the fact that 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 chipboard), LSU (glass-magnesium sheet), laminates can be selected high pressure sprayed coatings, such as cork.

And also due to the fact that the heat-insulating fibrous material is mineral wool and / or glass wool.

And also due to the fact that fiberglass, fiberglass, glass composite, sprayed materials can be selected as the material of the inner lining.

And also due to the fact that the lamellas of the heat-insulating layer are connected to the facade element by means of an adhesive composition.

And also due to the fact that the facade element is made with elements of the castle connection.

And also due to the fact that the inner surfaces of the ventilation ducts can be treated with dedusting agents.

And also due to the fact that it is equipped with additional layers of heat-insulating, sealing, vapor-permeable materials attached to the inner skin from the side adjacent to the insulated structure.

To achieve the technical result, it is proposed that the facade element be made of a material with a low coefficient of moisture and vapor permeability. Such a material can be selected from the group including: sheet metal, polymer material, sheet metal, polymer material, composite material, gypsum board, plywood, OSB (oriented particle board), LSU (glass-magnesium sheet), high pressure laminates, sprayed coatings, for example cork. These materials meet the requirements of structural stability on the one hand and, on the other hand, protect the heat-insulating material from moisture from the outside.

It is known that mineral wool or glass wool with a density of 60 to 140 kg / m ³ can be used as a heat-insulating material. Materials such as mineral and glass wool have a fibrous structure, with most of the fibers directed along the horizontal surface of the mineral wool (glass wool) plate. If the heat-insulating material is used in the form of plates, then the manufactured panel will have insufficient physical and mechanical characteristics. Therefore, in order to obtain a panel with the necessary physical and mechanical characteristics, a mineral wool (glass wool) plate is previously cut into lamellas. Then it is fed to the panel manufacturing line 90 degrees inverted relative to the initial position of the mineral wool board, at this position the orientation of the fibers becomes perpendicular to the surface of the facade element, which makes it possible to obtain a panel with the required physical and mechanical characteristics. However, the use of such a material for a facade panel does not exclude the ability of the material to accumulate moisture inside the layer. In order to limit this ability, the heat-insulating material is subjected to treatment with special water-repellent agents, they are gibrofobiziruyut. Namely, they are impregnated with various types of water absorbers known to specialists in this field, this gives the insulation layer resistance to moisture accumulation and thereby increases the thermal insulation properties of the whole structure as a whole.

For ventilation of the constructed facade, i.e. moisture removal from the heat-insulating material, in each lamella, grooves are made that form ventilation ducts with the facade element. The channels move air, which additionally vents the insulating material. The number and size of ventilation ducts are determined by calculation to achieve the removal of moisture from the wall surface of the structure with 80% humidity (these are the parameters of a wet brick wall, which, as a rule, correspond to a new, newly built building) and the absence of moisture accumulation in the wall subsequently.

However, when the panels are interconnected, fasteners are used, and precipitation can enter the facade panel through ventilation ducts at the locations of the fasteners, in the end lamellas. For this reason, the applicant proposed that the end slats be made integral, without grooves in them, for the formation of ventilation ducts, to maintain tightness at the joints of the panels.

In addition, to increase the reliability of the ventilation duct and eliminate the risk of reducing the cross-section of the duct, the inner surfaces of the ducts can additionally be treated with dedusting agents, which can reduce the content of small particles (dust) of thermal insulation material in the air passing through the ventilation ducts (“thrombosis” of the duct) and falling into the surrounding atmosphere.

Instead of separate fasteners connecting the panels to each other, a lock connection, for example, a spike-groove type, can be made on the facade element. Elements of such a lock are performed on the end surface of the facade element. This embodiment of the fastening system allows to obtain improved sealing between the panels.

From the side adjacent to the insulated surface of the structure, the facade panel for cladding and insulation of building structures is equipped with an inner lining made of vapor-permeable material. As the breathable sheathing material, fiberglass, fiberglass, glass composite, sprayed materials can be selected. The inner lining is necessary in order to additionally fasten the heat-insulating layer, consisting of lamellas. On the outside, the lamellas are attached by means of an adhesive composition to the facade element; there is a need to fasten the lamellas on the inside as well. Thus, the inner lining is necessary to impart mechanical strength to the entire panel structure.

But the inner lining should not only be durable, but also let moisture vapor pass through from the insulated surfaces of the structure. Because steam from the room penetrates the wall of the structure, then passes through the inner lining from the wall, then passes through the heat-insulating layer and exits with a stream of air passing through the ventilation ducts. Thus, insulation of the surface of the walls of the structure is achieved, while the moisture is removed from the walls.

The heat-insulating layer is placed between the facade element and the inner lining and is made of separate lamellas, while the ends of the lamellas are longitudinally offset from each other, this eliminates the deformation of the facade element and maintains the stability and strength of the structure as a whole, thereby not violating the thermal insulation properties of the panel.

If necessary, the facade panel can be additionally provided with a layer of less dense vapor-permeable heat-insulating material, for example, mineral or glass wool, which is connected to the inner lining from the side adjacent to the insulated structure. Since the density of such an additional thermal insulation material is low (20-50 kg / m ³ ), this layer can compensate for irregularities of the insulated surfaces, even out the curvature of the insulated surfaces of structures, which improves the quality of moisture removal from the surface of the insulated building facade and improves its thermal insulation.

The essence of the utility model is illustrated by the drawing, where in FIG. 1 shows a front panel in section.

The facade panel for cladding and thermal insulation of building structures contains a facade element 1 made of a material with a low coefficient of moisture and vapor permeability, for example, composite material or sheet metal, and an inner lining 2 made of a vapor-permeable material, such as, for example, fiberglass. Between these structural elements is placed a heat-insulating layer 3 of mineral wool or glass wool and which is connected to the facade element by means of an adhesive composition. The heat-insulating layer 3 is additionally hydrophobized to reduce moisture absorption. It is formed of individual lamellas 4, which are longitudinally offset relative to each other to maintain the stability of the panel structure. In each lamella 4, a groove 5 is made, forming a ventilation duct with a facade element 1. However, the end lamellas are made integral, there are no grooves in them. The inner surface of each ventilation duct can be treated with a dedusting agent to reduce the concentration of mineral (glass) cotton dust in the air passing through the cavity of the ventilation duct, which can impede the outflow of moisture from the surface of the building’s insulated facade.

On the end surfaces of the facade element 1 can be made elements 6, 7 of the castle connection type "spike-groove". These elements provide tightness at the junction of adjacent panels, which also enhances the thermal insulation properties of the structure.

The facade panel may be provided with an additional layer 8 of a less dense heat-insulating material, which is attached to the inner lining 2 from the side adjacent to the insulated structure 9.

This example of the implementation of the facade panel is not limiting embodiments of the claimed utility model.

The specified design of the facade panel ensures the achievement of the claimed technical result, namely, improving the thermal insulation of the walls of the structure by increasing the tightness and ensuring the removal of moisture from the surface of the constructed facade. At the same time, each specified feature of the design affects the achievement of the technical result.

Claims (8)

1. The facade panel for cladding and insulation of building structures, comprising a facade element made of a material with a low coefficient of moisture and vapor permeability, an inner lining of a vapor-permeable material and a heat-insulating layer located between the facade element and the inner lining, while the heat-insulating layer is made of separate heat-insulating lamellas fibrous material with grooves forming ventilation ducts with the facade element, where the end lamellas are made integral, and the heat-insulating fiber hydrophobized grained material and fiber material slats are oriented perpendicular to the facade elements, the ends of the slats are displaced longitudinally relative to each other. 2. The facade panel according to claim 1, characterized in that as a material with a low coefficient of moisture and vapor permeability of the facade element can be selected sheet metal, polymer material, composite material, gypsum board, plywood, OSB (oriented chipboard), LSU (glass-magnesium sheet), high pressure laminates, sprayed coatings, for example cork. 3. The facade panel according to claim 1, characterized in that the heat-insulating fibrous material is mineral wool and / or glass wool. 4. The facade panel according to claim 1, characterized in that fiberglass, fiberglass, glass composite, sprayed products can be selected as the sheathing material. 5. The facade panel according to claim 1, characterized in that the lamellas of the heat-insulating layer are connected to the facade element by means of an adhesive composition. 6. The facade panel according to claim 1, characterized in that the facade element is made with elements of the castle connection. 7. The facade panel according to claim 1, characterized in that the inner surfaces of the ventilation ducts can be treated with dust removal agents. 8. The facade panel according to claim 1, characterized in that it is provided with an additional layer of heat-insulating material attached to the inner lining from the side adjacent to the insulated structure.

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