RU69533U1 - HINGED FACADE SYSTEM AND FACING MODULE (OPTIONS) - Google Patents

Abstract

The utility model relates to construction and can be used in systems of mounted ventilated facades that are attached to walls or other load-bearing elements of buildings. The hinged facade system of the building contains a supporting frame attached to the walls of the building installed on the foundation, a decorative screen connected to the supporting frame, and a heat-insulating layer. The supporting frame of the facade system is installed on an additional foundation. The facing module includes a thin-sheet metal shell in the form of a box formed from a rectangular metal sheet bent from four sides. Two adjacent walls of the box are made with bends inward, and the other two walls are made with bends outward of the box, moreover, the walls of the box in the corner zones are connected end-to-end, and stiffeners are fixed inside the box and a filler is placed, which is used as concrete. In one embodiment of the lining module, mortgage elements are installed inside the box. In another embodiment, the facing module in the bottom of the box has pockets directed inside the box and having the form of cylinders, in the cavities of which there are module fastening elements passed through openings made in the cylinder bottoms and in the filler, the thickness of the “a” layer of filler in the box exceeds the length “in” of the cylinders, and the recesses in the bottom of the box on the front side of the box are sealed with airtight covers.

Description

The utility model relates to construction and can be used in systems of mounted ventilated facades that are attached to walls or other load-bearing elements of buildings.

High-rise housing construction imposes increased requirements for strength characteristics for mounted facade systems.

It is known that a facade hinged fence of a building contains a facade cladding and a heat insulating layer, while the facade fence is made of blocks, each of which contains a frame with fastening elements and an inner lining, which together with the facade cladding using a sealing material, seal the cavity connected to the atmosphere through the channel and equipped with at least one heat shield and at least two heat insulating layers, the blocks being mounted on the building with supports, one end rigidly connected to the frame of the building, and the other - with the unit. The building frame is formed by ceilings and facade support pillars rigidly connected to the window sills, and the supports at one end are rigidly connected to the ceilings and / or posts and / or window sills, and the other end protruding from the outer surface of the frame with the block (RF patent No. 2266379, IPC E04F 13/08, publ. 2005).

Known facade hinged building fence containing a facade cladding, forming a cell frame of metal battens, attached to the wall of the building using anchors or dowels, and heat-insulating material placed in the cells of the frame, and

the facade cladding is made of tiles and fixed to the frame with screws or clamps (“Best Facades”, periodical catalog of the facade market of Russia, January 2004, p. 72-73, “Reynaers systems rus”).

The construction of a multi-storey building is known, containing the outer and inner walls separated by an air gap and interconnected, while the outer wall within each floor is mounted on a reinforced concrete frame that is rigidly attached to the supporting structures of the building after fixing its predetermined butt gap with the underlying outer wall (RF patent No. 2122082, IPC Е04В 2/28, publ. 1998).

Known is the supporting frame of the hinged facade of the building, containing a group of modules, each of which has at least one supporting bracket and one support bracket for attaching the module to a wall or other supporting element of the building, and a vertical guide attached to them for attaching the facing panels of the screen (patent for PM RF №26061, IPC ЕВВ 2/00, publ. 2002; RF patent for ПМ №62944, IPC Е04В 2/00, E04F 19/06, publ. 2007).

A hinged ventilated facade is known, comprising a frame on which external decorative plates and insulation plates are connected with a gap, as well as brackets for attaching plates to a bearing wall, while insulation plates are fixed with tapes of polymer material, and the ends of the tapes are rigidly connected to the brackets (patent at the PM of the Russian Federation No. 32513, IPC Е04В 2/00, publ. 2003).

A disadvantage of the known structures is that the fastening of the decorative screen (decorative plates) to the wall of the building is carried out through the substructure using anchors fixed to the wall. With this method of fastening, the anchor bolts under the weight of the substructure and decorative screen work exclusively for “pulling out”.

Known carrier assembly for mounting facing panels of ventilated facades of buildings, containing a bracket in the form

shelves and bases and an insert telescopically connected to the inner surface of the bracket, with at least two mutually opposite surfaces of the bracket shelf and the surfaces of the insert corresponding to them, stiffeners are made parallel to the longitudinal axes of these surfaces (RF patent No. 2268972, IPC E04F 13/12, publ. 2006).

The known technical solution does not meet the requirements for the strength characteristics of load-bearing nodes for fastening facade cladding panels on high-rise buildings.

There are various designs of panels that are used for cladding ventilated facades of both new buildings and old ones, improving the appearance of the latter, as well as for cladding internal walls.

Known metal panel for cladding of the building envelope, including a thin-sheet metal shell in the form of a box formed from bent from four sides of a rectangular metal sheet, and having engagement elements with parts for attaching the panel to the enclosing structure (European patent No. EP0304338, IPC E04F 13/08, publ . 1989).

Known metal panel for ventilated facades, which is an open box on the back side, the front side of which is formed by a metal square or rectangular in plan plate, and the side, upper and lower sides are made in the form of solid sides, bent at the base perpendicular to the plane of the metal plate and having the entire length on the edges facing the facade, L-shaped bends directed in opposite directions for fastening (French patent No. 2007237, IPC E04F 13/12, publ. 1970).

Famous panels for the manufacture of a decorative screen for building facades require a large consumption of metal (sheet thickness 1.5 mm), except

Moreover, they are powerful "bridges of cold", leading to heat loss of the building.

At the same time, the use of materials such as granite, porcelain for the construction of a decorative screen of building facades increases the cost of construction work, and the fastening of panels made of such materials is much more complicated.

The technical objective of the proposed solution is to increase the strength characteristics of the curtain wall system of the building, providing the possibility of increasing the height of buildings with curtain wall systems, as well as increasing the service life of curtain wall systems.

Another technical task of the proposed solution is the creation of a facing module that is technologically advanced in production and efficient in use for the manufacture of a decorative screen for building facades.

The essence of the proposed technical solution is as follows.

The hinged facade system of the building contains a supporting frame attached to the walls of the building installed on the foundation, a decorative screen connected to the supporting frame, and a heat-insulating layer. The supporting frame of the facade system is installed on an additional foundation.

Between the supporting frame and the additional foundation are placed metal supporting gaskets.

An additional foundation can be combined with the main foundation of the building.

The supporting frame is attached to the walls of the building by means of anchors.

The supporting frame is made in the form of a metal spatial frame structure formed of vertically arranged racks connected by transverse and longitudinal beams.

The supporting frame is coated with an anti-corrosion coating.

The decorative screen is made of facing modules.

The facing module includes a thin-sheet metal shell in the form of a box formed from a rectangular metal sheet bent from four sides. Two adjacent walls of the box are made with bends inward, and the other two walls are made with bends outward of the box, moreover, the walls of the box in the corner zones are connected end-to-end, and stiffeners are fixed inside the box and a filler is placed, which is used as concrete.

In one embodiment of the module, embedded elements are installed inside the box.

In another embodiment of the module, pockets directed to the inside of the box and made in the form of cylinders are made in the bottom of the box, in the cavities of which there are fastening elements of the modules, passed through openings made in the cylinder bottoms and in the filler, the thickness “a” of the filler layer in the box exceeds the length "in" of the cylinders, and the recesses in the bottom of the box on the front side of the box are sealed with airtight covers.

In both versions, the module box is made of a 0.55 mm thick metal sheet, a metal mesh is placed in the module box above the filler, stiffeners are pre-tensioned.

On the outside, the facing module is coated with a layer of PVDF paint, and on the inside with a waterproofing layer.

The lining module includes a thin-sheet metal shell in the form of a box formed from a rectangular metal sheet bent from four sides, with two adjacent walls of the box made with bends inward and two other walls made with bends outward of the box, the walls of the box in the corner zones are connected end-to-end, inside stiffeners are fixed to the box, and placed in the box

filler coated with a metal mesh, with concrete being used as filler.

The ribs are pre-tensioned.

The thickness of the bottom and walls of the box is 0.55 mm.

The stiffeners in the duct are pre-tensioned.

Embedded elements are placed in the filler.

In the bottom of the box, recesses are made, directed into the inside of the box, and having the shape of cylinders, while the thickness of the filler layer in the box exceeds the length of the cylinders, and module fastening elements are placed in the cylinder cavities.

The recesses in the bottom of the box on the front side of the box are sealed with airtight covers.

On the outside it is covered with a layer of PVDF paint, and on the inside it is covered with a waterproofing layer.

The proposed design is illustrated by drawings, which depict: in Fig.1 - a fragment of the hinged facade system of the building; figure 2 - embodiment of the facing module; figure 3 is a section AA in figure 2; figure 4 is an embodiment of the facing module, figure 5 is a cross section of the BB in figure 4.

The hinged facade system of the building includes a supporting frame 1, fastened to the wall 2 of the building by means of anchors 3 and mounted on the foundation 4. The supporting frame is made in the form of a metal spatial frame structure formed of vertically arranged racks connected by transverse beams.

The foundation 4 of the curtain wall system can be combined with the main foundation on which the wall of the building rests (not shown). To reduce the pressure on the additional foundation 4, metal gaskets 5 are placed between it and the frame 1.

A decorative screen 6, consisting of facing modules 7, is fastened to the supporting frame.

Each facing module 7 contains a thin-sheet metal shell in the form of a box 8 formed from 0.55 mm thick rectangular metal sheet bent on four sides. Two adjacent walls 9, 10 of the box are made with bends in the inside of the box, and two other walls 11, 12 are made with bends out of the box.

In the corner zones of the box wall are butt-welded (welded).

Inside the box, longitudinally and transverse stiffeners 13 are fixed, which are welded to the bottom of the box.

To obtain higher mechanical strength, stiffeners 13 are pre-tensioned.

In the box 8 placed filler 14, covered with a metal mesh 15.

Concrete, for example, based on cement grade 400, can be used as a filler.

To ensure reliable mechanical fastening of the facing module to the supporting structure in the filler 14 placed embedded elements 16 (figure 2, 3).

In another embodiment (FIGS. 4, 5), pockets 17 are made in the bottom of the box, directed into the inside of the box, and have the shape of cylinders, while the thickness of the layer “a” of the filler in the box exceeds the length “b” of the cylinders. In the cavities of the cylinders are mounted fasteners 18 of the facing module to the supporting structure, passed through openings made in the cylinder bottoms and in the filler layer.

The pockets in the bottom of the box on the front of the module are closed by sealed covers 19.

On the outside, the facing modules 7 are covered with a layer 20 of PVDF paint, and on the inside with a layer of waterproofing 21.

The proposed design of the hinged facade system has improved strength characteristics, since the vertical component of the load from the hinged facade system is perceived as a separate additional foundation.

Cladding modules have increased rigidity and moisture resistance, which is ensured by the use of traditional building materials - steel and concrete, having the same coefficient of linear expansion for their creation.

Facing modules have “anti-vandal” properties, and the technology for their production allows you to use any required module sizes.

At the same time, it is possible to make the decorative screen more massive, which in turn allows to reduce the heat loss of the building.

The proposed design options for cladding modules can be used for cladding ventilated facades of both new buildings and old ones, improving the appearance of the latter.

Claims (17)

1. The hinged facade system of the building, containing the supporting frame attached to the walls of the building mounted on the foundation, a decorative screen connected to the supporting frame, and a heat-insulating layer, characterized in that the supporting frame is installed on an additional foundation. 2. The hinged facade system according to claim 1, characterized in that between the supporting frame and the additional foundation placed metal supporting gaskets. 3. The hinged facade system according to claim 1, characterized in that the additional foundation is combined with the main foundation of the building. 4. The hinged facade system according to claim 1, characterized in that the supporting frame is attached to the walls of the building by means of anchors. 5. The hinged facade system according to claim 1, characterized in that the supporting frame is made in the form of a metal spatial frame structure formed of vertically arranged racks interconnected by transverse and longitudinal beams. 6. The hinged facade system according to claim 1, characterized in that the supporting frame is coated with a corrosion-resistant coating. 7. The hinged facade system according to claim 1, characterized in that the decorative screen is made of facing modules. 8. Facing module, including a thin-sheet metal shell in the form of a box formed from bent from four sides of a rectangular metal sheet, characterized in that two adjacent walls of the box are made with bends inward, and two other walls are made with bends outward of the box, and the walls of the box in the corner zones they are joined end-to-end, stiffeners are fixed inside the box, and embedded elements are installed in the box and a filler is placed, which is used as concrete. 9. Facing module according to claim 8, characterized in that a metal mesh is placed above the filler. 10. Facing module according to claim 8, characterized in that the stiffeners are pre-tensioned. 11. The facing module of claim 8, characterized in that on the outside it is covered with a layer of PVDF paint, and on the inside with a layer of waterproofing. 12. Facing module according to any one of paragraphs.8-11, characterized in that the box is made of a metal sheet with a thickness of 0.55 mm. 13. Facing module, including a thin-sheet metal shell in the form of a box formed from bent from four sides of a rectangular metal sheet, characterized in that two adjacent walls of the box are made with bends inward, and two other walls are made with bends outward of the box, and the walls of the box in the corner zones they are joined end-to-end, stiffeners are fixed inside the box and a filler is placed, which is used as concrete, while pockets directed to the inside of the box are made in the bottom of the box, and Commercially form cylinders, which are placed in the cavities of modules fastening elements passed through the holes formed in the bottoms of the cylinder and in the filler, the thickness "a" of the filler layer in the box than the length "c" of the cylinder. 14. Facing module according to item 13, wherein the recesses in the bottom of the box on the front side of the box are closed with sealed covers. 15. Facing module according to item 13, characterized in that a metal mesh is placed above the filler. 16. The facing module according to claim 13, characterized in that on the outside it is covered with a layer of PVDF paint, and on the inside with a layer of waterproofing. 17. Facing module according to any one of paragraphs.13-16, characterized in that the box is made of a metal sheet with a thickness of 0.55 mm.