RU222696U1 - Horizontal mounting profile for fastening façade system cladding with hidden fastening of facing tiles - Google Patents

Abstract

The utility model relates to the field of industrial and civil construction, namely to devices for fastening facing slabs in the structures of curtain facades of buildings and structures installed during construction and reconstruction. The horizontal mounting profile for fastening the facade system cladding with hidden fastening of the facing tiles includes vertical elements 1, one of which is intended for fastening to the vertical support of the facade system 9 with an elastic bend 3 in the lower part, and a horizontal element. According to the utility model, on the upper part of the vertical element 1, intended for attachment to the support of the facade system 9, two parallel stiffening ribs 2 are formed. The elastic bend 3 is rounded, and its free end 5 is directed towards the facade system 9 to form a stiffening rib 4. The horizontal element is located between the vertical element 1 for fastening to the support of the facade system 9 and the front vertical element 6, forming a longitudinal groove 7 for installation in there is a facade facing tile 10. The bottom 8 of the longitudinal groove 7 and the front vertical element 6 are made of two layers. The technical result of the utility model is to increase the structural strength of the horizontal mounting profile. 2 salary f-ly, 3 ill.

Description

The utility model relates to the field of industrial and civil construction, namely to devices for fastening facing slabs in the structures of curtain facades of buildings and structures installed during construction and reconstruction.

The clinker hinged ventilated facade is a new solution that is actively used in the construction of buildings. This type of facade is a system that consists of special elements - clinker tiles and fastening elements located on the facade of the building. The clinker hinged ventilated facade has a number of advantages over other types of facade, including high thermal insulation, protection from weather conditions, aesthetic appeal, strength and durability.

Installing a clinker hinged ventilated facade is a complex process. It is necessary to use special fasteners that ensure reliable fastening of the tiles to the facade of the building.

Known from the prior art is a horizontal profile of a suspended façade system for attaching facing tiles (RU 192854, class E04F 13/07, 2019), including a flat part for attachment to vertical profiles. In the lower part of which there is an elastic stop for contact with the back side of the tile, and in the upper part there is a bend with a shelf parallel to the flat part. The upper edge of the shelf is configured to be placed in a groove formed by the holding protrusion above the tile located above. The lower edge of the shelf is designed to be placed between it and the flat part of the profile of the upper edge below the tile. The lower edge of the profile flange is made with a wedge stop in the form of a sharp bevel inward, an elastic stop made in the form of an outward bevel in the lower part of the profile ends with a sharp edge parallel to the bevel of the wedge stop, and the bend of the upper part of the horizontal profile is made continuous.

A horizontal profile for fastening slabs of façade system cladding is also known (RU 215976, class E04F 13/08, 2023), including a first vertical crossbar installed on a vertical guide of the facade system and having upper and lower parts, with the upper part of the first vertical the crossbar is connected to the first horizontal crossbar connected to the second vertical crossbar, which is directed downwards, and the lower part of the first vertical crossbar is connected to the second horizontal crossbar, connected to the third vertical crossbar, which is directed upwards, while the lower part of the first vertical crossbar is made elongated so that that its end protrudes above the second horizontal crossbar, while the second vertical crossbar is configured to engage with a protrusion at the upper end of the cladding slab, and the third vertical crossbar is designed to engage with a recess at the lower end of the same cladding slab, while the protruding end of the elongated lower part of the first vertical crossbar of the upper horizontal profile is configured to be placed in a groove formed between the upper part of the first vertical crossbar of the underlying horizontal profile and the vertical guide of the facade system. The protruding end of the elongated lower part of the first vertical crossbar of the horizontal profile is a protrusion with a groove having two walls with a crossbar between them and formed by bending the profile sheet during the manufacturing process. The lower part of the first vertical crossbar of the horizontal profile is made with a stiffening rib and with holes for fastening elements. The second vertical crossbar of the horizontal profile is made with bending/fixing petals.

The disadvantage of known devices of the described type is the low strength of the horizontal profile in relation to weight, wind, and ice loads.

The closest in design is the utility model (RU 202012, cl. E04F 13/21, 2021), a horizontal steel profile of a hinged ventilated facade system with hidden fastening of facing tiles, having a flat part for attachment to vertical profiles, at the bottom of which there is an elastic a stop in the form of a bend at an obtuse angle to the flat part for contact with the back side of the tile, and the top of the flat part has a horizontal bend with a vertical shelf parallel to the flat part, the upper edge of which is made to be placed in the groove of the tile, the lower edge of the vertical shelf is made to be placed below the tile located between it and the flat part of the profile. The lower edge of the vertical flange of the profile has a bend at an acute angle to it and a continuation in the form of a second bend parallel to the vertical flange, and a bend of the elastic stop made at an obtuse angle to the flat part has a continuation in the form of a second bend parallel to the flat part.

The disadvantage of the prototype is the low strength characteristics of the structure to resist wind and snow loads due to its loose fit to the cladding elements.

The problem that the utility model is aimed at is improving the horizontal mounting profile.

The technical result of the utility model is to increase the structural strength of the horizontal mounting profile.

The posed problem and the stated technical result are achieved due to the fact that the horizontal mounting profile for fastening the cladding of a facade system with hidden fastening of facing tiles includes vertical elements, one of which is intended for fastening to the vertical support of the facade system with an elastic bend in the lower part, and a horizontal element . According to the utility model, on the upper part of the vertical element intended for attachment to the support of the facade system, two parallel stiffening ribs are formed. The elastic bend is rounded, and its free end is directed towards the facade system to form a stiffening rib. The horizontal element is located between the vertical element for fastening to the support of the facade system and the front vertical element, forming a longitudinal groove for installing facing tiles in it. The bottom of the longitudinal groove and the front vertical element are made of two layers.

Parallel located stiffening ribs on the upper part of the vertical element intended for fastening to the support of the facade system are made at a distance from each other with the possibility of placing elements of fastening to the support of the facade system between them. Two parallel stiffening ribs increase the rigidity of the entire structure.

Making the bottom of the longitudinal groove and the front vertical element two-layer, by cold rolling, significantly increases the strength of the entire profile structure, providing an actual metal thickness of 1.2 mm in the place where the greatest weight load falls on the profile.

It is advisable to place parallel stiffening ribs on the upper part of the vertical element intended for fastening to the support of the facade system at a distance from each other with the possibility of placing elements of fastening to the support of the facade system between them.

The presence of stiffeners in the upper part of the vertical element intended for fastening to the support of the facade system provides increased strength to the profile, allowing it to withstand significant loads of clinker facing tiles during the installation of the profile, as well as during its operation.

The presence of a rounding at the end of the elastic bend, the free end of which is directed towards the façade system, additionally forms a stiffening rib, which significantly increases the strength of the profile, as well as the fixation force of the facing tiles, ensuring that it can withstand increased loads on the building façade cladding.

The placement of a horizontal profile element between a vertical element intended for fastening to the support of the facade system and a vertical facade element, with the formation of a longitudinal groove for installing facing tiles in it, allows you to hold a heavy facing tile between two vertical elements, where it will be fixed on both sides.

The utility model is illustrated in the following drawings, where in FIG. 1 shows a vertical section of a horizontal mounting profile for fastening the cladding of a façade system with hidden fastening of facing tiles; in fig. 2 shows a top view of the profile; in fig. 3 - vertical section of the profile with facing tiles installed in it.

The utility model is represented by the following positions:

1 - vertical element of the horizontal mounting profile, intended for fastening to the vertical support of the facade system;

2 - stiffeners in the upper part of the vertical element 1;

3 - elastic bend, in the lower part of the vertical element 1, made with a rounding, the free end of which is directed towards the facade system, forming a stiffening rib;

4 - stiffening rib of elastic bend 3,

5 - free end of elastic bend 3;

6 - front vertical element, made of two layers;

7 - longitudinal groove;

8 - bottom of the longitudinal groove, made of two layers;

9 - facade system;

10 - facing facade tiles with hidden fastening;

11 - fixing petal;

12 - fastening element to the support of the facade system 9.

A horizontal mounting profile for fastening the cladding of a facade system with hidden fastening of facing tiles is used for installing facing materials: clinker brick, cast concrete, some products made of glass fiber reinforced concrete, porcelain stoneware. facing materials made for quick removal/installation anywhere. Can be used without grout.

Considering that facing materials are heavy, therefore, the mounting profile is primarily given special attention to its ability to withstand both increased weight loads and loads arising during operation, including those associated with weather conditions: wind, snow, ice.

The horizontal mounting profile is made of metal strip (strip) 101 mm wide and 0.55-0.6 mm thick. The material of the tape is galvanized steel grades ST08PS, ST02 or stainless steel grade AISI 430. The tape passes through an automatic cold rolling machine specially designed for the production of this profile. The standard profile length is 3000 mm, but it can also be produced in other sizes. After cold rolling, galvanized steel profiles are coated with a layer of polymer powder painting or primer-enamel with a thickness of at least 65 microns to increase corrosion resistance.

The finished profile is an element of a hinged ventilated facade and is used to install facing material on it (cladding facade tile 10 made of cast concrete). The vertical element 1 of the horizontal mounting profile is fixed using fastening elements 12 on the vertical elements of the facade system 9 according to a template so that the facing facade tile 10 can be freely inserted between adjacent horizontal profiles. The location of the stiffening ribs 2 of the vertical element 2 at a certain distance from each other allows you to install a fastening element 12, for example a rivet, in the space between them to fasten the horizontal profile with its upper part to the vertical elements of the facade system 9. On the vertical element 2 in the lower part, above the elastic bend 3, which is another stiffening rib 4, can also install a fastening element 12 (not shown in the figure), thereby strengthening the fixation of the horizontal profile on the facade system 9. The vertical element 1 of the horizontal profile fits tightly to the elements of the facade system, and the stiffening ribs 2 and 4 with emphasis on the element of the façade system of the free end 5 of the elastic bend 3, increase the strength characteristics of the horizontal profile.

Each facade facing tile 10 is installed in turn into the longitudinal groove 7, placing the shaped elements of the tile 10 located on its back side on the bottom of the groove 8.

It has been established experimentally that the profile configuration ensures a tight fit of the facade facing tile 10 to the vertical element 1, the front element 6, as well as to the bottom 8 of the longitudinal groove 7, allowing it to withstand wind and snow loads. To fix the quick-release facade facing tiles 10, locking petals 11 are used, blocking the vertical movement of the facade facing tiles 10 for already installed cladding.

An increase in the strength characteristics of the profile is ensured by the two-layer design of the bottom 8 and the front vertical element 6, by cold rolling, resulting in an actual wall thickness of 1.2 mm. It has been experimentally verified that this design of horizontal profile elements is sufficient to withstand weight loads and weather conditions in comparison with known designs.

Calculations show that this profile is twice as strong as the profiles of known structures. Under the same conditions, at the peak load, the declared profile bends by a maximum of 0.5 mm, while a well-known profile, for example PF-K (Ronson), bends by 1 mm.

The design of the horizontal mounting profile also allows for individual installation of thin, small-sized tiles, as well as spot dismantling of tiles or installing them in place. This will make it possible to repair the facade and insert missing tiles into place (for example, at the place where scaffolding is attached after its dismantling).

Currently, the horizontal mounting profile for fastening the cladding of a façade system with hidden fastening of facing tiles has been tested experimentally and is being prepared for serial production.

Claims (3)

1. A horizontal mounting profile for fastening the cladding of a facade system with hidden fastening of facing tiles, including vertical elements, one of which is intended for fastening to the vertical support of the facade system with an elastic bend in the lower part, and a horizontal element, characterized in that on the upper part of the vertical element intended for fastening to the support of the facade system, two parallel stiffening ribs are formed, while the elastic bend is rounded, and its free end is directed towards the facade system to form a stiffening rib; in addition, the horizontal element is located between the vertical element for fastening to the support facade system and a front vertical element with the formation of a longitudinal groove for installing facing tiles in it, and the bottom of the longitudinal groove and the front vertical element are made of two layers. 2. The horizontal mounting profile according to claim 1, characterized in that the parallel stiffening ribs on the upper part of the vertical element intended for fastening to the support of the facade system are made at a distance from each other with the possibility of placing elements of fastening to the support of the facade system between them. 3. Horizontal mounting profile according to claim 1, characterized in that the bottom of the longitudinal groove and the façade vertical element are made in two layers by cold rolling.