RU2641140C1 - Hinge system of lining of buildings and premises, including for building partitions - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: hinge system of lining of buildings and premises, including for building partitions includes mounting brackets, bearing wall brackets, frame mounted systems, hidden sliding T-and l-type fasteners, facing panels (slabs), tubular connectors, and support elements.

EFFECT: simplifying the installation, increasing the accuracy and quality of installation, increasing the rigidity and strength of the fastening system for the facing panels of the surfaces of buildings and structures, and walls of internal premises.

14 cl, 9 dwg

Description

Technical field

The invention relates to the field of construction, namely to hinged wall cladding systems of buildings, structures and premises, with hidden fastening of various cladding materials, such as natural stone, ceramic panels, composite and metal cassettes, etc.

State of the art

The prior art device for attaching cladding plates (see patent of the Russian Federation RU 2180935 for invention, publ. 03/27/2002), containing at least two supporting profiles, each of which through ribs engages with two opposite facing surfaces plates, forming a tongue-and-groove connection, a support profile fixed to the surface to be facing, and an intermediate element associated with the supporting profile and the support profile. The supporting profile is fixed on the intermediate element, which is covered by the supporting profile so that in the direction perpendicular to the exposed surface facing, an adjustable gap is formed between the intermediate element and the supporting profile, equipped with means to prevent longitudinal and transverse movement of the intermediate element when it is installed. Each and the supporting profile and the intermediate element in the horizontal section of the plane has a U-shaped profile, the shelf of which is facing the surface exposed to the lining, while the U-shaped section of the intermediate element from the open side has support flanges extending from the sides in the opposite direction, designed for installation of supporting elements.

The disadvantages of the known devices include:

- the need for element-wise assembly of supporting (vertical) and bearing (horizontal) profiles directly on the wall structure, which increases the complexity of installation;

- the need to make a continuous slot in the ends of the facade cladding elements for connection with the supporting (horizontal) profile;

- the inability to perform fastening of the facade cladding elements along a vertical seam;

- during the operation of the facade, it is impossible to replace the damaged facade cladding element without dismantling the adjacent elements and (or) without using additional visually visible fastening means on the new facade cladding element.

The prior art design for cladding building facades (options), including a supporting frame, consisting of vertical and horizontal guide profiles interconnected in the same plane using fasteners using the self-tapping method (see patent of the Russian Federation RU 40353 for utility model, publ. 10.09.2004).

Design flaws include:

- the need for accurate binding (marking) of L-shaped brackets on the surface to be coated for connection with vertical profiles, which increases the complexity of installation;

- the need for element-wise assembly of supporting (vertical) and bearing (horizontal) profiles directly on the wall structure, which increases the complexity of installation;

- lack of sophisticated fasteners, including hidden fastening of facing panels to horizontal elements of the supporting frame;

- the design of the supporting frame of the facade system complicates the alignment of the front sides of the facade panels, which increases the complexity and reduces the quality of installation. The recommended scope of this option is the basement of the building.

The prior art system for fastening the facing panels of ventilated facades (see the patent of the Russian Federation RU 92063 for utility model, published on 03/10/2010), including brackets, vertical C-shaped sections containing the middle part, side walls, and shelves, bent from the side walls inwardly at an angle of 90 °, horizontal end profiles in the form of strips with tabs directed to one side, horizontal in-line profiles in the form of strips with lower tabs directed downward and with upper tabs directed upward.

The disadvantages of the system include:

- the need for accurate binding (marking) of U-shaped brackets on the surface to be coated for connection with vertical profiles, which increases the complexity of installation;

- the lack of horizontal profiles in the system, which does not allow the use of natural stone (marble, granite, etc.), characterized by a large weight, as a facing plate;

- lack of sophisticated fasteners that provide hidden fastening of facing facade panels.

Disclosure of the invention

The technical result of the claimed invention is:

- simplification of the installation of the hinged system due to the lack of the need for precise marking when installing the brackets, the presence of enlarged elements of the frame of the system in the form of a lattice of maximum factory readiness and the use of fastening elements for facing plates (panels) on the frame of the system without the use of fixing hardware (screws, bolts, rivets);

- improving the accuracy and quality of installation of the hinged system through the use of enlarged elements of the frame of the system, made in the factory, with high accuracy of the axial geometric dimensions between horizontal and vertical profiles, as well as the use of appropriate cladding elements;

- increasing the rigidity and strength of the fastening system of cladding plates (panels) of the surfaces of buildings and structures, as well as the walls of internal premises through the use of enlarged frame elements of the system, made in the factory, with rigid mating nodes box-shaped vertical and horizontal profiles, and the use of special fastening elements with facing plates (panels) a thorn-groove connection, with the possibility of installing fasteners not only on horizontal, but also on vertical profiles of the frame of the system.

The technical result is achieved by the fact that the hinged cladding system of buildings and premises, including for creating partitions includes:

- mounting brackets fixed to the wall structure by means of hairpin anchors, with the possibility of adjusting the frame of the hinged system relative to the wall structure;

- load-bearing wall brackets having one- or two-anchor fasteners and consisting of three parts: stationary and regulating parts of the bracket, providing a different range of adjustments of the hinge frame relative to the installed surface of the wall structure, as well as slides moving (sliding) along the regulating parts of the load-bearing wall brackets in horizontal or vertical directions for connection with vertical or horizontal profiles of the frame of the mounted system;

- the frame of the hinged system, consisting of horizontal and vertical profiles, fastened together by a groove-tongue joint and welding or in another way, such as gluing, soldering, etc., forming a rigid spatial structure in the form of cards (grids);

- fixing T- and L-shaped elements, fixed in the grooves of the horizontal and vertical profiles of the frame of the hinged system with the ability to move around the grooves and providing hidden fastening with facing panels (plates);

- facing panels (slabs) with hidden fastening at the ends (around the perimeter) of the panels (slabs), fixed in grooves of horizontal and vertical profiles of the frame of the hinged system using hidden sliding T- and L-shaped fastening elements, at least 4 pieces per one facing panel (two from the bottom + two from the top);

- tubular connectors, providing mutual fastening between themselves horizontal and vertical profiles at the joints of adjacent cards (grids) of the frame of the mounted system;

- auxiliary elements in the form of various profiles, angular and connecting plates, slope slopes, ebbs, etc.

In a preferred embodiment, the horizontal and vertical profiles of the carcass of the hinged system are made of aluminum alloys by extrusion, cards (grids) of various sizes are collected from aluminum profiles in the factory, but their height, as a rule, is equal to the floor height of the building to be lined; on the external lateral longitudinal walls of the profiles along the straight line, mounting holes of round shape of the same diameter are made (drilled) at a certain distance from each other for a fixed (fixed) fixing of the profile with mounting brackets (bearing wall brackets) with the possibility of adjustment relative to the installed surface and the axis of the bracket. Aluminum profiles of the frame of the hinged system have grooves for fastening the sliding hidden fastening elements for facing panels (plates) with a thorn-groove connection; oblong holes are made along the axis of the rectangular fixing groove with a certain step by means of milling for installation of cladding fastening elements into the groove and subsequent movement of the fastening element along the groove; the rectangular groove has two internal recesses (recesses) on opposite adjacent walls for installation and rigid fastening of the sliding hidden fastening elements of the facing panels (plates) with a groove-tongue connection. Bearing wall brackets are installed on the wall structure through heat-insulating linings (15). Steel galvanized steel, stainless steel or aluminum alloys are used, bearing wall brackets that can be adjusted relative to the wall structure due to the regulating part of the bearing wall bracket relative to its stationary part, and slides (for walls with thermal insulation) and / or use mounting brackets that can be adjusted relative to the wall structure by the thread of anchor studs (for walls without thermal insulation). The stationary and regulating parts of the bearing wall brackets with mounted rails, after adjustment for reach relative to the wall, are fixed with a rivet or bolt connection. The slide is made in the form of sliding brackets, fixed by bolting to the washer at the end of the regulating part of the bearing wall bracket and when the axes of the bearing wall bracket and the profile (horizontal and vertical) of the hinged system frame are adjustable in horizontal and vertical directions. Additionally, to ensure a tight contact between the facing panel and the frame of the hinged system, rubber-polymer or silicone sealant can be used. On the one hand, tubular connectors are rigidly mounted and, on the other hand, sliding mounted, with the help of tubular connections, thermal expansion-contraction of the system is ensured. Facing panels (slabs) are made of natural stone with various front surfaces, for example, polished, polished, tarnished, etc., with different thicknesses and different sizes of panels (slabs). Cladding panels (slabs) are made, for example, of solid ceramic or with hollow slabs. Cladding panels are made, for example, in the form of cassettes of aluminum composite materials or galvanized metal sheets with a paint coating. In addition, heat-insulating plates in one or two layers can be installed on the wall structure using plate-shaped dowels, and a waterproofing vapor-permeable membrane can be fixed on the heat-insulating plates with plate-type dowels.

Brief Description of the Drawings

The characteristics and essence of the claimed invention is illustrated in the following detailed description, illustrated by the drawings, which show the following.

In FIG. 1 - frame of the hinged cladding system with load-bearing wall brackets (single and double-anchor, the pitch of the brackets is arbitrary).

In FIG. 2 - a fragment of the frame of the hinged cladding system with a two-anchor bearing wall bracket.

In FIG. 3 is a three-dimensional view of a profile, a T-shaped fastening element and a facing panel.

In FIG. 4 - two-anchor bearing wall bracket with a sled.

In FIG. 5 - single-anchor wall bracket with slide.

In FIG. 6 - mounting bracket, mounted on a wall structure and adjustable relative to the wall by means of anchor rods.

In FIG. 7 is a three-dimensional view of the frame of the hinged cladding system with load-bearing wall brackets and cladding panels (a variant of the layout of panels “masonry”).

In FIG. 8 - node device connecting adjacent cards of the frame of the mounted system.

In FIG. 9 - node of the expansion joint device.

The figures (1-9) show the following:

1 - mounting brackets fixed to the wall structure by means of anchors-studs;

2 - bearing wall brackets having a single-anchor mount;

3 - bearing wall brackets having two-anchor fastening;

4 - stationary part of the bracket;

5 - regulatory part of the bracket;

6 - slide, made in the form of sliding brackets, fixed at the end of the regulatory part of the supporting wall bracket;

7 - horizontal profiles;

8 - vertical profiles;

9 - hidden sliding T- and L-shaped fastening elements, fixed in the grooves of the profiles and providing hidden fastening with facing panels (plates);

10 - grooves of profiles;

11 - facing panels (slabs) with hidden fastening at the ends (around the perimeter) of the panels (slabs), fixed in the grooves of the profiles using hidden sliding T- and L-shaped fastening elements;

12 - plastic plug;

13 - ends of facing panels (plates);

14 - tubular connectors, providing mutual fastening between each other profiles;

15 - thermally insulating linings.

The implementation and examples of implementation of the invention

Installation work on the installation of the cladding system in the general case can be divided into the following steps:

- marking for mounting brackets;

- installation of stationary parts of the supporting wall brackets (or mounting brackets);

- installation of thermal insulation (if there is such a solution in the project);

- installation of the regulatory parts of the supporting wall brackets;

- installation of cards (grids) of the frame of the system;

- installation of cladding;

- device junctions;

- delivery and acceptance of work;

- quality control of work performed.

The T-shaped hidden sliding element (9) for fixing the facing plates (panels) (11) in a hidden way consists of a base-wall and two rectangular grips (hooks) in the form of a T-section shelf located at one end of the base-wall; on the other opposite end, on both opposite sides of the axis of the base-wall of the mounting element, two identical spikes (protrusions) are made on each side with the possibility of placing and securing extruded horizontal and / or vertical profiles in grooves (recesses) (10) (7, 8), to ensure a rigid fastening; rectangular grips (hooks) of the T-shaped fastening element (9) are placed and fixed in the respective and opposite to each other longitudinal cuts of the end parts (13) around the perimeter of two adjacent symmetrical opposed facing panels (plates) (11) for their mutual fixation with extruded horizontal and / or vertical profile (7, 8), forming a spike-groove connection; A T-shaped fastener (9) is installed in the cuts of the end parts (13) of the facing plates (panels) (11), at least 4 pieces per one facing panel (11) (two from the bottom + two from the top) to ensure hidden fastening; the spikes (protrusions) in the base-wall of the fastening element (9) are symmetrically parallel to the longitudinal axis of the side of the base-wall on both sides at a certain distance from each other and have a rounded shape at the ends with the possibility of fixing in the corresponding grooves (10) (recesses ) extruded horizontal and / or vertical profiles (7, 8).

The L-shaped hidden sliding element (9) for fastening the facing plates (panels) (11) in a hidden way consists of a base-wall and a rectangular grip (hook) in the form of an angular section shelf located at one end of the base-wall; on the other opposite end, on both opposite sides of the axis of the base-wall of the fastening element (9), two identical spikes (protrusions) are made on each side with the possibility of placement and fixing in the grooves (10) (recesses) of the extruded horizontal and / or vertical profiles (7, 8), to ensure tight fastening; a rectangular grip (hook) of the L-shaped fastening element (9) is placed and fixed in the corresponding longitudinal cut in the end part (13) of the facing plate (panel) (11) for mutual fixation with an extruded horizontal and / or vertical profile (7, 8) forming a thorn-groove connection; The L-shaped fastener (9) is installed in the cuts of the facing plates (panels) (11) to provide hidden fastening.

Horizontal and vertical profiles (7, 8) of the frame of the hinged system are made of aluminum alloys of the grades AIMgO, 7Si 6063 T6, AD31 T5 and AD31 T1 by extrusion of a rectangular cross section, while the profiles (7, 8) are divided into hollow longitudinal rectangular sections: the upper, central and lower; in the upper section (on the upper surface of the profile (7, 8)), a rectangular fixing groove (10) is made in the center along the longitudinal axis of the profile (7, 8) with two opposite recesses (recesses) along the inner walls of the groove (10) for installation and fastening the sliding hidden fastening elements (9) of the facing panels (plates) (11) with a thorn-groove connection with the possibility of subsequent movement of the hidden sliding fastening elements (9) along the groove (10); a rectangular groove (10) has two internal recesses (recesses) on opposite adjacent walls for installation and rigid fastening of the sliding hidden fastening elements (9) of the facing panels (plates) (11) with a groove-tongue connection; for installing and securing the hidden sliding fasteners (9) in the groove (10) along the longitudinal axis of the groove (10) with a certain step, by means of milling, oblong holes are made for installing the fastening elements (9) of the lining (11) and subsequent movement a fastener in the groove (10); on the external lateral longitudinal walls of the profile (7, 8), straight holes (round) of the same shape at a certain distance from each other are made (drilled) for fixed (fixed) fastening of the profile (7, 8) by bolted connections with mounting brackets (bearing wall brackets ) (1, 2, 3) with the possibility of adjustment relative to the installed surface and the axes of the bracket. Horizontal and vertical profiles (7, 8) are fastened together by a groove-joint connection and welding or in another way, for example by gluing, soldering, etc., forming a rigid spatial structure in the form of cards (grids).

Tubular connectors (14) provide mutual fastening of horizontal and vertical profiles (7, 8) at the joints of adjacent cards (grids) of the frame of the mounted system.

The bearing wall bracket (2, 3) is made adjustable in three directions (in relation to the reach relative to the wall structure, as well as horizontally and vertically when attached to the profile) and consists of:

- three parts: horizontal and vertical stationary (4) and adjustable (5), fixed perpendicular to the wall structure, U-shaped plates (parts) with curved petals and holes for rivets or bolts on the stationary part (4) for connecting the stationary part (4 ) with an adjustable (5) part of the bracket, with the possibility of sliding movement of the plates relative to each other along the axis of the perpendicular wall structure with subsequent fixation in the required position using a rivet or bolt connection; as well as a slide (6) installed in connection with the end of the adjustable part (5) of the bracket with the possibility of moving along the regulating part (5) of the bracket in horizontal or vertical directions for connection with a vertical or horizontal profile (7, 8).

The load-bearing wall brackets (2, 3) are fixed to the wall through polyamide gaskets using anchors made of stainless steel A4 (AISI 316 or 03X17H14M2) or A2 (AISI 304 or 08X18H10). The system can be used, for example, galvanized steel or stainless steel supporting wall brackets (2, 3). Bearing wall brackets are used, as a rule, on walls with promising thermal insulation, have one- or two-anchor fastenings to the wall structure.

The stationary (4) and regulating (5) parts of the bracket provide a different range of adjustments of the facade subsystem (from 120 to 300 mm) relative to the installed surface of the wall structure. Stationary (4) and regulating (5) parts of the bearing wall brackets (2, 3) with mounted slides (6) are fixed with a riveted or bolted joint after adjustment for reach relative to the wall.

The slide (6) is made in the form of a rectangular plate with two hooks-bends on opposite longitudinal faces of the profiles (7, 8) with the possibility of sliding movement in a plane perpendicular to the side walls of the bracket (2, 3), relative to the wall structure in vertical or horizontal directions. On the edge of the slide (6) with a clearance under the cap of the clamping bolt, a U-shaped fastening element is fixed by welding with one wall pivotally hinged (loop connection) with holes in each oblong-shaped wall for bolt or rivet connection with holes in the profiles (7, 8 ) the frame of the wall cladding system. Between the aluminum profile (7, 8) and the steel fastener of the slide (6) of the U-shaped section, a dielectric gasket made of polyamide is installed. Through the longitudinal axis of the slide (6), perpendicular to the hook-bends, a through slot for a bolt connection is made with the possibility of longitudinal sliding movement relative to the adjustable (5) part of the bracket (2, 3) in a plane parallel to the wall structure and subsequent fixation in the required position by a bolt using a square plates with teeth located on the front plane of the slide (6), while tightening the bolt, the teeth of the slide (6) and square washer are connected to each other, providing a fixed mount. The fastening elements of the slide (6) to the adjustable part (5) of the bracket (2, 3) are made, for example, in the form of teeth. The slide (6) is made in the form of sliding brackets secured by bolting to the end of the regulating part (5) of the supporting wall bracket (2, 3) and when the axes of the supporting wall bracket (2, 3) and the profile (horizontal and vertical) do not coincide (7, 8) the frame of the hinged system with adjustment in horizontal and vertical directions.

Mounting brackets (2, 3) can be made, for example, galvanized steel, stainless steel or aluminum alloys. Mounting brackets (2, 3) are mounted on a wall structure without thermal insulation with a minimum clearance from the wall. Each bracket (3) is attached to the wall by means of two stud anchors and has a range of adjustments of the facade subsystem relative to the installed wall surface of the wall structure from 15 to 120 mm (by stud thread).

The frame of the hinged cladding system consists of horizontal and vertical aluminum profiles (7, 8) with a cell, for example, 300 × 300 mm, fastened together by a groove-joint connection and welding, or in another way, such as gluing, soldering, etc. , forming a rigid spatial structure in the form of maps (grids).

Auxiliary elements in the form of various profiles, corner plates, slope slats, castings, etc., are made, for example, from galvanized sheet steel with zinc coating, after manufacturing all the elements from galvanized steel are coated with a two-way weather-resistant powder paint coating with a thickness of 60-120 microns . Designed for the design of junctions on the facade.

The hinged cladding system is used with an air gap between the cladding and a non-combustible heat-insulating layer (hereinafter - the insulation) or without the use of insulation - only for wall cladding. To protect buildings from all kinds of adverse weather conditions and create comfortable indoor conditions (reduction from heat loss in winter and overheating in summer), it is necessary to provide ventilation of the structure by creating an air gap. This requirement is usually fulfilled if the outer cladding (11) is installed at least 20 mm from the thermal insulation or load-bearing wall (if insulation is not expected). Reducing the air gap in places of not more than 5 mm is acceptable. In this way, an air gap is created to allow moisture to escape within the structure.

Cladding panels (boards) (11) used in the hinged cladding system at the ends (13) must have cuts for the installation of hidden sliding G- and T-shaped fasteners (9), while the cladding (11) is used from various finishing materials with hidden mount:

- slabs made of natural stone (granite, travertine, quartzite, onyx, marble, ...) with various facing surfaces (sanded, polished, tarnished, ...) with different thicknesses (8-40 mm) and different sizes of plates from 100 × 100 mm to 600 × 1200 mm or more. Typical plate sizes are 150 × 300 mm, 300 × 300 mm, 300 × 600 mm, 600 × 600 mm, with a thickness of 12 to 30 mm;

- ceramic plates are full-bodied and with voids of various manufacturers;

- cassettes of aluminum composite materials from various manufacturers;

- cassettes of galvanized metal sheets with paintwork.

Installation of facing panels (11) is carried out from bottom to top. L-shaped fasteners (9) are installed on the lower horizontal profile (7, 8) of the card (grid). The front cladding panel (11) is put on the lower fasteners and with the help of the upper sliding T-shaped fasteners (9) the panel is fixed (installed in a “spacer”). To exclude the shift of the facing panel (11) to the left and to the right of it, a G- or T-shaped fastener (9) can also be mounted.

From the plane of the facade, the surface tolerances of the facing plates (cassettes, panels) are + -0.5 mm. The difference in the thickness of the facing plates (cassettes, panels) up to 3 mm is permissible and is compensated on the back side of the cladding in adjacencies to the system through a sealant that provides tight contact between the cladding and the frame of the hinged system.

The substructure of the cladding system provides a range of adjustments from 15 to 300 mm relative to the installed surface of the wall structure.

The maximum possible thickness of the insulation is 250 mm.

The recommended step for mounting the load-bearing wall brackets is:

- across the width of 600 mm;

- height 900 mm.

It is recommended to produce cards (grids) of the frame of the hinged system in the factory with a length equal to the height of the floor (taking into account the gap for thermal expansion-contraction), taking into account the location of window and door openings, and the configuration of the facades. The maximum geometric dimensions of cards (grids) are limited by the condition of ease of transportation and are usually 2970 × 1470 mm.

As a windproof material (if necessary), a vapor-permeable membrane, for example “TYVEK”, is used.

Heat-insulating plates (in the presence of this solution in the project documentation) are installed on a building base (wall) in one or two layers and are attached with plate dowels. Thermal insulation boards are installed close to each other without gaps in a checkerboard pattern so that solid joints do not form between them. The insulation is fastened to the supporting wall with plate-shaped dowels.

Hydro-windproof vapor-permeable membrane (if this solution is available in the project documentation), secured by dish-shaped dowels, is designed to protect the heater from weathering and moisture.

Facade cladding elements are fixed using sliding T- and G-shaped fasteners (9) installed along the perimeter of the cladding element (11), but not less than 4 pieces (two from the bottom + two from the top).

To ensure tight contact between the facing element (11) and the frame of the cladding system, rubber-polymer or silicone sealants from manufacturers such as Sika, Soudal, Krass, Zigger, Titan, Antia and others can be used. The sealant is applied around the perimeter of the facing element with gaps in 100-150 mm .

In the event that the design solution embedded in the architecture requires the use of large sizes of facing elements, then the positioned elements are additionally fixed with hidden fasteners (9), installed not only around the perimeter of the element (11), but also on the inner surface.

The recommended minimum clearance between two profiles of adjacent cards is 8-10 mm.

The analysis of the prior art made it possible to establish: analogues with a set of essential features that are identical to the essential features of the claimed technical solution are absent, which indicates the conformity of the claimed technical solution to the condition of patentability “novelty”.

The search results for known solutions in order to identify significant features that coincide with the essential features of the claimed profile that are distinctive from analogues showed that they do not follow explicitly from the prior art, and the influence of the distinctive essential features on the technical result indicated by the author is not established. Therefore, the claimed invention meets the condition of patentability "inventive step".

Although the present invention has been shown and described with reference to certain preferred embodiments thereof, those skilled in the art will understand that various changes in form and content can be made therein without departing from the spirit and scope of the present invention, which are defined the attached claims taking into account the description and drawings.

Claims (21)

1. A hinged system for facing buildings and premises, including for creating partitions, including: - mounting brackets fixed to the wall structure by means of hairpin anchors, with the possibility of adjusting the frame of the hinged system relative to the wall structure; - load-bearing wall brackets having one- or two-anchor fasteners and consisting of three parts: stationary and regulating parts of the bracket, providing a different range of adjustments of the hinge frame relative to the installed surface of the wall structure, as well as slides moving (sliding) along the regulating parts of the load-bearing wall brackets in horizontal or vertical directions for connection with vertical or horizontal profiles of the frame of the mounted system; - the frame of the hinged system, consisting of horizontal and vertical profiles, fastened together by a groove-tongue joint and welding or in another way, for example by gluing, soldering, forming a rigid spatial structure in the form of cards (grids); - fixing T- and L-shaped elements, fixed in the grooves of the horizontal and vertical profiles of the frame of the hinged system with the ability to move along the profiles and providing hidden fastening with facing panels (plates); - facing panels (slabs) with hidden fastening at the ends (around the perimeter) of the panels (slabs), fixed in grooves of horizontal and vertical profiles of the frame of the hinged system using hidden sliding T- and L-shaped fastening elements, at least 4 pieces per one facing panel, when they are located, two from the bottom and two from the top; - tubular connectors, providing mutual fastening between themselves horizontal and vertical profiles at the joints of adjacent cards (grids) of the frame of the mounted system; - auxiliary elements for the design of junctions on the facade are made in the form of various profiles, angular and connecting plates, slope slopes, ebbs. 2. The system according to claim 1, in which the horizontal and vertical profiles of the frame of the hinged system are made of aluminum alloys by extrusion, maps (networks) of various sizes are collected from aluminum profiles in the factory, but their height, as a rule, is equal to the floor height of the building to be lined; on the external lateral longitudinal walls of the profiles along the straight line, mounting holes of round shape of the same diameter are made (drilled) at a certain distance from each other for a fixed (fixed) fixing of the profile with mounting brackets (bearing wall brackets) with the possibility of adjustment relative to the installed surface and the axis of the bracket. 3. The system according to claim 1, in which the slide is made in the form of sliding brackets, fixed by bolting to the end of the regulatory part of the supporting wall bracket and when the axes of the supporting wall bracket and the profile (horizontal and vertical) of the hinged system frame are adjustable in horizontal and vertical directions. 4. The system of claim 1, wherein the load-bearing wall brackets are mounted on the wall structure through heat-insulating linings. 5. The system according to claim 1, in which the tubular connectors on the one hand have a rigid mount, and on the other hand a sliding mount, while using the tubular connections provides thermal expansion-contraction of the system. 6. The system according to claim 1, in which the cladding panels (slabs) are made of natural stone with various front surfaces, such as polished, polished, tarnished, etc., with different thicknesses and different sizes of panels (slabs). 7. The system according to claim 1, in which the cladding panels are made, for example, of solid ceramic or with hollow slabs. 8. The system of claim 1, wherein the cladding panels are made, for example, in the form of cassettes of aluminum composite materials or galvanized metal sheets with a paint coating. 9. The system according to claim 2, in which the aluminum horizontal and vertical profiles of the frame of the hinged system have grooves for securing the sliding hidden T and L-shaped fastening elements for facing panels (plates) with a spike-groove connection; oblong holes are made along the axis of the rectangular fixing groove with a certain step by means of milling for installation of cladding fastening elements into the groove and subsequent movement of the fastening element along the groove; the rectangular groove has two internal recesses (recesses) on opposite adjacent walls for installation and rigid fastening of the sliding hidden fastening elements of the facing panels (plates) with a groove-tongue connection. 10. The system according to claim 4, in which steel galvanized steel, stainless steel or aluminum alloys are used bearing wall brackets that can be adjusted relative to the wall structure due to the regulating part of the bearing wall bracket relative to its stationary part, and the slide (for walls with thermal insulation) , and / or using mounting brackets that can be adjusted relative to the wall structure by threading anchor rods (for walls without thermal insulation). 11. The system according to p. 10, in which the stationary and regulatory parts of the bearing wall brackets with mounted rails after adjusting for reach relative to the wall are fixed with a rivet or bolt connection. 12. The system of claims. 1-11, in which, additionally, to ensure tight contact between the facing panel and the frame of the hinged system, rubber-polymer or silicone sealant can be used. 13. The system of claims. 1-11, in which, in addition to the wall structure, heat-insulating plates in one or two layers can be installed using plate-shaped dowels. 14. The system according to p. 13, in which a hydro-vapor-proof vapor-permeable membrane can be additionally mounted on the heat-insulating plates with plate-shaped dowels.

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