RU2468165C2 - Method to install heat insulating panels - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method to install heat insulating panels includes assembly of adjacent panels by arrangement of panels onto a facade surface, connection of adjacent panels, at least one side of every of which comprises alternately arranged ledges and grooves so that ledges of one panel are applied onto grooves of the other panel, and fixation of panels onto the facade surface, besides, adjacent panels are joined, at least one side of every of which comprises an end ledge arranged practically along the entire length, so that panels are applied with ledges one over the other.

EFFECT: simplified process for installation of heat insulation panels, increased heat insulation of a facade, higher reliability and durability of facade finishing, apart from high aesthetic characteristics of a facade.

11 cl, 4 dwg

Description

The invention relates to the field of construction and is intended for insulation and decorative finishing of the outer surface of buildings and structures for various functional purposes.

Closest to the claimed solution and adopted as a prototype is the solution presented in the patent of Ukraine No. 10001, IPC ⁷ E04F 13/00, publ. 10/17/2005. The said patent describes a cladding panel, the installation of which includes placing panels on the facade surface, connecting adjacent panels, at least one side of each of which contains alternately protrusions and recesses so that the protrusions of one panel are superimposed on the recesses of the other panel, and the fastening panels on the surface of the facade.

The disadvantage of the described technical solution is the ability to connect adjacent panels only by joining their sides containing alternately protruding protrusions and recesses in such a way that during installation, the protrusions of one panel are superimposed on the recesses of the other panel located in a horizontal row, while in a vertical row adjoining panels simply install one on another. With this method of installing adjacent panels, the connection density of adjacent panels in a vertical row is reduced, which, in turn, leads to a deterioration in the thermal insulation of the facade, and the degree of reliability and durability of its finish is also reduced.

Poor facade decoration of the building is often the reason for its low thermal protection, which, in turn, leads to an increase in energy costs.

The basis of the invention is the task to develop such a method of installing heat-insulating panels on the facade, in which due to the optimal selection of the sequence and composition of actions for installing the developed heat-insulating panel, as well as the devices used in this case, the simplification of the process of installing heat-insulating panels on the surface of the walls, increasing thermal insulation facade, increasing the reliability and durability of the facade, along with high aesthetic characteristics of the facade.

The problem is solved in that the method of installing heat-insulating panels includes mounting adjacent panels by placing panels on the surface of the facade, connecting adjacent panels, at least one side of each of which contains alternately made protrusions and recesses so that the protrusions of one panel are superimposed on the recesses another panel, and fixing panels on the surface of the facade. According to the invention, adjacent panels are connected, at least one side of each of which comprises an end protrusion made almost over the entire length, so that the panels are overlaid with protrusions. Such a connection of adjoining panels, in which at least one side of each of the panels comprises alternately protrusions and recesses and at least one side of each of the panels comprises an end protrusion made over almost the entire length, allows tightly and reliably connecting adjacent panels between each other, which eliminates the occurrence of gaps between adjacent panels and, in turn, improves the thermal insulation of the facade as a whole.

Moreover, the panel according to the invention contains a lower heat-insulating part and an upper facing part, which contains decorative facing elements. Moreover, at least one side of the panel contains alternately made protrusions formed by the facing part in the form of facing elements, and recesses for connection with corresponding protrusions and recesses of the adjacent panel. At least one side of the panel comprises an end protrusion formed over substantially the entire length, formed by a protruding heat-insulating part or a protruding cladding part of the panel for connection with the corresponding protrusion of the adjacent panel. Moreover, at least one end of the insulating part of the panel contains a longitudinal selection. In addition, it is possible to perform at least one end of the panel with a beveled surface and a groove made along it. It is also possible to make holes in the recesses of the panel on at least one side of the panel for fasteners.

Preferred is such an implementation of the method in which the adjacent panels are connected in such a way that a cavity is formed at the junction of them, bounded by the surfaces of the ends of the adjacent panels, which is filled with polyurethane foam. Such a connection of adjacent panels with the formation of a cavity at the junction allows additionally sealing the joints of adjacent panels by introducing polyurethane foam into the formed cavities, which acts as a heat-insulating and fixing material, which improves the thermal insulation of the facade as a whole and increases the reliability and durability of the facade decoration. The use of polyurethane foam as a filler in the formed cavities is due to its high quality characteristics, in particular low heat conductivity, strength, lightness, moisture resistance, and the fact that polyurethane foam is able to fill joints well in building structures and adheres to all common building materials. Surfaces do not require pretreatment, the hardening of the foam occurs under the influence of a chemical reaction with ambient air. It should be noted that the use of polyurethane foam is preferred, but other heat-insulating and fixing materials can also be used.

Preferred is such an implementation of the method in which panels are mounted that contain decorative cladding elements, and the panels are mounted in such a way that a seam is formed at the junction of them, simulating the seam of the masonry of the cladding elements. Such use of panels with decorative cladding elements, the shape and size of which can vary, allows, along with the thermal insulation function of the panel, to use it also as a decorative element, which eliminates the need for special installation of decorative cladding, and therefore, simplifies installation. And mounting the panels in such a way that a seam is formed at the place of their connection, imitating the seam of the masonry of the facing elements, gives an aesthetically attractive appearance to the facade.

Preferably grouting the joints between the facing elements with a flame retardant grouting composition. The use of fire-resistant grouting compounds for grouting increases the fire safety of the system, as well as resistance to adverse weather conditions, which, in turn, increases the reliability and durability of the facade.

Preferably, the panels are attached to the surface of the facade through a portion of the holes previously made on their surface, with polyurethane foam being introduced into the free holes before the panels are finally fixed. The introduction of polyurethane foam between the surface of the facade and the installed panel creates additional thermal insulation of the facade, as well as additional fixation of the panel to the facade. The indicated sequence of fastening panels, in which the panel is first fixed through part of the holes, eliminates the need to create additional holes for the introduction of polyurethane foam. Thus, the remaining part of the holes on the surface of the panel is used both for introducing polyurethane foam and then for fixing the panel with fasteners, which simplifies the process of installing heat-insulating panels on the facade.

Preferably, the panels are further secured through at least one opening formed in a recess of at least one side of the panel. Additional fixation of panels increases the reliability and durability of the facade.

Preferably, the panels are fixed by means of fasteners in the form of dowels, but other types of fasteners are also possible.

Preferably, the panels adjacent to the corner of the facade are mounted in such a way that the vertical end of the panels is pre-cut to form a beveled surface, a vertical groove is formed on the indicated surface, which, after attaching to the wall of the panels adjacent to the corner of the facade, is filled with a polyurethane foam. Such installation of panels adjacent to the corner eliminates the need for special corner elements, which simplifies the installation of heat-insulating panels on the facade, and also creates a uniform facade surface and reduces the number of joints. In addition, the execution of the gutter on a sloping surface and filling it with polyurethane foam helps to seal the junction of adjacent panels, which increases the thermal insulation of the facade, in addition, the above-described qualitative characteristics of polyurethane foam contribute to the fixation of adjacent panels to each other.

Preferably, the vertical end face of the panels is cut at an angle of 40-50 °, more preferably at an angle of 45 °, to create a right angle of the facade.

The claimed technical solution is illustrated using figures, where:

Figure 1 shows a General view of the insulating panel;

Figure 2 shows a schematic view of the installation of the panel at the corner of the facade;

Figure 3 shows a schematic view of the installation of adjacent panels at the corner of the facade;

Figure 4 shows a schematic view of the joint between adjacent panels.

The invention is as follows.

Thermal insulation panels are installed on the surface of the facade in horizontal and vertical rows. Preferably, the installation is carried out from the corner of the facade and from the bottom up. In this example, the heat-insulating panel 1, which contains the lower heat-insulating part 2, made of, for example, polyurethane foam, and the upper cladding part 3, which contains decorative cladding elements 4, such as clinker tiles, are placed on the surface of the facade. Moreover, the heat-insulating panel 1 contains at least one side containing alternately made protrusions 5 and recesses 6, as well as at least one side containing an end protrusion 7 formed along almost the entire length, formed by a protruding heat-insulating part 2 or protruding facing part 3 of the heat-insulating panel 1. The facade surface is preliminarily prepared by installing guide elements, in particular a base profile, which serves as a starting rail and protects the lower edge of the bottom him a number of panels.

The heat-insulating panel 1 is installed and fixed on the base profile, for example, using a layer of polyurethane foam, after which holes 8 for fasteners are drilled on the surface of the panel. Moreover, in order to smooth the surface of the wall between the wall and the heat-insulating panel 1, mortgage elements, for example, made of polyurethane foam, are installed at the junctions of the heat-insulating panels 1. The heat-insulating panel 1 is fixed through part of the holes 8 using fasteners, after which polyurethane foam is introduced into the remaining part of the holes 8. than partially fill the space between the panel and the facade surface, and then finally fix the heat-insulating panel 1 to the facade surface through the remaining holes 8 using fasteners. Preferably dowels are used as fasteners. In addition, holes 9 for fasteners are drilled in the recesses 6 of the heat-insulating panel, through which, with, for example, plug-in dowels, the heat-insulating panel is also fixed. Preferably, the vertical end face of the heat-insulating panel 1, which is located on the corner of the facade, is pre-cut to form a beveled surface, preferably at an angle of 45 °, and a vertical groove 10 of any geometric shape is performed on the indicated surface, for example, by means of a milling operation.

In this example, when installing heat-insulating panels 1 adjacent to the horizontal row, at least one vertical side of each of which contains alternately protrusions 5 and recesses 6, after placing the panels on the facade surface, they are connected so that the protrusions 5 of one adjacent heat-insulating panels 1 are superimposed on the corresponding recesses 6 of another heat-insulating panel 1.

Accordingly, when installing the panels adjacent to the vertical row, at least one horizontal side of each of them contains an end protrusion 7 made over almost the entire length, after placing the panels on the facade surface, they are connected in such a way that the panels are applied with end protrusions 7 on top of each other .

Moreover, the cavity 11 formed at the junction of adjacent panels, due to the structural design of the ends of the panels, for example, the execution of at least one end of the heat-insulating part of the panel 1 with a longitudinal selection, after fixing the adjacent panels is filled, for example, with polyurethane foam.

When installing the panels adjacent to the corner of the facade, after placing the panels on the surface of the facade, they are connected in such a way that the vertical ends pre-cut, as described above, form an angle, and the grooves 10 made on the surface of the beveled ends, as described above, form a cavity 12, which after panel fasteners are filled, for example, with polyurethane foam.

The heat-insulating panels 1 are installed in such a way that a seam is formed at the place of their connection, imitating the seam of the masonry of the facing elements. The seams between the facing elements are wiped with a fire-resistant grout.

Thus, the claimed invention due to the optimal selection of the sequence and composition of the installation of the developed heat-insulating panel, as well as the devices used in this case, simplifies the installation of heat-insulating panels, increases the thermal insulation of the facade, increases the reliability and durability of the facade, along with high aesthetic characteristics of the facade.

Claims (11)

1. A method of installing heat-insulating panels, including mounting adjacent panels by placing panels on the facade surface, connecting adjacent panels, at least one side of each of which comprises alternately protrusions and recesses so that the protrusions of one panel are superimposed on the recesses of the other panel, and panel fastening on the facade surface, characterized in that the adjacent panels are connected, at least one side of each of which contains tsevoy protrusion, so that the superposed panels to each other protrusions. 2. The method of installing heat-insulating panels according to claim 1, characterized in that the panels are connected in such a way that a cavity is formed in the place of their connection, bounded by the surfaces of the ends of the adjacent panels. 3. The method of installing heat-insulating panels according to claim 2, characterized in that the cavity is filled with polyurethane foam. 4. The method of installing heat-insulating panels according to claim 1, characterized in that they mount panels that contain decorative cladding elements. 5. The method of installing heat-insulating panels according to claim 4, characterized in that the panels are mounted in such a way that a seam is formed at the junction of them, simulating the masonry of the masonry cladding elements. 6. The method of installing heat-insulating panels according to claim 5, characterized in that they grout the joints between the facing elements with a fire-resistant grouting composition. 7. The method of installing heat-insulating panels according to claim 1, characterized in that the panels are fixed through part of the holes previously made on their surface, with polyurethane foam being introduced into the free holes before the panels are finally fixed. 8. The method of installing heat-insulating panels according to claim 1, characterized in that the panels are fixed through at least one hole made in the recess of at least one side of the panel. 9. The method of installing heat-insulating panels according to claim 7 or 8, characterized in that the panels are fixed by means of fasteners in the form of dowels. 10. The method of installing heat-insulating panels according to claim 1, characterized in that the panels adjacent to the corner of the facade are mounted in such a way that the vertical end face of the panels is pre-cut to form a beveled surface, a vertical gutter is formed on the indicated surface, forming, after attaching to the wall, adjacent to the corner the facade of the panels is a cavity that is filled with polyurethane foam. 11. The method of installing heat-insulating panels according to claim 10, characterized in that the vertical end face of the panels is cut at an angle of 40-50 °.

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