RU187580U1 - BUILDING FACING - Google Patents

Abstract

The utility model relates to construction, namely to the building envelope, and can be used to increase the thermal insulation properties of the building envelope, in particular, such as the front glazing of balconies and loggias. The technical result of the utility model is to increase the thermal insulation properties of the building envelope with a simultaneous increase its manufacturability and reliability. The technical result is achieved as follows. The building envelope, consisting of a frame and a glazing element fixed to it, according to a utility model, a glazing element is a double-glazed window having two glazing sheets, a distance frame installed with a gap to the structural frame along the perimeter and between the glazing sheets through a non-hardening sealant with the formation of a hermetic air cameras in the space between the glazing sheets and the spacer, the area of the glazing sheet located on the side of the room being less than the area of the glazing sheet a position located on the environmental side, while the size of the glazing sheet located on the side of the room ensures its location in the opening of the frame of the structure with a perimeter gap, the glass unit is fixed due to the fact that the glazing sheet located on the side of the environment is fixed to the frame by mechanical means from the environment, as well as by fixing the double-glazed window from the side of the room to the frame of the fence design with a sealant filling the gap volume formed by turning the frame of the structure, glazing sheets and the distance frame. The distance frame can be made of a profile with a cavity that is in communication with a sealed air chamber between the glazing sheets, and the cavity of the profile of the distance frame can be absorbent. Mechanical means that fix the glazing sheet to the frame from the side of the environment, there may be clamping strips fixed to the frame with self-tapping screws and pressing a glazing sheet to it through the seals, located on the o side vironment.

Description

The utility model relates to construction, namely to the building envelope, and can be used to improve the thermal insulation properties of the building envelope, in particular, such as the front glazing of balconies and loggias.

A technical solution is known for the utility model patent of the Russian Federation No. 160818 "Building envelope" (priority of 04/13/2015). According to the patent, in the building envelope, consisting of a frame made of profiles, and filling in the form of transparent or opaque elements mounted on the frame, the surface of the frame profiles on the premises side is completely or partially covered with a multilayer heat-insulating material, the outer layer of which is made seamless. This solution allows to improve the thermal insulation properties of the building envelope due to the insulation of the frame of the building envelope.

Also known is the design of glued glass (GOST 24866-2014 GLUED GLUES. TECHNICAL CONDITIONS, for example, Figure 1; Introduction date 2016-04-01), which consists of: glazing sheets; distance frame with dehydration holes; a desiccant located in the cavity profile of the distance frame; non-hardening sealant (butyl) located between adjacent surfaces of the glazing sheets and the distance frame; a curable sealant filling the volume formed by the surfaces of the glazing sheets and the distance frame around the glass unit perimeter. Non-hardening sealant is an internal (primary) sealing layer; in straight sections, its depth should be at least 4 mm. Curable sealant is an external (secondary) sealing layer, its depth at the end of the glass unit must be at least 3 mm. The total depth of the sealing layers is at least 9 mm.

Polyisobutylene sealants (butyls) are used for the primary sealing layer (except for double-glazed windows for structural glazing). For the secondary sealing layer, polysulfide (thiocol), polyurethane or silicone sealants are used. In structural glazing units, structural silicone sealants are used as the outer sealing layer, providing additional supporting functions.

As a prototype, the well-known construction of the strut-and-bolt facade with mechanical fastening of the filling with clamping strips (GOST 33079-2014 Constructed front translucent hinged structures. Classification. Terms and definitions; Date of introduction 2015-07-01 and GOST R 54858-2011 Translucent frontal constructions. Method determination of reduced resistance to heat transfer; Date of introduction 2012-07-01), used in particular for fencing balconies and loggias of buildings. The construction of the rack-and-crossbar facade includes a frame of racks and crossbars, brackets, anchor fasteners, transparent (opaque) fillings, and other elements made in advance and assembled directly on the facade of the building. Most often, single-layer glazing is used as a filling, and the racks and crossbars of the frame are made of a metal (aluminum) profile. In this design, the filling elements in the form of glazing are mechanically fixed to the frame using clamping strips, and the waterproofing of the structure is provided by gaskets and seals around the perimeter of the filling elements.

The technical result of the utility model is to increase the insulating properties of the building envelope with a simultaneous increase in its manufacturability and reliability.

The technical result is achieved as follows.

The building envelope, consisting of a frame and a glazing element fixed to it, according to a utility model, a glazing element is a double-glazed window having two glazing sheets, a distance frame installed with a gap to the structural frame along the perimeter and between the glazing sheets through a non-hardening sealant with the formation of a hermetic air cameras in the space between the glazing sheets and the spacer, the area of the glazing sheet located on the side of the room being less than the area of the glazing sheet a position located on the environmental side, while the size of the glazing sheet located on the side of the room ensures its location in the opening of the frame of the structure with a perimeter gap, the glass unit is fixed due to the fact that the glazing sheet located on the side of the environment is fixed to the frame by mechanical means from the environment, as well as by fixing the double-glazed window from the side of the room to the frame of the fence design with a sealant filling the gap volume formed by turning NOSTA carcass structure, the glazing sheet and the spacer.

The distance frame may be made of a profile with a cavity that is in communication with the sealed air chamber between the glazing sheets, and the profile cavity of the distance frame may contain absorbent material.

The double-glazed window may have additional glazing sheets and air chambers. A double-glazed window may have more than two sheets of glazing and more than one air chamber. At the same time, more than one glazing sheet of a double-glazed window can be placed from the environment or from the side of the room, in the opening of the frame of the structure.

The gap between the frame of the structure and the distance frame around the perimeter may be greater than the gap between the frame of the structure and the glazing sheet located on the side of the room.

The design of a double-glazed unit can be obtained by installing on an existing filling element, for example, in the form of a single glazing sheet, a separate, for example, single-chamber, double-glazed unit through a distance frame and non-hardening sealant and fixing it from the premises to the existing filling element and to the frame of the structure with sealant, filling the volume of the gap formed by the surfaces of the frame of the structure, the existing filling element and glass. In this case, the glazing sheet located on the side of the room will be the outer sheet of the installed double-glazed window, closest to the existing filling element.

The mechanical means that fix the glazing sheet to the frame located on the environment side can be clamping strips fixed to the frame with self-tapping screws and pressing the glazing sheet located on the environment side through the gaskets to it.

As a sealant, a sealant for structural glazing can be used, which, in addition to sealing, also has load-bearing properties and is not subject to destruction from exposure to ultraviolet radiation during operation of the structure.

The use of a double-glazed window as an element of filling the enclosing structure significantly increases the thermal insulation properties of the structure.

Additional fixing of the double-glazed window to the frame of the structure from the side of the room with sealant increases the reliability of the structure and its insulating properties when separating the volume of the room from the environment.

The design of the utility model can be implemented on the enclosing structure with filling in the form of single-layer glazing sheets, by installing an additional glazing sheet or an additional double-glazed window from the side of the building to form an air chamber between the existing filling element and the additionally installed element.

The installation of an additional glazing element to the existing one with the formation of a sealed air chamber can be performed from the side of the room, does not require sophisticated equipment and technological processes, does not require dismantling of the enclosing structure.

The use of non-hardening sealant, for example, such as butyl tape or butyl, as the primary sealing layer meets the requirements for the manufacture of glued double-glazed windows and ensures the tightness of the structure.

The result of the implementation of the utility model is a technologically advanced and reliable enclosing structure with high thermal insulation performance.

Glazing sheets and double-glazed windows with standard or special properties can be used in the design of the utility model.

The absorbent or molecular sieve in the cavity of the distance frame provides moisture absorption and prevents condensation on the surfaces inside the sealed air chamber.

The essence of the utility model is illustrated in the drawing. FIG. 1, which shows a special case of the enclosing structure according to the proposed utility model (cross-section of the profile of the frame and filling the enclosing structure).

In FIG. 1, the following notation is made:

1 - frame of the building envelope,

2 - environmental glazing sheet (existing filling element in the form of single-layer glass),

3 - seals,

4 - clamping plate,

5 - self-tapping screw

6 - glazing sheet from the side of the room (outer glazing sheet of a single-chamber double-glazed window, closest to the existing glazing sheet of the structure),

7 - the gap between the glazing sheet from the side of the environment (the existing filling element in the form of single-layer glass) and the glazing sheet from the side of the room (the outer glazing sheet of a single-chamber double-glazed window, closest to the existing glazing sheet of the structure),

8 - sealed air chamber between the glazing sheet from the side of the environment (the existing filling element in the form of single-layer glass) and the glazing sheet from the side of the room (the outer glazing sheet of a single-chamber double-glazed window, closest to the existing glazing sheet of the structure),

9 - distance frame

10 - non-hardening sealant,

11 - the cavity profile of the distance frame,

12 - gaps along the perimeter between the distance frame and the frame of the enclosing structure, the glazing sheet from the side of the building (the outer glazing sheet of a single-chamber double-glazed window, closest to the existing glazing sheet of the structure) and the frame of the enclosing structure,

13 - sealant.

The enclosing structure shown is a common type of facade glazing for fencing balconies and loggias of buildings in which the utility model is implemented, and it is a post-and-cross beam with a frame 1 of profiles and filling elements in the form of double-glazed windows containing glazing sheets 2 from the environment and sheets glazing 6 from the premises. The glazing sheets 2 from the environment are fixed to the frame 1 through the gaskets 3 with the help of clamping strips 4 fixed to the profile of the frame 1 with screws 5 from the environment. Filling elements in the form of double-glazed windows with sheets 2 and 6 are additionally fixed from the side of the room to the frame 1 of the fencing structure with sealant 13, filling the gap volume formed by the surfaces of the frame 1 of the structure, glazing sheet 2, double-glazed window with sheet 6 and distance frame 11.

The design shown in FIG. 1, illustrates the result of the implementation of the utility model on the design of the fence with filling elements in the form of single-layer glasses.

When implementing the claimed utility model, an additional glazing element in the form of a single-chamber double-glazed unit with a glazing sheet 6 with a gap 7, providing a sealed air chamber 8 between the existing glazing element 2 and a glued glazing element with a glazing sheet 6, is glued to the existing glazing element 2 from the side of the room, and the gap 7 is performed by installing a distance frame 9, which is glued between the existing glazing element 2 and the glued glazing element with the glazing sheet 6 through non-hardening sealant 10 on opposite sides of the frame, and the cavity 11 of the distance frame profile contains an absorbent (not shown in the figure) and communicates with a sealed air chamber 8 between the existing 2 and the glued glazing elements, in addition, when gluing the distance frame 9 and the glazing element with the glazing sheet 6 also leave gaps 12 around the perimeter between them and the frame 1 of the enclosing structure, while fixing the distance frame 9 and the glued glazing element with the glazing sheet 6 to the frame 1 about is born designs provide due to their fixation sealant 13, which fills the gap 12 between the frame structure 1 and the spacer 9, the frame structure 1 and the glazing element is glued to the glazing sheet 6.

As the glued-in glazing element in the particular case, a single-chamber double-glazed window with a glazing sheet 6 is used, another glass or glass can also be used.

For accurate positioning of the distance frame and the glued glazing element during installation, temporary stops can be used, which are installed in the gaps between the frame of the enclosing structure and these elements around the perimeter. Also, during the curing and vulcanization of the sealant, mechanical clamping means can be used, for example, clamps or the like, providing the necessary positioning of the distance frame and the glued glazing element relative to the frame of the structure and the existing glazing element.

The work of fixing the distance frame and the glued glazing element with a sealant can be carried out in stages: first, fix the frame, and then the glued glazing element. Between the steps, time may also be provided for curing and vulcanizing of the sealant to provide a more reliable bond.

The proposed utility model expands the arsenal of solutions to improve the thermal insulation properties of the building envelope, in particular, such as the facade glazing of buildings. The proposed design is simple and reliable in comparison with known analogues. The use of the utility model in combination with well-known solutions for the isolation of the profiles of the skeleton of the building envelope allows you to achieve the properties of the building envelope necessary to maintain the desired microclimate in the building, and helps to reduce the energy consumption for maintaining it.

Claims (6)

1. The building envelope, consisting of a frame and a glazing element fixed to it, characterized in that the glazing element is a double-glazed window having two glazing sheets, a distance frame installed with a gap to the frame of the structure along the perimeter and between the glazing sheets through a non-hardening sealant with the formation a sealed air chamber in the space between the glazing sheets and the spacer, the area of the glazing sheet located on the side of the room being less than the area of the glazing sheet I, located on the side of the environment, while the size of the glazing sheet located on the side of the room, ensures its location in the opening of the frame of the structure with a gap around the perimeter, the glass unit is fixed due to the fact that the glazing sheet located on the side of the environment is fixed to the frame by mechanical means from the environment, as well as by fixing the double-glazed window from the side of the room to the frame of the fence design with a sealant filling the gap volume formed by the surface structural frame, glazing sheets and distance frames. 2. The building envelope according to claim 1, characterized in that the distance frame is made of a profile with a cavity that is in communication with a sealed air chamber between the glazing sheets, and the cavity profile of the distance frame contains an absorbent. 3. The building envelope according to claim 1, characterized in that the glass packet contains an additional glazing sheet and an air chamber. 4. The building envelope according to claim 1, characterized in that the gap between the frame of the structure and the distance frame around the perimeter is greater than the gap between the frame of the structure and the glazing sheet located on the side of the room. 5. The building envelope according to claim 1, characterized in that the mechanical means that fasten the glazing sheet to the frame located on the environment side are clamping strips fixed to the frame with self-tapping screws and pressing the glazing sheet to it through the seals located on the side the environment. 6. The building envelope according to claim 1, characterized in that a sealant for structural glazing is used as a sealant.

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