RU203422U1 - Heat-insulating facade panel - Google Patents

Abstract

The utility model relates to construction. The front heat-insulating panel contains a base, on the front side of which rows with rectangular decorative plates are displaced relative to each other, in each row and between rows decorative plates are located at a distance from each other with the formation of an inter-tile seam, the base is made in the form of a rectangular shape in plan of a plate of expanded polystyrene, along one long side side of which the extreme row of decorative plates is located at a distance from the edge of this side of the base with the formation of a longitudinally located projection of the base in relation to the decorative plate. The length of the base is made equal to the length of the row of decorative plates. For each of the two adjacent rows of decorative plates, one row of these plates is located protruding beyond the edge of one side of the base, which is transverse to the direction of location of this row of decorative plates, and the other row of decorative plates is located protruding beyond the edge of the other side of the base, which is transverse to the direction the location of this row of decorative plates. In the base for each decorative plate, a recess is made, in plan shape corresponding to the shape of the decorative plate for fixing this plate in this recess. On the back side of the base there are recesses for the formation of ventilation ducts. 4 ill.

Description

The utility model relates to construction and can be used for cladding facades and increasing the thermal protection of residential, public and industrial buildings and structures and concerns the design of heat-insulating cladding panels with a decorative coating on the front side, imitating the texture of natural and artificial stones.

Known is a front heat-insulating panel containing a base, on the front side of which rows with rectangular decorative plates are displaced relative to each other, in each row and between rows decorative plates are located at a distance from each other with the formation of a tile seam, the base is made in the form of a rectangular shape in plan of a plate of expanded polystyrene, along one long side side of which the extreme row of decorative plates is located at a distance from the edge of this side of the base with the formation of a longitudinally located protrusion of the base in relation to the decorative plate, while the base is made equal to the length of the row of decorative plates, and for each of two adjacent rows of decorative plates, one row of these plates is located protruding beyond the edge of one side of the base, which is transverse to the direction of location of this row of decorative plates, and the other row of decorative plates is located It is laid out protruding beyond the edge of the other side of the base, which is transverse to the direction of location of this row of decorative plates (see. "Ordinary thermal panels based on PPS", posted on the website of "Thermopanels EUROPA" of the company "FasadKeramika" in on-line access to the Internet at the address: https://www.termopaneli.ru/#news, found 03.08. ., a copy of the site pages is attached on 3 pages).

This decision was made as a prototype for the declared object.

A feature of this front panel is that the base is made of two slabs, the first of which is the bottom layer, has guides inserted into the body of the plates along the edges for fastening elements such as dowels and has a rectangular shape, and the other, which is glued to the bottom from above, is made with offset ridges in rows to simulate brickwork. Clinker ceramic tiles are glued to this top plate (it is possible to strengthen these decorative tiles when forming the top plate). These tiles are placed at a distance from each other, and this tile gap mimics the seam of the masonry. The tiles protrude above the surface of the top plate.

The use of decorative tiles made it possible not only to protect expanded polystyrene from the external environment (in particular, when painting the joints, the effect of ultraviolet radiation on the base material is neutralized), but also to obtain a flawless brick-like cladding with an ideal geometry of the facade decoration due to the clear arrangement of the clinker tiles during molding in expanded polystyrene.

With a variety of color solutions for clinker tiles and a wide range of textures and the very material from which these tiles can be made, manufacturers do not know in advance which tiles will be required by the buyer's order. In this regard, it is fashionable to manufacture such facade panels only if the color and texture are approved by the customer. It takes some time to manufacture the ordered façade panels. Creating a stock in the warehouse of pre-made facade panels with different color and texture solutions of clinker tiles is not cost-effective. That is why the technology of reinforcing tiles in expanded polystyrene when molding the base has become in demand. But this molding is not deepening the tiles into expanded polystyrene, this operation is gluing the tiles to the expanded polystyrene, in which the tiles are laid in a special tooling in which the geometry of the masonry is strictly maintained. If there is a shortage during the installation of facade panels, it will take time to make additional panels at the factory and make up for the shortage.

An easier way is to glue the clinker tiles in a pattern to the surface of the base, but this method cannot withstand the strict geometry of the masonry. Even small distortions or misalignments of tiles become visible in the array of panels on the wall. But this method allows you to make panels as needed directly at the place of installation of facades.

The operation of forming the base and the operation of gluing the tiles on this base are two different technological processes, each of which takes place under its own conditions, both in temperature and according to the equipment used, and according to the materials and raw materials used. Therefore, mixing the two processes into one universal is not, in fact, the right decision.

Despite the fact that the general construction of facade panels with the use of expanded polystyrene is simple, in reality, the manufacture of such facade panels belongs to the category of complex ones in terms of controlling the strict position of the geometry of clinker tiles.

The problem that is solved by this utility model is to separate the operations for the production of decorative plates and the base and make changes to the base structure, which makes it possible to manufacture facade panels directly at the installation site of the facade and not depend on the need to use industrial conditions. This task should be solved by the fact that the base and decorative tiles are made separately according to separate technological processes, and the assembly of the facade panels should be carried out both at the production site and at the installation site without losing the geometry of the masonry in the tile pattern.

This utility model is aimed at achieving a technical result, which consists in providing the possibility of assembling facade panels at the place of their installation due to the formation of niches in the base for clinker tiles.

The specified technical result is achieved by the fact that in a facade heat-insulating panel containing a base, on the front side of which rows with rectangular decorative plates are displaced relative to each other, in each row and between rows decorative plates are located at a distance from each other with the formation of inter-tile seam, the base is made in the form of a rectangular plate in the plan of expanded polystyrene, along one long side side of which the extreme row of decorative plates is located at a distance from the edge of this side of the base with the formation of a longitudinally located protrusion of the base in relation to the decorative plate, while the base is made along the length equal to the length of a row of decorative plates, and for each of two adjacent rows of decorative plates, one row of these plates is located protruding beyond the edge of one side of the base, which is transverse to the direction of location of this row of decorative plates astin, and the other row of decorative plates is located protruding beyond the edge of the other side of the base, which is transverse to the direction of location of this row of decorative plates, in the base for each decorative plate a recess is made in the shape in plan corresponding to the shape of the decorative plate for fixing this plate in this recess, and on the back side of the base there are recesses for the formation of ventilation ducts.

In this case, the recess for each decorative plate is made with a depth less than the thickness of this plate, or the recess for each decorative plate is made with a depth greater than the thickness of this plate to form a tile seam with a height exceeding the thickness of the decorative plate

And decorative plates can be made in the form of clinker tiles or in the form of flexible clinker tiles or in the form of artificial stone plates or in the form of clay-based plates.

In the part of the base on each side, located between the rows and transversely to the direction of the arrangement of the rows of decorative plates, holes are made for the elements of the panel attachment to the surface.

These features are essential and are interconnected with the formation of a stable set of essential features sufficient to obtain the required technical result.

The present utility model is illustrated by specific examples of execution, which, however, are not the only possible ones, but clearly demonstrate the possibility of achieving the required technical result.

FIG. 1 is a general view in plan of a front thermal insulation panel;

fig. 2 - section A-A according to Fig. 1, a first example of a recess and a base;

fig. 3 - section A-A according to Fig. 1, a second example of the execution of the recess and the base;

fig. 4 is a general view of a base with recesses for decorative plates.

According to this utility model, a new design of a facade panel with a thermal insulation function is considered, used for cladding facades and increasing the thermal protection of walls of various residential, public and industrial structures.

The front panel is heat-insulating (Figs. 1-3), containing a base 1, on the front side of which rows with decorative plates 2 of rectangular shape each are located offset relative to each other. In this case, in each row and between the rows, decorative plates are located at a distance from each other with the formation of a tile seam 3, which is called a jointing seam. Joints are a special technique in masonry and ceramic tiles to create a uniform, aesthetically pleasing joint between adjacent bricks or tiles.

Clinker tiles are used as decorative tiles, including flexible clinker tiles or artificial stone plates or clay-based plates. Such tiles can be in the form of rigid plates that do not bend under external force (similar in strength to ceramic tiles). And flexible clinker is a real clinker brick tile that has the ability to bend at any angle. Flexible clinker finished surfaces are indistinguishable from natural fired ceramic bricks. As a rule, clinker tiles with the following dimensions are used: 240x71x3 mm. When using such tiles, the recommended width of the tile (jointing) joint is 10 mm.

The base 1 is made in the form of a rectangular plate in the plan of expanded polystyrene. Polyfoam or expanded polystyrene with additives of fire retardants is a rigid insulating material produced in the form of boards of various densities and thicknesses. The raw material for its manufacture is polystyrene granules, and the foaming agents are low-boiling hydrocarbons and gas-formers. Gas-filled cells provide low thermal conductivity and provide excellent insulation. Plates have the ability to absorb noise, protecting the house from extraneous sounds. Moisture resistance and low water absorption allow you to use the insulation outside the building, including for the foundation and basement. Polyfoam is resistant to biological effects, it is not a favorable breeding ground for mold and fungi. The compressive strength of the slabs allows them to be used as a reliable base for facade finishing.

Thus, the thermal insulation facade panel consists of several components: insulation - which is the facade expanded polystyrene (thickness from 40 mm to 100 mm), facing material - clinker tiles, flexible clay-based clinker tiles or artificial stone. At the same time, in order to speed up the installation and reduce the time and labor costs for installation work, the panel according to this utility model is manufactured in small panel sizes with an approximate total front surface area of 0.25 m ² - 632x480 mm with an optimal thickness of about 60 mm. This allows one installer to work on one panel without an assistant. In addition, the probability of base fracture is sharply reduced. With an increase in the area of the panel, problems arise with its movement and lifting by several installers, as well as the likelihood of breaking the panel developed in area. Despite the fact that the facade polystyrene foam refers, as a material, to a durable type of material, with a small thickness and developed surface, it easily breaks. After decorative plates are glued to the front of such a sheet, the zones of the inter-tile seam become stress concentrators, and when bent, such a panel can break along this seam. In this regard, it becomes expedient to use facade panels of small overall dimensions, for example, six rows of two decorative tiles in a row. The spatial strength of such a panel is significantly higher than that of a panel with an area two to three times larger.

Along one long side side of which the outermost row of decorative plates is located at a distance from the edge of this side of the base to form a longitudinally located projection of the base in relation to the decorative plate. Along the length, the base is made equal to the length of the row of decorative plates, and for each of two adjacent rows of decorative plates one row of these plates is located protruding beyond the edge of one side of the base, which is transverse to the direction of location of this row of decorative plates, and the other row of decorative plates is located protruding beyond the edge of the other side of the base, which is transverse to the direction of location of this row of decorative plates.

Thus, the panel has both projections and recesses formed between them on the lateral sides. With this design, when two panels are connected, the protrusions of one panel enter the recesses of the other panel in the "tenon-groove" type of connection.

In the areas between the protrusions formed by the protruding parts of the decorative tiles, the base is located below the level of these tiles and forms seating nests for the protrusions of the tile to be connected. Through holes 5 are made in these nests or guides for dowels are installed. That is, in the part of the base on each side, located between the rows and transversely to the direction of the arrangement of the rows of decorative plates, holes 5 are made for the elements for attaching the panel to the surface (wall). The thermal panels are joined horizontally with each other by the specified thorn-groove fastening and have an inter-axial hidden fastening in the thorn-groove system, which allows to hide fasteners during installation (a 50 mm diameter rondole and a fastening element - a self-tapping screw, a concrete screw, etc.). etc.). The vertical joint occurs in a quarter of the panel with a depth of 25 mm.

On the rear side of the base there are recesses for forming ventilation ducts 6. These ducts are made transversely to one of the panel dimensions, taking into account the panel mounting and the fact that these channels should be vertically oriented after the panel is attached to the surface (wall).

A feature of the claimed utility model is that on the front side of the base for each decorative plate, a recess 7 is made in the shape in plan, corresponding to the shape of the decorative plate 2. This recess or niche is intended for fixing the clinker tiles in this recess (Fig. 4).

This implementation of the foundation allows you to solve two problems. The first is to provide a ready-made joint with an even surface and processed edges at the base molding level. After that, it is enough to paint over this seam with a facade water-dispersion paint of the F series or wipe it with a special compound. Painting is necessary to protect this seam from UV exposure. The second is the possibility on a universal base, which is the same for all types of decorative plates. fix the clinker tiles with polymer glue. When fastened in recesses, the jointing seam functions as a template and guides at the same time, which makes it possible to eliminate displacements or distortions when gluing tiles. In addition, this allows panels to be assembled directly on site.

These recesses for each decorative plate can be made with a depth less than the thickness of this plate (Fig. 2), or the recess for each decorative plate can be made with a depth greater than the thickness of this plate to form a tile seam with a height exceeding the thickness of the decorative plate (Fig. 3). For example, in the base, the recess / niche for the facing material (tile dimensions or 245 × 65 mm or 240 × 71 mm) is 2 mm deep, and the protruding seam is 2 mm high and 10 mm wide.

The base can be made in two parts. The first is the EPS bottom plate, called the base element. The second is a template with openings / holes for tiles. When the template is applied to the base element, the surface of the base element overlaps the openings and forms a bottom in each opening (Fig. 2).

The base can be formed with the simultaneous formation of depressions and a tile seam, as shown in FIG. 3.

The use of facade panels according to this utility model provides the following advantages:

hidden fastening in a thorn-groove;

the small area of the panel and the weight of one panel make it possible not to resort to a large number of workers;

with a painted seam, installation is done twice as fast;

with a painted seam, installation is possible in any weather;

reduction of time for panel production and the ability to assemble panels at the installation site;

reduction of installation time.

Claims (8)

1. A front heat-insulating panel containing a base, on the front side of which rows with rectangular decorative plates are displaced relative to each other, in each row and between rows decorative plates are located at a distance from each other with the formation of a tile seam, the base is made in the form a rectangular plate of expanded polystyrene in plan, along one long side side of which the extreme row of decorative plates is located at a distance from the edge of this side of the base with the formation of a longitudinally located protrusion of the base in relation to the decorative plate, while the base is made equal to the length of the row of decorative plates, and for each of two adjacent rows of decorative plates, one row of these plates is located protruding beyond the edge of one side of the base, which is transverse to the direction of location of this row of decorative plates, and the other row of decorative plates is located It protrudes beyond the edge of the other side of the base, which is transversely located to the direction of location of this row of decorative plates, characterized in that a recess is made in the base for each decorative plate, in plan shape corresponding to the shape of the decorative plate for fixing this plate in this recess, and on the back side of the base has recesses for the formation of ventilation ducts. 2. The facade panel according to claim 1, characterized in that the recess for each decorative plate is made with a depth less than the thickness of this plate. 3. The facade panel according to claim. 1, characterized in that the recess for each decorative plate is made with a depth greater than the thickness of this plate, to form a tile seam with a height exceeding the thickness of the decorative plate. 4. The front panel according to claim 1, characterized in that in the part of the base on each side thereof, located between the rows and transversely to the direction of the arrangement of the rows of decorative plates, holes are made for elements of the panel attachment to the surface. 5. The facade panel according to claim 1, characterized in that the decorative plates are made in the form of clinker tiles. 6. The facade panel according to claim 1, characterized in that the decorative plates are made in the form of flexible clinker tiles. 7. A facade panel according to claim 1, characterized in that the decorative plates are made in the form of artificial stone plates. 8. The facade panel according to claim 1, characterized in that the decorative plates are made in the form of clay-based plates.

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