EA038434B1 - Method of heat insulation and protection of outer walls of building enclosing structures against atmospheric impacts - Google Patents

Abstract

The invention relates to construction, in particular, to methods of heat insulation and protection against atmospheric impacts of outer walls of building enclosing structures and it may be used for heat insulation of buildings of different purpose, including in seismic and landslide hazard areas. The method, according to the invention, includes gluing insulation plates to insulated wall on a layer of polyurethane adhesive-foam, mechanical fixing of said plates to the wall with plate-shaped dowels, inserting non-disconnectable plastic clips with open ends into the heads of those dowels, setting a glass composite reinforcement mesh, connecting the open ends of clips and reinforcement mesh and finally applying a reinforcing protective and decorative layer.

Description

The invention relates to construction, in particular to methods of thermal insulation and weather protection of external walls of building enclosing structures, and can be used for thermal insulation of buildings for various purposes, including in seismic and landslide areas.

There are several ways to insulate buildings, depending on the location of the insulating material. External thermal insulation is considered to be the most effective, since it helps to minimize unfavorable temperature differences, as well as to increase the service life of building structures and prevent their wear as a result of corrosion processes.

There is a known method of external thermal insulation of building facades, which includes gluing plate insulation to the building facade, its mechanical fastening, impregnation of the fixed insulation with a water-soluble primer to a depth of 2 ... 8 mm, installation of a reinforcing mesh, its fastening with an adhesive composition, as well as decorative finishing, cm RU 2171340 C1, publication date 27.07.2001.

The disadvantages of this technical solution are significant labor intensity due to the application of a large number of layers, which leads to an increase in the cost of the process, makes the structure quite weighty, and also reduces the service life of the external decorative coating due to layer-by-layer disintegration and destruction of the thermal insulation system under the influence of ultraviolet radiation.

As the closest solution, a method of thermal insulation is known, which includes the preparation of an adhesive mixture, gluing a slab insulation to the walls, fixing it with dowels, reinforcing the slab insulation with a fiberglass reinforcing mesh with small cells, followed by applying a layer of leveling glue, priming the reinforcing layer and applying decorative finishing plaster layer, see article Insulation of house walls with external facade plaster, on the Internet, https: domekonom.su/schtukaturka-po-uteplitelyu.html, publication date 11/21/2018.

The disadvantages of the known solution are that this method provides for the preparation and use of cement-based glue for gluing plate insulation, when compressed, microcracks are formed, polymer decorative finishing plaster has low resistance to ultraviolet radiation, alkalis and acids, which, in general, leads to the destruction of the thermal insulation system and deterioration of its waterproofing and decorative properties, and the application of a large number of layers increases labor intensity, material consumption and, consequently, the weight of the structure and its total cost.

The technical problem to be solved by the present invention is to develop a method for thermal insulation of external walls of building enclosing structures, in which, due to the optimal choice of installation stages and the means used, an increase in the thermal and waterproofing properties of the facade, durability of the structure, cost reduction, acceleration and simplification will be ensured. the process of laying slab insulation on the surface of the walls, increasing the seismic resistance of the structure in combination with improved aesthetic characteristics of the facade, as well as reducing the weight of the structure.

The task is solved due to the fact that the method of thermal insulation and weather protection of the outer walls of building enclosing structures includes gluing a slab insulation to a layer of polyurethane foam glue on the wall to be insulated, mechanical fastening of the slab insulation to the wall by means of disc dowels, into the heads of which non-releasable plastic clamps are inserted with open ends, installation of a reinforcing fiberglass mesh consisting of rods with a diameter of 2 to 3 mm, with a mesh size of 50x50 mm or 100x100 mm, with its simultaneous attachment to the slab insulation using anchors, connecting the open ends of the clamps and the reinforcing mesh and applying with a thickness of not less than 8 mm of finishing reinforcing protective decorative layer based on cement with various additives and pigments resistant to ultraviolet radiation, alkalis and acids.

Advantages of the invention: increased waterproofing properties and resistance to ultraviolet radiation, alkalis and acids; increasing the reliability and durability of the facade finish; the possibility of using finishing board materials as a decorative finishing layer (composite tiles, ceramic tiles with a thickness of 3 to 5 mm, etc.); reducing the cost of materials used and labor intensity; saving on forest rent; reducing the time to complete the work; the possibility of gluing insulation at low temperatures; increased indicators of seismic resistance of insulated structures; reduction in the weight of the insulated structure due to the use of foam glue and a decrease in the number of layers.

The use of polyurethane foam glue-foam in the claimed method can significantly reduce the weight of the structure, the flexibility of the polyurethane foam glue-foam helps to prevent the formation of microcracks, as well as to preserve the initial adhesion (adhesion) of the insulation to the wall. Replacement of fiberglass reinforcing mesh with mesh sizes from 3 to 6 mm and a thickness of 0.35 mm with reinforcing fiberglass mesh with mesh sizes 50x50 mm or 100x100 mm and rods diameter from 2 to 3 mm, the thickness of which when these rods overlap is from 4 to 6 mm , respectively, allows you to obtain the required thickness of 8 mm of the finishing reinforcing decorative and protective layer,

- 1 038434 which increases at least 2 times in comparison with the closest solution.

Consequently, the claimed method, in comparison with the closest solution, excludes the technical possibility of applying a finishing reinforcing decorative and protective layer with a thickness of less than mm, which guarantees waterproofing protection of the thermal insulation system, as well as protection from ultraviolet radiation, alkalis and acids for the entire life of the building.

At the same time, due to the large mesh size with increased permeability, the stability and flexibility of the system increases, as well as the adhesion of the seal to the finishing reinforcing decorative and protective layer. Replacement of polymer finishing layers (primer and finishing decorative plaster in an analogue) with a finishing reinforcing decorative and protective layer with a thickness of at least 8 mm based on cement with various additives and pigments resistant to ultraviolet radiation, alkalis and acids, improves the waterproofing properties of the facade, durability facade finishing, as well as its resistance to discoloration.

The presence of a reliable mechanical connection between the disc dowels and the reinforcing glass-composite mesh using a plastic clamp can significantly increase the tear strength of the finishing reinforcing decorative-protective layer from the plate insulation under wind and seismic loads. The stacked layers in the claimed method are connected to the wall and optimally withstand bending and tensile loads on the wall that occur during the operation of the building.

Reducing the number of layers and the weight of the thermal insulation system reduces the seismic and wind load of the building, since lightweight structures are less susceptible to collapse in the event of an earthquake. At the same time, thanks to the reliable mechanical connection of the layers, even if they are destroyed, the heat-insulated outer walls will move and fall mainly outside the building, which helps protect people inside the building from injury.

The technical result consists in increasing the hydro and thermal insulation properties of thermal insulation structures, increasing their seismic resistance and resistance to ultraviolet radiation, alkalis and acids, increasing durability while reducing the weight of the thermal insulation system.

The invention is illustrated by the drawing, which shows the thermal insulation system obtained according to the claimed method, general view.

The thermal insulation system contains an insulated wall 1, a layer of polyurethane foam glue 2, a slab insulation 3, disc dowels 4, a reinforcing glass composite mesh 5, a finishing reinforcing protective and decorative layer 6, non-releasable plastic clamps 7, anchors 8.

The method of thermal insulation and weather protection of the outer walls of building enclosing structures is carried out as follows. Adhesion of a slab insulation 3 to a layer of polyurethane foam glue 2 can be done in various ways, the choice of which depends on the curvature of the wall 1. Polyurethane foam glue 2 is applied to a slab insulation 3, for example, using a frame-cross method, while the thickness of the layer of polyurethane foam adhesive 2 after hardening is at least 2 mm. As a slab insulation 3, for example, plates of extruded polystyrene foam, mineral wool, basalt or expanded polystyrene are used, which are installed on the insulated wall 1 with jointing. Then, the plate insulation 3 is mechanically fastened to the wall 1 by means of front disc dowels 4. In the heads of the disc dowels 4, non-releasable plastic clamps 7 are inserted, leaving their ends open. A reinforcing glass-composite mesh 5 is installed in the design position, made of rods with a diameter of 2 to 3 mm, with a mesh size of 50x50 mm or 100x100 mm, with its simultaneous attachment to a slab insulation 3 using anchors 8.

Then, the open ends of the clamps 7 and the reinforcing mesh 5 are connected, after which a finishing reinforcing protective and decorative layer 6 with a thickness of at least 8 mm is applied. As a finishing reinforcing protective and decorative layer 6, a composition based on cement with various additives and pigments resistant to UV radiation, alkalis and acids is used. The claimed method makes it possible to obtain a reliable, durable, waterproof and earthquake-resistant thermal insulation system with a significant reduction in costs and lead times.

Claims (1)

CLAIM A method of thermal insulation and weather protection of external walls of building enclosing structures, containing gluing a slab insulation to a wall to be insulated on a layer of polyurethane foam glue, mechanical fastening of a slab insulation to the wall by means of disc dowels, into the heads of which non-releasable plastic clamps with open ends are inserted, reinforcing installation glass composite mesh, consisting of rods with a diameter of 2 to 3 mm, with a mesh size of 50x50 mm or 100x100 mm, with its simultaneous attachment to a slab insulation using anchors, connecting the open ends of clamps and a reinforcing mesh and applying a finishing reinforcing protective - decorative layer based on cement with various additions - 2,038,434 additives and pigments resistant to ultraviolet radiation, alkalis and acids.