RU45745U1 - EXTERNAL WALL WARMING SYSTEM - Google Patents

Abstract

The proposed utility model relates to the field of construction, and more specifically to the designs of external insulation systems.

The system is implemented in the form of a multilayer structure, including load-bearing elements fixed in the wall; vapor barrier layer; effective insulation; waterproofing layer; vertical mounting profiles and cover plates fixed to mounting profiles.

The technical result of the utility model is to expand the field of use of external insulation systems on buildings with an uneven outer surface of walls (for example, when using cellular concrete wall panels finished with crushed stone material) without the need for preliminary preparation of this surface.

Description

The utility model relates to the field of construction, namely, to the construction of insulation systems for the external walls of buildings and can find the main application in the reconstruction and insulation of the external walls of old buildings.

Known insulation system [SP 12-101-98. Technical rules for the production of external thermal insulation of buildings with thin plaster for insulation. Enter from 05/01/98. - M .: GUL TsPP, 1998. - 28 p.], In which the insulation is installed on the wall surface by gluing and with dowels with a dish head, a finishing and protective layer of plaster reinforced with fiberglass is applied to the insulation.

The advantage of this insulation system is the ease of installation. However, the installation of the insulation system is difficult at low outdoor temperatures due to the presence of wet processes. In addition, fixing the insulation on the wall by gluing limits the scope of this system, due to the requirements of the preliminary preparation of the wall.

Also known is a warming system [System of a ventilated facade "Kraspan": Album of technical solutions / 000 "Kraspan". - code: SNVFK - 001-55924318-2001. - Krasnoyarsk, 2002. - 28 p.], In which the insulation is attached to the wall with dowels with extended hats, and facing plates that play the role of protective and finishing

layers are fixed to special designs.

The advantage of this insulation system is the ease of installation. However, the installation of the insulation system is difficult due to the need for preliminary alignment of the wall surface, which is necessary to eliminate air gaps that arise between the insulation surface and the wall surface, and resulting in undefined air flows in these gaps, which can significantly impair the heat-shielding qualities of the insulation system.

Closest to the claimed solution is the system described in the article Silaenkova E.S. Systems of insulation of external walls "Ural" // Housing construction. - 2000. - No. 7.- P.14-16.

The prefabricated cladding system described in this article is accepted as a prototype.

The advantage of this system is reduced metal consumption and high maintainability.

The disadvantage of the prototype is that it uses plate heaters as insulation elements, which increases the cost of insulation, reduces the durability and fire resistance of the insulation element due to the presence of an organic binder in it. In addition, the disadvantages of the prototype include the complicated technology of fastening insulation and waterproofing when using soft mineral wool products and the increased cost caused by the use of special

vertical and horizontal profiles for waterproofing tiles.

The objective of the utility model is to expand the field of use of systems for insulation of external walls so that they are used to warm walls with any finish on their external surface, without the need for preliminary preparation of this surface.

This problem is solved by the fact that in the known system of warming the outer walls, a vapor barrier layer is additionally placed between the outer surface of the wall and the effective insulation, the effective insulation is mounted on the wall with vertical mounting profiles and a facing plate pressed against it, and the waterproofing layer is placed between the facing plates and the effective insulation . This problem is best solved if the waterproofing layer is made in the form of film strips, and the vapor barrier layer is made in the form of film strips, and the facing plates are vertically mated by cantilever sections.

The essence of the utility model is illustrated in the drawing. Figure 1 shows the insulation system, a vertical section, where 1 - load-bearing elements mounted in the wall; 2 - vapor barrier layer; 3 - effective insulation; 4 - vertical mounting profile; 5 - waterproofing layer; 6 - facing plate.

The installation of the elements of the insulation system is carried out in the following order: the supporting element 1 is fixed in the wall, then on it

a vapor insulating layer 2 is installed, which can be in the form of film strips, and the horizontal connection of the film strips is carried out with an overlap of the upper layers on the lower ones, then a soft effective insulation 2 is strung on the supporting element 1. Unlike other insulation systems, this insulation system can be used soft mineral wool mats with a density of about 20 kg / m ³ . The thickness of the insulation is determined by thermotechnical calculation, taking into account its compaction after compression by mounting profiles and cladding plates, 1.8-2.2 times. For example, at an initial density of 20 kg / m ^3, its density after compaction will be about 40 kg / m ³ . An increase in the density of the insulation by 1.8-2.2 times allows the redistribution of efforts, as a result of which part of the bulk mass from the insulation does not act on the underlying layers of insulation, but on the surface of the wall and cladding sheets. In addition, the horizontal force resulting from the compression of the insulation contributes to an increase in the frictional forces between the wall surface and the insulation and the facing plate and insulation. Next, on top of the effective insulation 3, a waterproofing layer 5 is installed, which can be made of strips of waterproofing film, and the horizontal conjugation of the strip of film is carried out with an overlap of the upper layers to the lower ones. After that, mounting profiles 4 are mounted. Next, facing plates 6 are attached to the mounting profiles 4 so that their vertical conjugation is carried out by cantilever sections. This type of mating increases the reliability of fastening the cladding to

guides and increases the maintainability of the insulation system as a whole, since the dismantling of the facing plates will not lead to the destruction of their supporting sections.

The absence in the proposed insulation system of a ventilated gap between the insulation and the facing plate, which may be necessary to remove moisture condensing in the insulation, is compensated by the device of the vapor barrier layer located between the main material of the wall and the layer of effective insulation. The calculated thickness of the insulation must ensure the position of the dew point inside the insulation. Then, under the condition of a continuous film vapor barrier, condensation will not occur.

The device of the vapor barrier layer between the insulation and the outer surface of the wall is necessary to prevent the insulation from getting wet and, as a consequence, to deteriorate its thermal characteristics.

The waterproofing device using film strips, instead of using horizontal and vertical profiles, can significantly simplify the installation of the insulation system. In addition, the proposed solution allows to reduce the cost of waterproofing from about 250-300 ^rubles / m ² to 30 ^rubles / m ² .

The analysis of the prior art did not reveal an analogue characterized by features identical to all the essential features of the proposed solution, i.e. It meets the requirements of novelty.

Claims (4)

1. The system of insulation of external walls, including load-bearing elements fixed to the wall, effective insulation installed on the wall surface, waterproofing layer, vertical mounting profiles and cladding plates fixed to them, characterized in that it is additionally located between the external surface of the wall and the effective insulation vapor insulating layer, effective insulation is mounted on the wall with vertical mounting profiles and a facing plate pressed against it, and a waterproofing layer is located between the claddings paid-plates and effective insulation. 2. The insulation system according to claim 1, characterized in that the waterproofing layer is made in the form of stripes of film. 3. The insulation system according to claim 1, characterized in that the vapor barrier layer is made in the form of film strips. 4. The insulation system according to claim 1, characterized in that the facing plates are vertically mated by cantilever sections.