RU165809U1 - HINGED FACADE OF THE BUILDING - Google Patents

Abstract

A utility model relates to the construction, installation of coatings or wall cladding.

The hinged facade of the building contains facing panels and bearing brackets made of two L-shaped parts, fastened together by a bolt connection with the possibility of adjusting the height of the bearing bracket. Bearing brackets are mounted on the wall of the building by means of anchors at a distance from each other equal to the horizontal width of the cladding panel, and vertically to the height of the cladding panel. Each facing panel at the corners is mounted directly on the shelf of the movable part of the supporting bracket by means of self-tapping bolts. The facade is mainly made ventilated and equipped with a layer of insulation, and facing panels contain a base and a coating of tiles.

Description

The utility model relates to the field of construction, and more specifically to the device of coatings or wall cladding and fasteners for them, and can be used in the construction of mainly ventilated hinged facades of buildings under construction and reconstructed.

The prior art device for attaching cladding panels to a hinged ventilated facade, including upper and lower grips, while the upper grip is arranged to accommodate part of it in the longitudinal cut on the upper end of the cladding panel, and the lower grip is arranged to accommodate its part in longitudinal cut on the lower part of the cladding panel, while the grips are rigidly interconnected by a strip, which is provided with a bracket for fastening to the guide th ventilated facades, and from the lower grip is provided with a sliding hook. See, US Pat. RU for utility model No. 8610, class. E04F 13/00, published August 27, 2009. The device is characterized by increased reliability and quality of fastening of cladding panels when installing ventilated facades. In the known device used vertical guides, which increase the thermal conductivity and material consumption of the structure.

A hinged ventilated facade is known, including facade cladding plates, thermo-waterproofing protection, load-bearing fencing elements made in the form of row-mounted anchor rods connected by rods with tension elements fixed to the wall of the building, at the free ends of which are installed with the possibility of adjustable longitudinal movement due to connecting threaded couplings retaining bolts with a rectangular T-head with retaining lining, locking elements in the form of plates fixed on anchor rod threaded coupling, see description to US Pat. RU on the invention No. 2520196, class. E04B 1/00, published June 20, 2014. In the known invention, a ventilated facade design is implemented, which simplifies the installation and dismantling of the cladding and makes it possible to quickly replace any of the plates during the operation of the facade. The disadvantage of the ventilated facade is the instability of row-mounted anchor rods, which is compensated by connecting rods and tension elements, complicating the design, increasing mass and thermal conductivity.

Known is the supporting frame of the hinged ventilated facade of the building, containing bearing brackets made of two L-shaped parts fastened with connecting elements in the form of rivets, or bolts with nuts, or self-tapping bolts, the first parts of each bearing bracket mounted with its first shelf on the wall buildings by means of anchors, and on the second parts of the bearing brackets with the help of connecting elements, load-bearing guides in the form of extended U-shaped profiles with bent n Rouge sides to form flanges for mounting cladding panels. See, US Pat. RU 79910 for utility model, cl. E04F 13/00, published 01/20/2009. The specified well-known frame of the curtain wall of the building, adopted as a prototype as the closest in purpose, technical nature and the achieved analogue. According to the description, the prototype is characterized by a reduced cost of the supporting frame of the hinged ventilated facade of the building, as well as a simplification of the installation process.

The disadvantage of the prototype is the presence in the design of the frame of the bearing vertical guides, which, having a significant length and metal consumption, significantly complicate the design. In addition, the metal profile from which the vertical guides are made is characterized by high thermal conductivity and heat capacity, which affects the thermal insulation properties of the hinged ventilated facade of the building. The specified disadvantage of the prototype significantly affects the economic characteristics of the frame and limit the possibility of its use.

The utility model is aimed at achieving a technical result, which is expressed in reducing the metal consumption and thermal conductivity of the curtain wall of the building by simplifying its design. Ultimately, the specified technical result allows to increase the economic characteristics of the hinged facade of the building and thereby significantly expand its scope.

Moreover, in the utility model, all the positive properties of the prototype are maximally preserved, which include the rationality of the design of the composite supporting bracket.

The specified technical result is achieved by the fact that the hinged facade of the building, including cladding panels and supporting brackets, made of two L-shaped parts, fastened together by connecting elements, and one of the parts of each supporting bracket is made of one of its shelves on the wall of the building by means of connecting elements, and its second shelf is fastened by connecting elements to one of the shelves of the second part of the supporting bracket, differs from the prototype in that the supporting brackets anovleny on building wall at a distance from one another equal to the horizontal width of the wall panel and vertically - height wall panel. At the same time, in the hinged facade of the building, each facing panel is angularly mounted on the second shelf of the second part of the supporting bracket by means of connecting elements, and the shelves of the parts of each supporting bracket are fastened together with the possibility of adjusting the height of the supporting bracket.

The optimal, from the point of view of achieving the specified technical result, is the implementation in one of the shelves of one of the parts of each supporting bracket of through horizontal slots for connecting elements to provide the possibility of adjusting the height of the supporting bracket. Moreover, each facing panel can be made up of a base and an outer coating.

It is advisable that in the curtain wall the connecting elements for:

- fastening parts of the bearing bracket were made in the form of bolts with nuts;

- the installation of the supporting bracket on the wall of the building was made in the form of anchors;

- connecting elements for installing the facing panels were made in the form of self-tapping bolts.

In all cases of implementation of the hinged facade of the building, it is possible to equip it with a heater layer mounted on the wall of the building by means of anchor dowels with the formation of an air gap relative to the facing panels.

The utility model is based on a technical solution consisting in the independent position of the bearing brackets. As a connecting element in the construction of the curtain wall of the building, cladding panels are used that connect all the supporting brackets into a single frame. Due to this, numerous guides and connecting elements for their fastening were eliminated from the construction of the curtain wall of the building, which significantly reduced the metal consumption and heat conductivity of the curtain wall of the building.

The rational arrangement of the supporting brackets on the wall of the building allows four facing panels to be rigidly connected on each bracket and, on the other hand, connecting four supporting brackets with each facing panel. Such a layout scheme is optimal in terms of minimizing the number of brackets per unit area of the facade. In addition, the absence of a metal bond between the supporting brackets significantly reduces the thermal conductivity of the facade as a whole. The two-element design of the supporting brackets with adjustable height and angle of connection of the parts provides the possibility of simplified installation of the brackets on an unprepared wall surface and high accuracy of the installation of facade cladding panels.

The combination of various types of connecting elements for mounting the nodes of the curtain wall facade provides not only the reliability of fastening, but also the simplicity and cost-effectiveness of the facade.

According to the utility model, all structural elements of the facade of the building are made of non-combustible and corrosion-resistant materials. The optimal combination of materials and the shape of the parts allows you to implement a lightweight and resistant to external influences design.

All the hallmarks of the hinged facade of the building, distinctive from the prototype, are aimed at obtaining a technical result, namely, simplifying its design, thereby increasing economic characteristics.

The technical solution, characterized by the described combination of essential features, is new and industrially applicable.

The technical solution is illustrated by drawings.

The figure 1 presents a vertical section of the hinged facade of the building; in FIG. 2 is a section AA in FIG. 1 with a layer of insulation fixed on the wall of the building; in FIG. 3 - a fragment of the hinged facade of the building, view from the side of the building.

The hinged facade consists of cladding panels 1 mounted on the wall 2 of the building by means of supporting brackets 3. Brackets 3 are mounted on the wall 2 of the building at a distance from each other equal to the horizontal width (in figure 3, the width is conventionally marked with the letter L) of the cladding panel 1, and vertically - height (in figure 3, the height is conventionally indicated by the letter H) of the facing panel 1.

Each bracket 3 consists of two interconnected parts, each of which is made L-shaped in shape, i.e. from a section of a corner profile with two different-sized shelves. Galvanized or stainless steel or aluminum alloys AK12M2, AK7CH, AD31, AD31T1, AD31T5, 6060 T5, AMg2, AMg4 can be used as a structural material for the production of parts of the supporting brackets. One of the parts 4 (hereinafter referred to as the first part) of the bracket 3 is made installed by one of its shelves on the wall 2 of the building. The second part 5 (movable) of each bracket 3 of one of its shelves is fastened to the second shelf of the first part 4 of the bracket 3 with the possibility of adjusting the height of the bracket 3. To enable the height of the bracket 3 in the shelf of its second part 5, the same fastened to the second shelf of the first part 4 of the bearing bracket 3, made through horizontal slots 6. The figure 1 shows the design with two through horizontal slots 6.

The cladding panels 1 are mounted on the second shelves of the second parts 5 of the supporting brackets 3 so that each cladding panel 1 is mounted simultaneously on the four supporting brackets 3 — one bracket in each corner of the panel. Cladding panels 1 are made predominantly multilayer, the figures show two-layer panels 1, including a base 7 (fiber-reinforced concrete) with an outer coating in the form of ceramic (clinker) tiles 8. Tiles 8 on the basis of 7 facing panels 1 are laid in horizontal rows with a gap. In addition, each facing panel 1 at the ends has ledges to ensure overlapping gaps between adjacent facing panels 1.

The hinged facade, if necessary, can be equipped with a layer of insulation 9, mounted on the wall 2 of the building. The insulation 9 is a heat-insulating board (lined or plain mineral wool), which are mounted in a continuous layer on the wall 2 by means of anchor dowels 10 so that a guaranteed air gap 11 is formed between the insulation layer 9 and the base 7 of the cladding panels 1.

The connecting elements for mounting the supporting brackets 3 on the wall 2 of the building are made in the form of anchors 12. The connecting elements for fastening the parts 4 and 5 of the supporting bracket 3 are made in the form of bolts 13 with nuts, while the bolts 13 are passed through through horizontal slots 6. Connecting elements for installation facing panels 1 on the second shelves of the second parts 5 of the supporting brackets 3 are made in the form of self-tapping bolts 14. Self-tapping bolts 14 are passed through the corners of the facing panels 1 mainly in the gaps between the tiles 8. All connecting elements can be made of carbon, galvanized or stainless steel, depending on operating conditions.

Installation of the curtain wall of the building is as follows.

On the wall 2 of the building, marking is made for the installation of the supporting brackets 3. The brackets 3 must be horizontally aligned so that the distance between adjacent ones is equal to the width (L) of the facing panel 1. The brackets 3 must be vertically placed one below the other, so so that the distance between adjacent ones is equal to the height (H) of the facing panel 1. The accuracy of observing the installation dimensions is within the building tolerances and is determined by the technical documentation. In accordance with the markings on the wall 2 of the building with the help of anchors 12, the first parts 4 of the supporting brackets 3 are installed so that their second shelves are equally oriented in the vertical plane. The second parts 5 are attached to the first parts 4 of the supporting brackets 3, while bolts 13 with washers and nuts are used as connecting elements. To ensure the vertical location in the same plane of all the facing panels 1, after pre-installation of the second part 5 of the bearing brackets 3, they are aligned and tightened. The alignment of the second shelves of the second parts 5 of the supporting brackets 3 is carried out by adjusting the height of the supporting bracket 3, for which the second part 5 of the supporting brackets 3 are moved to the desired distance, while the bolts 13 slide in through horizontal slots 6 as in the guides. If necessary, the design also provides the ability to adjust the angle of inclination of the second shelves of the second parts 5 of the bearing brackets 3.

To implement a ventilated facade of a building with increased heat and noise insulation, a layer of insulation 9 is mounted on the wall 2 of the building, for which, after the mounting brackets 3 are installed on the wall 2, heat-insulating plates are laid in a continuous layer and strengthened with anchor dowels 10. The thickness of the insulation layer 9 is selected less than the height of the supporting brackets 3, which guarantees the formation of the necessary air gap 11 of the ventilated facade. On top of the insulation layer 9, an additional film or fabric wind-and-water vapor-permeable membrane can be installed (not shown in the figures).

At the final stage of production of the facade, cladding panels 1 are mounted. Panel 1 is applied with base 7 to the shelves of the second parts 5 at the same time four bearing brackets 3. In each panel 1, through holes are pre-punched or in place through the corners. Self-tapping bolts 14, through which the panel 1 is attached to the supporting brackets, are passed through the indicated holes. The installation of the cladding panels 1 is carried out from top to bottom and to the left, with the right alignment of the ledges to ensure that the gaps overlap between adjacent panels 1. Thus, each facing panel 1 is mounted at the corners on the supporting brackets 3, forming a continuous surface of the facade of the building.

The energy efficiency of the hinged facade of the building arranged in this way is not inferior to the prototype, and significantly exceeds it in terms of metal consumption and simplicity of design.

The above example of the implementation of the curtain wall of the building is not exhaustive and is given only for the purpose of explaining the utility model and confirming its industrial applicability. Specialists in this field can improve and / or implement alternative options within the essence of this utility model, as reflected in the description.

Claims (7)

1. The hinged facade of the building, including facing panels and bearing brackets made of two L-shaped parts, fastened together by connecting elements, one of the parts of each bearing bracket is made by installing one of its shelves on the wall of the building by means of connecting elements, and its second shelf is fastened with connecting elements from one of the shelves of the second part of the supporting bracket, characterized in that the supporting brackets are mounted on the wall of the building at a distance from each other equal to horizontally to the width of the cladding panel, and vertically to the height of the cladding panel, each cladding panel is angularly mounted on the second shelf of the second part of the bearing bracket by means of connecting elements, the shelves of the parts of each bearing bracket are fastened together with the possibility of adjusting the height of the bearing bracket. 2. The hinged facade according to claim 1, characterized in that in one of the shelves of one of the parts of each bearing bracket, through horizontal slots are made for the connecting elements to enable adjustment of the height of the bearing bracket. 3. A hinged facade according to claim 2, characterized in that each facing panel consists of a base and an outer covering. 4. The hinged facade according to claim 3, characterized in that the connecting elements for fastening the parts of the bearing bracket are made in the form of bolts with nuts. 5. A hinged facade according to claim 4, characterized in that the connecting elements for installing the supporting bracket on the wall of the building are made in the form of anchors. 6. The hinged facade according to claim 5, characterized in that the connecting elements for installing the facing panels are made in the form of self-tapping bolts. 7. The hinged facade according to any one of paragraphs. 2-6, characterized in that it is equipped with a layer of insulation, mounted on the wall of the building by means of anchor dowels with the formation of an air gap relative to the facing panels.

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