LV14120B - Hat profile for fastening of composite facade profile and its use in entire curtain facade system - Google Patents

Abstract

The invention relates to the field of industrial and civil building, namely, to the devices and systems for fastening composite facade panels. Technical result consists in securing stable fixation of composite facade panel during its long use (even in the case of partial exfoliation of the material of panel) and preventing the deformation of composite facade panels under the action of weather conditions and meteors, providing also simplified construction of curtain facade system and for decrease of the labor expense for the production of profiles and installation of panels, and also material consumption of profile for fastening composite facade panels and entire curtain facade system. The posed problem is solved by the creation of hat profile for fastening of composite facade panels (1), that has shelves, located on three levels: upper shelves (2), that are the bearing surfaces of the composite facade panels (1) ensuring transfer of wind loads on the profile and preventing the deformation of composite facade panels (1) under the action of weather conditions and meteors, lower shelves (3) located at a distance, equal to the depth of the composite facade panel (1), used for fastening composite of facade panels (1) to the hat profile for the preventing displacement of the panel (1) in the horizontal direction, and also for fastening of hat profile with another profile and/or carrying bracket (4) and middle shelves (5) intended for fastening holders (6) to which hang up composite facade panels (1). The posed problem is also solved by the fact that in the proposed construction of hat profile are used the holders (6) for suspending the composite facade panels (1); the holders are made in the form angle bar and put in the cut of L-shaped form in the opposite walls of hat profile in such a way that one of the shelves of each holder (6) comes into contact with the appropriate pair of middle shelves (5). The use of holders (6) of the proposed form makes it possible to give additional stability to hat profile, to ensure reliable support for suspending the composite facade panel (1), and also to considerably decrease the material consumption and to simplify the element of the construction for the suspension of facade panel (1).

Description

Description of the Invention

Technical field

The invention relates to industrial and civil engineering, namely to devices and systems for reinforcing composite facade panels used to protect the walls of buildings against climate and atmospheric influences and to create an aesthetic appearance.

Known state of the art

Aluminum composite materials are widely used as cladding elements for ventilated, less often ventilated, facades of buildings. The use of aluminum composite panels has a number of advantages over sheet metal panels: higher surface durability (compared to aluminum or steel sheet panels), higher surface quality, lower panel weight, etc. At the same time, panels made of aluminum composite materials have several disadvantages, such as lower panel strength at the folds compared to the sheet itself, since the only load-bearing element of the panel is the aluminum sheet, which, when subjected to force, easily bends. In the process of cyclical impact on the panel (wind load, temperature) the metal fatigue occurs at the joint, leading to the formation of micro-cracks and breaking of the panel part. In addition, aluminum composite materials are subject to corrosion, which develops on the contact surface between the aluminum plate and the plastic filler, which leads to the peeling of the aluminum layer from the plastic filler at its milling points and panel edges.

When designing reinforcement systems for aluminum composite panels for cladding facades, these shortcomings of aluminum composite panels should be taken into account and should provide stable support and fixation of the panels to prevent deformation of the panels at the site due to weather and atmospheric conditions. In addition, the aluminum composite panel fastening system should provide stable panel fixation even when the aluminum layer is peeled off from the plastic fill.

There are many ways of fixing aluminum composite panels in world practice. Often, the special features of aluminum composite panels are ignored and the panels are fastened through milled and folded inside the panels

Ί shelves directly on the surface to be plastered. Such fastening is temporary and the panels need to be replaced frequently. Aluminum composite panel fastening systems are known that take into account the aforementioned characteristics of aluminum composite panels, but such systems also have a number of drawbacks, such as being aesthetically unattractive (the fastening profiles remain uncovered, they need to be additionally painted with the paneling or high material intensity and, consequently, high production and facade system installation costs (many systems use extruded aluminum profiles mounted on the perimeter of the panels on both sides to support the panels), high labor (individual adjustment of the panel frames) on the site assembly (requires profile assembly according to project height marks as well as panels themselves according to project height marks).

There is a known U-shaped profile consisting of a wall and two shelves that form a right angle and are on one side of the wall. The U-shaped profile has a pin (holder) which is passed through the holes in its opposite walls (Fig. 1). The composite facade panels, which have hook-shaped notches in the side folds, are hung on a pin inserted in the holes in the U-shaped wall walls. The disadvantage of this known technical solution is that the facade panel does not have a reliable support on the inside, which, due to weather and atmospheric conditions, leads to corrosion between the plastic filling and the aluminum sheet, peeling of the aluminum layer from the plastic filling and deformation of the panel disintegration.

There is also known a single-shelf trough profile for fastening cladding panels with thermal insulation and soundproofing consisting of three walls, two of the same size facing one side and two shelves facing the outside of the profile, with a profile holder (pin sleeve) through holes in opposite sides of the profile (patent EP 0549215 B1, published March 27, 1996; Fig. 14, SKI; E04C2 / 26, E04F13 / 08, E04F13 / 12). The cladding panel, which has a bottom and top wall and a layer of insulating material between them and is fitted with a fastening element, is hung on a flat-shelf profile holder (studs with a socket) so that the inner wall of the panel rests on a single-shelf profile shelf. . The disadvantage of this known hanging system is the relatively high volume of material. In addition, the known single-shelf trough profile construction is not intended for fixing and stable fixing of composite facade panels.

There is known a J-shaped profile for fastening composite facade panels consisting of four walls and two shelves facing the outside of the profile (Fig. 2), the profile being provided with a sleeve clip with a pin for hanging aluminum composite facade panels. The disadvantage of this known technical solution is the high material intensity and the fact that the known profile construction does not provide support of the facade panel from the inside, which often leads to deformation of the panel under wind conditions, as well as the aluminum layer from plastic filling and subsequent breaking of the panel.

Fig.1 is an overview of one of the known technical solutions for fixing aluminum composite facade panels, Fig.2 is an overview of another known solution for fixing aluminum composite facade panels.

Revelation of the Invention

The technical result of the invention is directed to the elimination of the shortcomings of known technical solutions and manifests itself in stable fixation of composite facade panels during its long life even in the case of partial panel material delamination and deformation of composite facade panels due to weather and weather phenomena. eliminating the need for mounting profiles across the perimeter of the facade panel, thereby reducing the cost of the facade cladding system, providing a single facade panel mounting system for both horizontal and vertical panel placement, eliminating the need to adjust panel assembly labor the mounting height of the panels.

The problem is solved by creating a trough profile for the reinforcement of composite facade panels, which have shelves located on three levels:

- upper shelves, which are the support surface of the composite facade panels, which allow the wind load to be applied to the profile and prevent deformation of the facade cladding panels due to weather and atmospheric phenomena,

- lower shelves spaced at a distance equal to the depth of the composite facade panel and serve to fasten the composite facade panels to the trough profile to prevent the panel from deflecting horizontally as well as to tile the profile to another profile and / or bearing support,

- middle shelves for mounting holders for composite facade panels.

This technical result is also achieved by the use of brackets for hanging composite facade panels in the proposed trough profile construction, which are placed in corner incisions formed in the opposite walls of the trough profile, such that one of the shelves of each holder contacts the respective middle shelf. over. The use of the offered form holders and their attachment to the middle shelves allows to provide additional stability of the trough profile, stable support for hanging composite facade panels, as well as to reduce material volume and significantly simplify the structural element for hanging composite facade panels.

The offered profile may be made of sheet metal such as high-strength aluminum.

Fig. 3 is a cross-sectional view of the proposed trough profile, Fig. 4 is a cross-sectional view of the proposed tile profile, Fig. 6 is a schematic diagram of a composite facade panel mounting on a tile profile. Fig. 7 - view of the facade part in assembled form, Fig.8 - layout of the offered trough profile blanks on a metal sheet.

The proposed trough profile (see Figs. 3 to 6) for fixing composite facade panels 1 consists of three walls, two of the same size and facing one side, and two shelves 2 facing the trough profile and forming composite facade panels 1 support surfaces. Shelves 2 provide wind load transfer from the composite facade panel to the profile, preventing panel deformation. The truss profile further comprises at least two shelves 3 per facade panel 1 facing the exterior of the truss profile and intended for attaching composite facade panels 1 to the truss profile to prevent deflection of panel 1, as well as to fasten the truss profile to another profile and / or the bearing bracket 4. The parallel profile walls of the trough profile have notches at the level of the shelves 3 with depths equal to the depth of the composite facade panel 1, whereby the shelves 3 are positioned in the incision centers in the parallel walls of the tile profile. the top planes are at a distance equal to the depth of the composite facade panel 1. The proposed trough profile also includes shelves 5 facing the outside of the trough profile (the number of shelves 5 depends on the height of panel 1, preferably two shelves 5 per panel). Shelves 5 are provided for fastening holders 6 which provide additional reinforcement of the trough profile and serve as means for hanging composite facade panels 1. The distance between the upper bracket 6 and the shelf 3 to which the composite facade panel 1 is attached is relatively small (max 120 mm) so that the thermal deformations of the panel 1 are insignificant and do not lead to shattering of the shelf of the panel 1 during prolonged operation. arranged so that, at any panel temperature, within the specified operating temperature range, the holders 6 are based solely on the highest incisions. The holder 6 is executed in the form of a corner and is inserted into notches of corresponding shape in the opposite sides of the trough profile so that one of the shelves 6 of each holder contacts the respective pair of shelves 5 (Fig. 4). The notches in the opposite walls of the trough profile for mounting the core 6 are formed by partially cutting the surface of the profile blank. Shelves 5 are formed by cutting parts of opposite wall surfaces of the profile as a result of cutting. In the shelves 5 and the long shelves of the holders 6, holes are provided for mounting the fastening elements, the holes 6 being arranged so that the holes 6 in the shelves 5 and the long shelves of the holders 6 are disposed opposite (see Figs. 5 to 6). The shelf of the holder 6 which is in contact with the shelf which contacts the pair of shelf 5 is preferably of a length less than the length of the other shelf but larger than the width of the trough profile wall parallel to the holder 6.

When making a profile for fixing single-height panels, slits 7 are made in parallel walls of the trough profile, which allows economical use of the metal sheet area by positioning the profile shelf 2 on the metal sheet so that they fit into the slots 7 (Fig. 8). material volume.

For example, aluminum composite cladding panels with an outer aluminum layer thickness of 0.3 mm to 0.50 mm are used to install the suspended facade system. The cladding panel is formed by a fold around the entire perimeter facing the panel and one additional fold in the top panel wall facing the panel.

The installation of the suspended façade system is carried out using a set of parts for smoothing the wall surface, for example, if the façade system is mounted on a thermal panel. According to the assembly scheme, using a kit for leveling the wall surface, load-bearing brackets 4 are attached to the wall of the building, on which adapters 8 are mounted (see Figs. 6 and 7). Attach to the adapters 8 the trough profile offered in the first basic row, following the alignment along the orthodox axis (height marks) and the step along the abscissa. The other trough profiles above and below the baseline are then mounted. Leveling of the trough profiles in one plane is done by changing the position of the adapter 8 relative to the building wall. The suspended facade is formed by attaching the composite facade panels 1 to the facade bearing system in sequence. The panel 1 is fastened to the profile with hook-shaped notches in the side walls of the panel 1, suspended on the holders 6 and fixed to the shelf 3 by the panel 1, preferably with a rivet (see Figs. 5 to 8). In addition, due to the peculiarities of the tile profile construction, the inside of the composite facade panels 1 fits within the tile profile shelves 2, which provides a wind load to the tile profile and prevents deformation of the composite facade panels 1 due to weather and atmospheric phenomena. The next panels 1 are mounted so that the side walls of the panels 1 are in the same plane.

Best Mode for Carrying Out the Invention

The proposed trough profile for composite facade panel reinforcement is made of high-strength aluminum, from 1.5 mm to 3 mm thick, using known techniques for making curved rolled profiles. Profile length up to 4000 mm (depending on material and technological possibilities profile length can reach up to 6000 mm), height (wall width perpendicular to shelves 2, 3, 5 planes) - 80 mm, width (from 3 opposite sides of shelves) - 82 mm, wall parallel to planes 2, 3, 5 of shelves, width 40 mm. The distance between the centers of symmetry of the shelf 3 corresponds to the height of the composite facade panel 1 and in this case is equal to 50 mm. Shelf 3 is equal to 50 mm in length. The trough profile at level 3 of the shelves has slits in the parallel walls that are equal in depth to the composite facade panel 1 so that the top plane of the shelf 3 is at a distance from the top plane of the shelf 2 equal to the depth of the composite facade panel 1 mm. The slits in the parallel walls of the tile profile are made so that the details of the profile blank can be joined to the sheet as shown in Fig. 8, but in all cases the distance from the shelf 5 to the nearest edge of the composite facade panel 1 remains unchanged. To fulfill this condition, the number of cuts 7 in the parallel walls of the profile may vary depending on the height of the panel. In the proposed embodiment of the invention, the tongue profile cuts have the following lengths: the tongue profile ends are 102.5 mm, the central portion of the trough profile is 205/195 mm, and the shelves 3 are located in the center of the parallel wall incisions. The distance between the upper holder 6 and the upper shelf 3 to which the composite facade panel 1 is attached is equal to 50 mm. The rack 6, which is in contact with the shelf 5, has a length of 82 mm; holder 6 contact shelf length - 53 mm. The notches 7 have parallel lengths of up to 310 mm in the parallel walls and are spaced from 55 mm to 300 mm apart.

Installation of the proposed suspended facade system is carried out as follows. Supporting brackets 4 are fitted to the cladding surface (building walls) on which the adapters 8 are mounted. The adapters 8 are fitted with a tread profile of the main row, then the other tread profiles above and below the main row are mounted taking into account the required clearance (1.5). -2.5 mm). The level of the trough profiles is aligned in one plane by changing the position of the adapter 8 relative to the surface to be covered. The panel 1 is hooked (from top to bottom) with hooks in the side flaps on the holders 6 and secured to the shelf 3 by means of rivets 2-4 through the upper shelf of the panel 1 (Fig.7). Due to the incisions in the parallel walls of the profile and the positioning of the shelves 3, the inside of the composite facade panels 1 fits snugly against the tile profile shelves 2, which provides wind load to the tile profile and prevents deformation of composite facade panels under weathering and weather conditions.

Thus, the present invention makes it possible to provide a stable composite facade panel fixation in three planes during its long service life such that the interior of the composite facade panels fits over the trough profile upper shelf, which provides wind load to the tile profile and prevents the composite facade panels from weathering. the phenomenon, while simultaneously simplifying the design of the suspended facade system, reducing the labor-intensive production of profiles and panel assembly, as well as the material capacity of the composite facade panel reinforcement profile and the overall suspended facade system.

Claims (4)

8 8LV 14120 Claims 1. Silicone profile for reinforcing composite facade panels (1) consisting of three walls, two of which are of the same size, facing one side, with two shelves (2) facing outwardly of the profile and with the holder (6) released through holes in opposite walls of the profile, characterized in that it further comprises: at least two shelves (3) directed towards the exterior of the tread profile and intended to attach the composite facade panels (1) to the trough profile, and for attaching the tread profile to another profile and / or bearing support (4), the top plane of the rack (3) being located at a distance equal to the depth of the facade panel (1) of the composite material; at least two shelves (5) facing the exterior of the trough profile and intended to secure the holders (6), the holders (6) being executed in a corner shape and inserted into the corresponding walls of the tongue profile in the opposite wall in such a way that one of each the holder (6) contacts the shelves of the respective shelves (5). Silice profile according to claim 1, characterized in that cuts (7) are formed in the parallel walls of the profile in order to reduce the material density. Silice profile according to claim 1, characterized in that it is made of sheet metal, such as high-strength aluminum. Use of a mesh profile according to claim 1 in a hanging facade system of composite facade panels (1), comprising a tread profile attached to the cladding surface according to claim 1 and a plurality of fastening elements attached thereto for fastening the composite facade panels (1). wherein the interior of the composite facade panels (1) fits into the trough profile shelves (2) to provide wind load removal to the profile and to prevent deformation of the facade cladding panels (1) due to weather and atmospheric phenomena.