RU125222U1 - VENTILATED FACADE - Google Patents

Abstract

The ventilated facade contains metal U-shaped brackets 4 for installation on the flat wall 7 of the building, hinged decorative facing facade plates 5 for connecting with intermediate unified metal profiles 1 and supporting elements with brackets 4. The supporting elements are made in the form of wooden bars 2 connected by profiles 1 s brackets 4, and the plate 5 is fixed to the bars 2. Intermediate profiles 1 can be made C-shaped, or L-shaped or U-shaped. Facing front plates 5 are made of cement or fibrous cement. Bars 2 are mounted on profiles 1 and 13 with threaded elements, and plates 5 are fixed to bars by 2 nails 6. Metal profiles 1 are mounted on brackets 4 with galvanized screws 8 or galvanized rivets 9. Ventilated facade is provided with corner brackets 12 for mounting on corners of walls buildings, and load-bearing elements in the form of wooden bars 2 are fixed on T-shaped shelves 13 bent at an angle to each other, fixed on brackets 12. Thermal insulating pads 11 are installed between brackets 4, 12 and wall 7 11. Those nical result is to eliminate the formation of cold bridges from the outdoor to a wall of metal parts, reducing the thermal deformations ventilated facade, while decreasing complexity and difficulty of fastening façade plates

Description

The invention relates to the field of construction, namely, to devices for fastening hinged facing plates of the ventilated facade of buildings and structures.

Known designs of ventilated facades RU №№25898, 34557, 36117, 41753, 45418, 49864, 54056, 57308, 59655, 60555, 60556, 60950, 64654, 70525, 74650, 88373, 90091, 97146, 107535, 2320834, 2392400, 2410507, 2448223, US. No. 4425745, 4741141, 4837996, 4974380, 5307602, 5524404, 6554102, 6973756 S, 7895800.

In particular, the known design of the hinged facade with hidden fastening of facade plates having slots at the ends, which include fixing elements. At the same time, in order to eliminate contact forces at the points of contact between the plate and the fixing element, there are used metal clamps, which are fixed on the compound in the end slots of the plates (RU # 2410507).

In this design, in connection with the mating fixing element in the plate, it requires processing a wide groove in it, which leads to a significant weakening of the fastening of the facade.

Known ventilated facade of a monolithic building, including interconnected and mounted on the bearing wall of the outer and inner telescopic elements with support plates and front elements (RU №40639)

Also known is the ventilated facade of a monolithic building, including interconnected between themselves and mounted on the bearing wall of the outer and inner telescopic elements with supporting plates and front elements (RU # 41052)

The disadvantages of the known facades are relatively narrow functionality, especially when installing brackets on uneven planes of the facades, which lead to different vertical deviations of the brackets from the vertical.

Also known is a ventilated facade containing facing panels and a frame comprising a group of modules, each of which has at least one U-shaped supporting bracket and one supporting bracket fixed to the wall, containing a base and sidewalls perpendicular to it, fastening facing panels and installed in the carrier and support brackets with the ability to move in them and fixing, drainage, designed for installation between the vertical rails with interaction with them and fixing, characterized in that the side of the carrier and support brackets are made elongated, the vertical guide is made H-shaped section, its shelf-base is located between its sides, perpendicular to them, while the upper part of the vertical guide is located between the elongated sides of the carrier and support brackets with the possibility of fixing in them, and on the other ends of the sidewalls of the vertical guide, parallel to the shelf-base, are the lower shelves, made with notches and with longitudinal grooves under the seal, the drainage is made adjacent to the shelf-base and sidewalls, with the possibility of covering the inside of the vertical guide (RU No. 70525, prototype).

The disadvantage of the prototype is the inevitability of the formation of cold bridges from outside air to the wall on metal parts, the possibility of significant temperature deformations of the ventilated facade taking into account the expansion / contraction of parts fastened to the front plates, as well as the complexity and difficulty of fixing the front plates.

The task of the utility model is to create an effective ventilated facade and expand the arsenal of designs of ventilated facades.

The technical result that provides a solution to this problem is to exclude the formation of cold bridges from outside air to the wall on metal parts, since the chain of connections has wooden bars, reducing the temperature deformations of the ventilated facade, because the expansion / contraction of wooden bars fastened to the front plates is significantly less than metal, at the same time labor-intensiveness and complexity of fastening of front plates due to the mechanical properties of wood, which improves the conditions of connection with possibility of using nails for this.

The essence of the utility model is that the ventilated facade contains metal U-shaped brackets for installation on a flat wall of a building, hinged decorative facing front plates for connecting with intermediate metal profiles and supporting elements with brackets, the supporting elements being made in the form of wooden bars connected by intermediate profiles with brackets, and the plates are fixed to the bars.

Intermediate profiles are made C-shaped or intermediate profiles are made L-shaped, or intermediate profiles are made U-shaped

As a rule, decorative facing facade plates are made of cement-reinforced or fiber cement, U-shaped brackets made of galvanized polymer-coated metal with a thickness of 2 mm. and the intermediate profiles are made of galvanized polymer-coated metal with a thickness of 1.2 mm ..

Preferably, the bars are mounted on metal profiles with threaded elements in the form of galvanized screws, the plates are fixed to the bars with nails, and between the brackets and the wall are insulated gaskets, the metal profiles are mounted on the brackets with galvanized screws or galvanized rivets, the brackets are mounted on the wall using facade dowels In addition, the ventilated facade is provided with corner brackets for installation on the corners of the building walls and T-profiles connected to them, and the supporting elements in the form of wooden bars are fixed on T-shaped shelves bent at an angle to each other.

The drawing of figure 1 shows a diagram of the ventilated facade with Conforming profiles and metal parts scattering, figure 2 - ventilated facade of figure 1 in the volumetric (axonometric) projection from the inside, figure 3 - diagram of the ventilated facade with L-shaped profiles and metal parts in bulk, figure 4 - ventilated facade according to figure 3 in volumetric (axonometric) projection from the inside, figure 5 - diagram of the ventilated facade with U-shaped profiles and metal parts placer, figure 6 - ventilated facade in figure .5 in volumetric (axonometric) p rotation from the inside.

This design is a combined wooden-metal carrier system for the installation of a ventilated facade and is intended for fixing decorative facade cladding made of DSP or fiber cement on the outer walls of buildings and structures.

The ventilated facade contains metal U-shaped brackets 4 for installation on a flat wall 7 of the building, hinged decorative facing facade plates 5 for connecting with intermediate unified metal profiles 1 and supporting elements with brackets 4. The bearing elements are made in the form of wooden bars 2 connected by intermediate profiles 1 with brackets 4, and plates 5 are fixed to bars 2.

Intermediate profiles 1 can be made C-shaped (figure 1, 2), or L-shaped (figure 3, 4) or U-shaped (figure 5, 6).

Facing decorative facade plates 5 are made of cement or fiber cement.

U-shaped brackets 4, corner brackets 12 are made of galvanized polymer-coated metal with a thickness of 2 mm, T-shaped profiles 13, and intermediate profiles 1 are made of galvanized polymer-coated metal with a thickness of 1.2 mm.

Bars 2 are installed on metal profiles 1 and 13 with threaded elements in the form of galvanized screws 3, and plates 5 are fixed to bars by 2 nails 6.

Metal profiles 1 are mounted on brackets 4 with galvanized screws 8 or galvanized rivets 9.

The ventilated facade is provided with corner brackets 12 for installation at the corners of the walls of the building, and the load-bearing elements in the form of wooden bars 2 are fixed on T-shaped shelves 13 bent at an angle to each other and fixed on brackets 12 using rivets 9.

The brackets 4 and 12 are fixed on the wall with the help of front dowels 10. Between the brackets 4, 12 and wall 7, thermo-insulating pads 11 are preferably installed.

The ventilated facade is operated as follows.

For the manufacture of this design, it is necessary to attach one of the unified metal profiles 1 over wooden bars 2 with galvanized screws 3. Then fix thermal insulating pads 11 on the flat wall 7 and through them U-shaped brackets 4 with a certain step horizontally and vertically using facade dowels 10, and further, vertically fix the bars 2 with the profile 1 to the brackets 4 with galvanized screws 8 or galvanized rivets 9. Then, fix the front plates 5 to the bars 2 nail aid 6 in manual or automated way.

U-shaped brackets 4 are attached to the wall 7 by the middle shelf, and profiles 1 are attached to the side shelves of the brackets 4.

At the outer corners of the walls 7 with a certain vertical pitch, corner brackets 12 are installed, each fastened to the wall 7 with one shelf by means of facade dowels 10 through a heat-insulating gasket 11. To the other shelves of brackets 12 by means of exhaust rivets 9 is fastened with a middle shelf T-shaped profile 13 , on the extreme shelves of which bars 2 are installed with galvanized screws 3 with a pitch of 300-350 mm into the predrilled holes in the profile 13. After this, 2 front plates 5 should be fixed to the bars with nails 6 manual or automated way.

The design of profiles 1 can be implemented in three equivalent versions:

Version 1 (Fig.1, 2):

For mounting on bar 2, galvanized polymer-coated C-shaped profile 1 is used, facing with its internal cavity inside the bracket 4. On the free side of the middle shelf of profile 1, bar 2 is attached with galvanized screws 3 with a pitch of 300-350 mm to the pre-drilled holes in profile 1. Next, the profile 1 is attached by side shelves to the bracket 4 using exhaust rivets 9.

Version 2 (Fig.3, 4):

For mounting on bar 2, two identical galvanized polymer-coated L-shaped profiles 1 are used. Profile 1 is fastened with one shelf to bar 2 with galvanized screws 3 with a pitch of 300-350 mm into the pre-drilled holes in the profile 1. Then profiles 1 are attached to the other shelf to bracket 4 with galvanized screws 8.

Version 3 (Fig.5, 6):

For mounting onto bar 2, galvanized polymer-coated U-shaped profile 1 is used, covering bar 2 with its internal cavity. Bar 2 is inserted into profile 1 and fastened with galvanized screws 3 with a pitch of 300-350 mm into pre-drilled holes in profile 1. Next, the profiles 1 are attached to the bracket 4 with galvanized screws 8.

Inside the ventilated facade between the wall 7 and the plates 5, a layer of insulation can be installed according to the heat engineering calculation for a specific type and thickness of the walls 7 on which the installation of the ventilated facade is planned. The layer of insulation on the schemes is conventionally not specified.

The work of the ventilated facade consists in free air circulation between wall 7 and plates 5, so that moisture does not accumulate in the supporting structures and the insulation layer, but is brought outside, which prevents the effective insulation of the building from decreasing due to the moisture of the insulation layer, prevents premature destruction of the supporting structures excessive moisture, as well as interferes with the proliferation of microorganisms in the layer of insulation and walls 7 of the building and provides the correct sanitary-hygienic microclimate inside the premises. The ventilated facade increases the level of heat and sound insulation, protects the walls from the adverse effects of the environment. The building, which has a ventilated facade in accordance with the present utility model, has improved performance characteristics in terms of energy saving and wide decoration possibilities.

At the same time, the formation of cold bridges from outside air to the wall 7 on metal parts is excluded, since wooden bars 2 are in the chain of connections, thermal deformations of the ventilated facade are reduced, because the expansion / contraction of wooden bars 2 fastened to the front plates 5 is significantly less than metal , at the same time, labor-intensiveness and complexity of fastening of facade plates 5 are reduced due to the mechanical properties of wood, which improves the joining conditions and makes it possible to use nails for this 6.

The technical result when using this utility model is to exclude the formation of cold bridges from outside air to the wall on metal parts, because the chain of connections has wooden bars, reducing the temperature deformations of the ventilated facade, because the expansion / contraction of wooden bars fastened to the front plates is much smaller than metal, at the same time labor-intensiveness and complexity of fastening of front plates due to the mechanical properties of wood, which improves the conditions of joining Nia with the possibility to use this nail.

Claims (10)

1. Ventilated facade containing metal U-shaped brackets for installation on a flat wall of a building, mounted facing decorative facade plates for connecting with intermediate metal profiles and bearing elements with brackets, the bearing elements being made in the form of wooden bars connected by intermediate profiles with brackets, and the plates are fixed to the bars. 2. Ventilated facade according to claim 1, characterized in that the intermediate profiles are made C-shaped. 3. Ventilated facade according to claim 1, characterized in that the intermediate profiles are L-shaped. 4. Ventilated facade according to claim 1, characterized in that the intermediate profiles are U-shaped. 5. Ventilated facade according to any one of claims 1 to 4, characterized in that the facing decorative facade slabs are made of cement-reinforced or fiber cement. 6. Ventilated facade according to any one of claims 1 to 4, characterized in that the U-shaped brackets are made of galvanized polymer-coated metal with a thickness of 2 mm, and the intermediate profiles are made of galvanized polymer-coated metal with a thickness of 1.2 mm. 7. Ventilated facade according to any one of claims 1 to 4, characterized in that the bars are mounted on metal profiles with threaded elements in the form of galvanized screws, the plates are fixed to the bars with nails, and insulating gaskets are installed between the brackets and the wall. 8. Ventilated facade according to any one of claims 1 to 4, characterized in that the metal profiles are mounted on brackets with galvanized screws or galvanized rivets. 9. Ventilated facade according to any one of claims 1 to 4, characterized in that the brackets are mounted on the wall with facade dowels. 10. Ventilated facade according to any one of claims 1 to 4, characterized in that it is provided with corner brackets for installation at the corners of the building walls and T-profiles connected to them, and the supporting elements in the form of wooden bars are fixed on other shelves T-shaped profiles.

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