RU2171340C1 - Method for external warming of building facade - Google Patents

Abstract

FIELD: construction engineering; warming external walls of building. SUBSTANCE: method involves gluing of heat insulation on building facade, its mechanical fastening, impregnation of heat insulation with water- dispersion primer through depth of 2-8 mm, placement of reinforcing net, and its fixing by adhesive compound. Water-dispersion acrylic primer is used for impregnation of heat insulation; reinforcing net is fastened by means of acrylic resin base adhesive solution. EFFECT: reduced exfoliation of heat insulating system. 2 cl, 1 dwg

Description

 The invention relates to construction and can be used to warm the outer walls of buildings under construction and already built.

 Depending on the location of the insulation, 3 main types of thermal insulation systems are distinguished.

 1. The insulation is located on the inside of the wall.

 The use of such a method of insulation, firstly, reduces the internal area of the room and, secondly, is associated with additional costs for vapor barrier, since otherwise condensation of water vapor occurs at the boundary between the inner side of the wall and the insulation, which leads to a decrease in the thermal characteristics and the appearance of fungi and mold.

 2. The insulation is located inside the wall itself (well masonry).

 In this case, the wall (enclosing structure) is made of two parallel walls interconnected by rigid ties, and the space formed between them is filled with insulation. However, this design requires a more voluminous and expensive foundation, and in addition, moisture condenses between the outer and inner walls on the insulating material and on the inner surface of the outer wall, which leads to a decrease in the thermal resistance of the building envelope and its accelerated depreciation.

 3. The insulation is located outside the wall.

 In the case of external (facade) insulation systems, the wall thickness may be minimal, based on the requirements of strength. The thickness of the insulation must be such that the zones of moisture condensation and the main temperature difference are inside the thermal insulation plate. In this case, the accumulated moisture easily evaporates due to the high vapor permeability of the system. When the insulation is located outside it must be protected from the weather.

 There is a method of external insulation of the facade / "Construction", weekly newspaper, N 37, October 1999, pp. 146-147 /, when the insulation is protected with decorative decorative protective plates, forming a kind of protective screen.

 The bracket with slats is attached to the wall of the building with dowels. Insulation plates are inserted into the rails so that the brackets pass between the insulation plates at the joints. Facing decorative protective plates are attached to the brackets with rails. The length of the brackets provides a free gap for ventilation between the insulation and the facing plate (the facing plate itself has low vapor permeability).

 The resulting heat-insulating system with a ventilated facade is expensive and time-consuming and has limitations for buildings with complex architecture.

 Famous / "Construction", weekly newspaper, N 37, October 1999, pp. 146-147 / method of external insulation of the building facade (prototype), when the insulation is protected from the environment by a plaster protective and decorative layer (multilayer system of the "wet" type )

 Thermal insulation using the prototype method is carried out by applying elemental layers to the surface of the facade and sequentially attaching them to each other and to the surface of the facade using adhesive compositions and, if necessary, mechanical devices (dowels).

 On the insulated facade, as a rule, from the bottom up with dressing of the seams, insulation plates are glued. If necessary, it is additionally fixed to the wall with dowels.

 Then the surface of the insulation is covered with a reinforcing layer. To do this, an adhesive mass is applied to the surface of the insulation plate with a continuous layer of about 3-4 mm thick, into which the reinforcing mesh is pressed until completely immersed. A second layer of adhesive mass of about 1-2 mm thick is applied to the surface of the glued mesh until it is completely coated. The surface is carefully leveled.

 Then apply a decorative plaster layer.

 Separate insulation layers made of suitably selected materials perform strictly defined functions in the insulation system.

 Insulation plates provide the required thermal insulation.

 Adhesive mortar and connecting elements that fasten the insulation to the wall provide structural stability of the insulation system.

 The reinforcing layer is a protection of the insulation and protects the insulation system from mechanical damage. At the same time, mesh reinforcement limits the thermal deformation of the protective layer, prevents cracking and increases the resistance to mechanical damage.

 It should be noted that the technology of the prototype method does not allow the reinforcing mesh to be fixed in such a way that it is applied to the insulation not covered with an adhesive mass, which is then applied once from above. This is due to the fact that in this case, the adhesive mass does not penetrate sufficiently through the grid and does not sufficiently consolidate it at the surface of the insulation.

 The decorative plaster layer is the external surface finish of the insulation system, protects it from the effects of climatic factors and increases impact resistance.

 In Russia, such wet-type external insulation systems as Ceresit / "Light insulation using the Ceresit system" are widely used, advertising booklet, Era OJSC /, Teplo-Vanguard / Teply Dom, reference book, M. 2000, Norma, pp. 319-312 /, Warm House / "Warm House System", advertising booklet, AOOT "Experimental Dry Mix Plant" /, which differ from each other by the marks of the materials used, but are applied to the facade using a single technology.

 Styrofoam (expanded polystyrene) boards or mineral wool boards with a moisture absorption coefficient of not more than 1% are usually used as insulation. The reinforcing mesh must be alkaline resistant. As adhesive compositions, as a rule, high-adhesion poly-mineral adhesives are used.

 The use of such systems allows for stable thermal insulation of buildings, provides additional sound insulation, makes it possible to change the color and texture of the facade of the house, and can be used to reconstruct old building facades of architectural value.

 However, when using the known technology, delamination of the insulation layer or delamination of the reinforcing and decorative layers together with the surface layer of the insulation are sometimes observed, which may cause complete destruction of the insulation system.

 The purpose of the invention is to reduce the delamination of the insulation system, increase its vapor permeability, reduce the cost.

 This goal is achieved by the fact that the insulation layer glued and fixed with mechanical devices (usually dowels) is soaked in accordance with the claimed method with a water dispersion primer with a high penetration to a depth of 2-8 mm. Then, a reinforcing mesh is laid on the impregnated surface, which is fixed with an adhesive composition. A decorative plaster finishing layer is applied on top.

 The invention consists in the following.

 As we have already noted, currently mineral wool or polystyrene foam boards are usually used as insulation (the former are preferable since they do not burn and do not “sweat”, but their cost is higher).

One of the main characteristics of the insulation is its density, on which, in particular, the stiffness of the insulation and its tensile strength depend. More dense heaters have greater peel strength and therefore their use is preferable in terms of reliability of the insulation system. However, with an increase in density, firstly, the cost of 1 m ^{3 of} insulation increases sharply, and secondly, its porosity and, therefore, thermal insulation properties decrease.

The application of a sufficient amount of aqueous dispersion onto the surface of the primer fixed on the facade insulation (primer flow rate of 800-1000 g / m ²⁾ leads to its penetration depth and the formation of insulation (primer after drying) the densified layer at the surface of the insulation.

 The presence of a compacted layer over the entire surface of the insulation significantly increases the tensile strength of the insulation, reduces the likelihood of delamination, gives strength to the entire insulation system.

 The effect is enhanced due to the fact that when impregnated, the primer flows under the heads of the fixing dowels and creates a dense base under them, reducing the likelihood of delamination and delamination of the insulation.

 The presence of a compacted layer of less than 2 mm does not give a noticeable effect, and the penetration of the primer to a depth of less than 2 mm does not allow it to get under the dowel caps, which also reduces the efficiency of impregnation.

 Impregnation of more than 7-8 mm is impractical, since it does not increase the strength of the insulation, but requires an additional consumption of primer.

 Usually, a primer is applied with a thin layer (the thickness of the formed film is 0.01-0.1 mm) on the plastered or painted surface in order to obtain its more durable adhesion to the coating layers (plaster or paint).

 In our case, the additional effect is that the primer penetrates into the insulation and forms at the surface of the insulation, inside it, a hard layer, which is like an additional reinforcing layer, and reduces the likelihood of delamination and delamination of the insulation.

 It is the water dispersion primers that penetrate well into the pores of the insulation and, when dried, give a dense layer with good vapor permeability, which is an important performance indicator.

 On the other hand, the primed surface has a large adhesive ability and allows for fixing a reinforcing mesh to use one layer of adhesive, which significantly reduces the total mass of the facade (and, accordingly, the probability of delamination of the insulation system) and reduces the cost of insulation.

 To obtain the optimal result when applying the proposed method, it is necessary that the insulation, primer and adhesive used to fix the reinforcing mesh are well suited to each other. The primer used must have good adhesion to the insulation, penetrate deeply into the pores and at least not reduce its vapor permeability. The adhesive composition must have good adhesion to the primer and its solution must be flexible, easy to apply to the surface and penetrate the cells of the reinforcing mesh.

 For example, the use of water-based acrylic primers in combination with cement-based adhesives containing also acrylates gives a good result.

 A particularly noticeable effect from the use of the proposed invention is observed when mineral wool boards are used as a heater.

As you know, the cost of mineral wool insulation increases significantly with an increase in its density. At present, mineral wool boards with a density of at least 145 kg / m ³ are used for insulation, since at a lower density the insulation can begin to peel off.

The formation of a dense layer at the surface of the insulation makes it possible to use a facade insulation of lower density, which not only makes it possible to significantly reduce the cost of insulation, but also leads to an additional reduction in the mass of the facade and improves thermal insulation (the lower the density of the insulation, the better its thermal insulation properties)
The drawing shows a diagram of an external insulation of the facade according to the claimed method:
1-wall of the facade, 2-adhesive composition, 3-insulation, 4-dowels, 5-primer, 6-reinforcing mesh, 7-adhesive composition, 8-decorative finish.

 Insulation (3) is glued onto the cleaned facade (1) with a suitable adhesive composition (2), which is usually fixed with dowels (4). Then, a liquid primer (5), a reinforcing mesh (6), fixed with an adhesive composition (7), and a decorative-plaster layer (8) are applied to its surface.

 For the implementation of the proposed method can be used, in particular, heaters Rocwoll, Paroc Ral 4, Ral 5, Ursa, Styropor P-25, Styrodor, primers Ceresit CT 17, Ceresit CT 16, Grunt LF, adhesive formulations Ceresit CT-85, tiled adhesive 51, Kalan, Ceresit CM-11, Ceresit CM-14.

 Example 1

 The inventive method is carried out in several stages.

 1. Preparing the facade of the building for gluing insulation.

 The wall of the building is thoroughly cleaned, bumps and differences are smoothed out, washed with hydrant water and allowed to dry.

 2. Adhesion of insulation boards.

Garant glue is applied to the plate of the Rocwoll facade insulation with a thickness of 100 mm, a density of 150 kg / m ³ , the plate is immediately applied to the wall and pressed until an even plane with adjacent plates is obtained.

 3. Fastening the insulation with facade dowels.

 Additional fastening of the insulation to the wall is carried out by connecting elements with side cutting and an internal hole, into which, after installation, the expansion rod is driven in. The head of the connecting element should not protrude onto the surface of the insulation.

Claims (2)

 1. The method of external insulation of the facade of the building including gluing insulation on the building facade, mechanically securing it, subsequent gluing the reinforcing mesh and decorative finish, characterized in that the fixed insulation is impregnated with a water dispersion primer to a depth of 2-8 mm, after which a reinforcing mesh is laid on it and fix it with adhesive composition.  2. The method according to claim 1, characterized in that a water-dispersed acrylic primer is used to impregnate the insulation, and the reinforcing mesh is fixed with a cement-containing adhesive composition based on acrylic resin.