CZ10170U1 - Thermal insulation of facades - Google Patents

Description

Technical field

The technical solution concerns thermal insulation of facades, especially in prefabricated houses.

Background Art

In the past and present, contact thermal insulation of facades is the most used. The structural arrangement of the contact insulation of the facades is arranged in such a way that the thermal insulation, usually formed by polystyrene, attached to the periphery of the facade is provided with gravel plaster.

The main disadvantage of this design is that it closes the moisture contained in the wall, which accumulates in a thin layer at the interface of the insulation and the wall, cools the outer surface of the wall, reduces the efficiency of the thermal insulation, moistens the masonry and subsequently worsens the warmth inside object.

The essence of the technical solution

The above-mentioned drawbacks are largely eliminated by the thermal insulation of the facades, according to this technical solution, which consists in that the outer side of the supporting structure of the building shell is permanently provided with a supporting grate, where the suspension mounting profiles are fixed to the supporting grate by a ventilation gap, the space between the suspension assembly the profiles and the outer side of the building shell support structure are filled with thermal insulation, while the suspension mounting profile is provided with a hanging hook of the façade element from the outside, the facade element being provided with an anti-backing groove on the outside and a hinged recess on the inside.

The main advantage of this technical solution is that in the ventilated facade, the temperature curve is more favorable compared to the contact system, mainly because the thermal insulation layer of the mineral wool passes through the diffusing steam, which is reliably discharged through the vent gap. In summer, this structural design helps facade insulation to a pleasant indoor climate, as the ventilation gap and the thermal insulation layer prevent high temperatures from entering the interior. The facade insulation according to this technical solution can be used for all masonry, wood and concrete buildings. Suspended ventilated facades have no direct connection to the load-bearing wall. Thus, the movements and stresses of the building body are not transferred to the facade, even when using different building materials, thus preventing the possibility of cracking of the external tiles. A further advantage is seen in a simple construction allowing easy and technically simple installation, while at the same time allowing the unevenness of the substrate to be compensated and, at the same time, substantially reducing the noise barrier of the objects by means of, in particular, a ventilation gap.

For proper function, it is advantageous that the suspension recess is of the same profile with the hanging hook that the supporting grate is formed by an impregnated wood mass or metal profiles, that the outer side of the supporting structure of the building shell is fixed with a horizontal supporting grate by means of screws with dowels and that suspension mounting profiles They consist of aluminum or stainless steel profiles.

BRIEF DESCRIPTION OF THE DRAWINGS

The technical solution will be explained in more detail by means of the drawings, in which Fig. 1 shows the facade insulation in partial schematic section, Fig. 2 detail of the facade element from the outside by the upper structure imitating both the color of the cut, chopped or chipped natural stone and Fig. 3 detail the façade element from the inside with the hinged recess indicated.

-1 CZ 10170 Ul

Exemplary embodiments

The thermal insulation of the facades according to FIGS. 1 to 3 is formed in such a way that the outer side of the building envelope support structure 6 is fixedly provided with a horizontal supporting grid 4. Suspended mounting profiles 3 with a ventilation gap 7 are attached to the supporting grid 4, the space between the suspension mounting profiles 3 and the outer side of the building shell 6 is filled with thermal insulation 5. The grid 4 is formed by an impregnated wood or metal profiles. Vertical suspension mounting profiles 3 with suspension hooks 8 for the façade element I are attached to the supporting grid 4. The facade element I is provided with an anti-backing groove 9 on the outside and a hinged recess 2 on the inside. The suspension recess 2 is of the same profile with hanging hooks 8.

The supporting grid 4 for thermal insulation 5 consists of impregnated wood or metal horizontal lathing. The distance of the unmarked battens is determined by the static calculation of the load of the facade and the thickness of the used thermal insulation 5 is given by the thermal audit and at the same time the thickness of the battens is determined. The support grid 4 is fixed with unmarked dowels. A mineral wool thermal insulation 5 is placed in the prepared support grid 4, pressed against the suspension mounting profiles 3, or fixed with unmarked plate dowels.

Suspension mounting profiles 3 aluminum or stainless steel, where the pitch of the mounting profiles 3 is determined by the width of the facade elements 1 in the shape of cladding panels and the requirements for the appearance of the facade. These suspension mounting profiles 3 are fixed to the support grid 4 by means of unmarked screws or forged nails. The suspension mounting profiles 3 form a ventilation gap 7 between the thermal insulation 5 and the inner side of the façade element 1. In addition, the suspension mounting profile 3 can cause possible penetrating water from the vertical joints of the façade elements I.

The suspension of the façade elements I is carried out from below to the suspension assembly profile 3. The thermal insulation 5 formed by the mineral mat is given in the required thickness according to the static assessment and the energy audit of the respective building.

Facade element! is a spatial arrangement, imitating any type of cut, chopped or chipped stone in both color and structure.

Industrial usability

Thermal insulation of facades according to this technical solution is industrially usable for all masonry, wooden and concrete buildings, especially in panel construction.

Claims (6)

PROTECTION REQUIREMENTS Façade insulation, characterized in that the outer side of the building structure (6) of the building envelope is fixedly provided with a support grid (4), where suspension mounting profiles (3) with a ventilation gap (7) are attached to the support grid (4), taking the space between the hanging 35 the mounting profiles (3) and the outside of the building structure (6) of the building envelope are filled with thermal insulation (5), while the suspension mounting profile (3) is provided on the outside with a hanging hook (8) of the façade element (1); (1) has an anti-bore groove (9) from the outside and a hollow recess (2) from the inside. Façade insulation according to claim 1, characterized in that the hollow recess (2) is 40 matching profile with suspension hook (8). Façade insulation according to claim 1, characterized in that the support grid (4) is formed by an impregnated wood mass. -2GB 10170 Ul Façade insulation according to claim 1, characterized in that the support grid (4) is formed by metal profiles. Façade insulation according to claim 1, characterized in that the outside of the building structure (6) of the building envelope is fixedly provided with a horizontal grid (4) by means of 5 screws with dowels. Façade insulation according to claim 1, characterized in that the suspension mounting profiles (3) consist of aluminum or stainless steel profiles.