RU2770952C1 - Hinged combined fencing structure - Google Patents

Abstract

FIELD: building protection.SUBSTANCE: invention relates to hinged fencing structures that protect facades of buildings from effects of heat, cold, moisture, wind and other atmospheric phenomena. The hinged combined fencing structure includes “warm” and “cold” modules having metal frames and filling, while frames consisting of vertically oriented profile racks and horizontally oriented profile imposts are fixed on the facade of the building using support brackets, while racks and imposts are made combined and consist of two parts related to frames of two different modules connected to each other by means of seals, while frames of “cold” modules are made of racks and imposts of a smaller cross-section relatively to racks and imposts of frames of “warm” modules.EFFECT: reduction in the total weight of a hinged combined fencing structure, as well as exclusion of condensation or ice formation on racks and imposts of frames of “warm” modules.2 cl, 8 dwg

Description

SUBSTANCE: invention relates to construction, namely to hinged enclosing structures protecting building facades from heat, cold, moisture, wind and other atmospheric phenomena.

As you know, the facade of a building can have both "warm" zones and "cold" zones.

The "warm" zone of the facade of the building is the area of the facade, behind which the heated room is located, or an opening between two ceilings or an opening between a parapet and a ceiling.

The "cold" zone of the facade of the building is the area of the facade, behind which there is an unheated room, parapet, column or wall.

A mounted combined enclosing structure is a structure designed to protect the facade of a building that has both "warm" zones and "cold" zones.

It is known that the filling of modules placed in the "cold" zones of the facade can be made of almost any material allowed for use on the facades of buildings, and the modules located in the "warm" zones of the facade can be filled in the form of double-glazed windows, translucent or insulated panels, including those consisting of several sheet materials and other elements, then "cold" and "warm" modules can have different thicknesses and weights.

To ensure the joint installation on the facade of the building of both "cold" and "warm" modules, combined (warm-cold) hinged enclosing structures are usually used.

For example, a hinged heat-cold building envelope is known according to the RF patent for utility model No. 191078, publ. 07/23/2019, IPC E04F 13/08, selected as a prototype, made of separate blocks (modules) located in the "warm" and "cold" zones of the facade of the building, each module contains a metal frame frame made of vertically oriented profile racks and horizontally oriented profile mullions, where the modules are joined to each other with the help of seals, the modules themselves are mounted on the building with the help of supports, one part is rigidly connected with the building, and the other with the corresponding module, the module frame can be filled completely or partially with double-glazed windows or sheet panels, changes have been made, namely:

- racks and mullions of the frame (frame) of the module located in the "warm" zone of the facade of the building are combined and consist of two parts (outer and inner) connected by thermal breaks (thermal bridges);

- moreover, their bearing part is located on the outside of the building and is connected to the module located in the "cold" zone by means of an elastic seal.

In the well-known design, due to the manufacture of "cold" and "warm" modules in the factory, it is possible to reduce the complexity and timing of the installation of a facade hinged fence, as well as the costs during its operation, in addition, the reliability of the structure is increased when exposed to wind loads, and it also provides protection against blowing and leaks, while improving the thermal performance of the entire warm-cold building envelope.

However, this design has the disadvantage that there are design and architectural restrictions associated with the forced placement of the load-bearing elements of the frame modules outside the facade of the building, which leads to a violation of the integrity of the perception of the facade, visually divided by the racks and imposts of the modules of the hinged warm-cold enclosing structure protruding on its surface. .

In addition, the removal of the load-bearing elements of the frame modules outside the facade of the building leads to a negative temperature effect of the "cold" zones on the "warm" zones, which manifests itself at negative outdoor temperatures in the form of a decrease in the temperature of the racks and imposts of the frames of the "warm" modules. A negative consequence of this is the formation of condensate and / or ice on the racks and / or imposts of the frames of "warm" modules, which is unacceptable. In addition, this design has a high metal content.

With the help of the proposed technical solution, a technical problem is solved, which consists in the presence of design and architectural restrictions in the design of buildings, the facades of which combine "cold" and "warm" zones and on which the corresponding modules of the hinged combined enclosing structure are installed, having different fillings of different thicknesses, necessary and sufficient to insulate the building.

The main technical result of the claimed invention is to reduce the total mass of the hinged building envelope, in which both "cold" and "warm" modules are used together, which is achieved by lightening the frames of "cold" modules.

Additional technical results are the exclusion of the formation of condensate and / or ice on the racks and / or imposts of the frames of the "warm" modules of the hinged enclosing structure, as well as the removal of architectural restrictions that arise during its design, due to which, in particular, it becomes possible to achieve the visual unity of its outer surfaces.

The specified technical result is achieved due to the fact that the hinged combined enclosing structure includes both "warm" and "cold" modules having a metal frame and appropriate filling (made, for example, in the form of a sheet panel, double-glazed window, sash, etc.), at the same time, the frames of the modules, fixed on the facade of the building with the help of support brackets, include vertically oriented profile racks and horizontally oriented profile mullions, moreover, the racks and mullions intended for their installation between "warm" and "cold" modules are combined and consist of two parts interconnected by means of thermal inserts (thermal bridges).

Thus, all the load-bearing elements of the frames of the modules of the suspended combined enclosing structure are placed exclusively on the inside of the building facade.

Thanks to this design solution, the total weight of the hinged combined enclosing structure is reduced, since the wind pressure is perceived mainly by the metal frames of the "warm" modules, the frames of the "cold" modules can be made of racks and mullions of a smaller section relative to the racks and mullions of the frames of "warm" modules.

In addition, due to this design, the negative temperature effect of "cold" modules on "warm" modules is reduced at negative outdoor temperatures, which eliminates the formation of condensate and ice on the racks and imposts of the frames of "warm" modules, and also removes architectural restrictions that arise when designing a hinged enclosing structure.

The claimed design is illustrated by images:

in FIG. 1 shows a fragment of the facade of the building;

in FIG. 2 shows a vertical section of the "warm" zone of the facade;

in FIG. 3 shows a vertical section of the "cold" zone of the facade;

in FIG. 4 shows a horizontal section of the "warm" zone of the facade;

in FIG. 5, 6, 7 and 8 show cross sections of posts and mullions.

A fragment of the facade of the building (Fig. 1) includes "warm" and "cold" zones, closed respectively by "warm" modules (1) and "cold" modules (2) with different filling (sheet panels, double-glazed windows, decorative cladding and etc.).

On FIG. 2 shows a vertical section of the "cold" zone of the facade of the building (section A-A), including floors (3), the wall of the building (4) and thermal insulation (5), on which only "cold" modules (2) with metal frames are fixed, consisting of imposts (6) and racks (7) (racks are shown in Fig. 4).

On FIG. 3 shows a vertical section of the facade of the building (section B-B), in which both "warm" modules (1) and "cold" modules (2) are used together. The modules have metal frames consisting of mullions (6) and racks (7) (racks are shown in Fig. 4), while the "cold" modules are fixed to the thermal insulation (5) using support brackets (8).

On FIG. 4 shows a horizontal section of the facade, in which both "warm" modules (1) and "cold" modules (2) are used together, including a wall (4) and thermal insulation (5), while modules (1) and (2) have metal frames consisting of mullions (6) (mullions are shown in Fig. 2 and 3) and racks (7).

On FIG. 5 and 6 show cross-sections of mullions (6) and posts (7), consisting of two parts (9) and (10), related to the frames of the "warm" module (1) and interconnected using seals (11) and thermal inserts (12) providing thermal insulation of these two modules.

On FIG. 7 and 8 show cross-sections of mullions (6) and racks (7) belonging to the frames of two "cold" modules (2) connected to each other by means of seals (11), but without thermal switches between them.

Modules for a hinged combined enclosing structure are manufactured at the factory. The modules are completed in accordance with the design of the facade of the building, while the modules can differ both in the number of filling sheets, and in the combination of the arrangement of transparent and opaque elements in the sheets, their material, etc. Profile racks and imposts are made by extrusion. After that, the module frame is assembled and the necessary filling is installed in it.

To fill the modules, double-glazed windows are used, as well as various sheet or bulk materials, including slabs of natural stone (granite, marble, limestone), ceramic slabs and cement-based slabs lined with stone chips or painted laminated slabs made of non-combustible or slow-burning polymer materials , or metal sheets (steel and aluminum) with and without coating, depending on the design, architectural and artistic design solution for facing a building under construction or reconstructed.

The modules are mounted on the facade of the building by installing them using support brackets fixed on the ceilings of the building.

The main advantages of the proposed technical solution in comparison with the known designs are the removal of restrictions in the design of the facade cladding of the building, as well as ensuring the integrity of the perception of the building cladding due to the lack of dividing the facade by lines of racks and mullions of modules having different thicknesses and fillings.

Claims (2)

1. Hinged combined enclosing structure, including "warm" and "cold" modules, having metal frames and filling, while the frames, consisting of vertically oriented profile racks and horizontally oriented profile mullions, are fixed on the facade of the building using support brackets, characterized in that that the racks and mullions are made combined and consist of two parts related to the frames of two different modules, interconnected by means of seals, while the frames of the "cold" modules are made of racks and mullions of a smaller section relative to the racks and mullions of the frames of "warm" modules . 2. Hinged combined building envelope according to claim 1, characterized in that between the two parts of the racks and mullions designed to connect "warm" and "cold" modules to each other, thermal inserts are installed.

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