RU160818U1 - BUILDING FACING - Google Patents

Abstract

1. The building envelope, consisting of a frame made of profiles, and filling elements fixed to the frame, characterized in that the surface of the frame profiles from the side of the room is covered with a multilayer heat-insulating material, the outer layer of which is made seamless. 2. The building envelope according to claim 1, characterized in that the multilayer heat insulating material is polystyrene foam coated with plastic. 3. The building envelope according to claim 1 or 2, characterized in that the filling elements are made in the form of double-glazed windows or frames with double-glazed windows or frames with double-glazed windows having a sash. 4. The building envelope according to claim 3, characterized in that the glass packet frame is made of a T-shaped profile.

Description

The utility model relates to construction, and more specifically to devices designed to protect building elements from each other and from the external environment, in particular to glazing facades and roof coverings, and is aimed at increasing their thermal insulation properties.

Currently, building envelopes consisting of a frame and filling elements are widely used. They are used in the construction of various buildings, for example, in the construction of walls, facades, balconies and loggias, roofs, as well as in the construction of buildings with non-traditional curved shapes, in which there is no clear separation of the walls from the roof and they smoothly pass into each other.

Glazing structures of building facades are also known, also related to building envelope structures, consisting of a rigid metal frame, for example, from posts and crossbars made of aluminum profile, and transparent and / or opaque filling elements fixed to the frame. Similar technical solutions are described in the patent for the utility model of the Russian Federation No. 70288 “Glazing system for the facade” and in the certificate for utility model No. 9001 “Composite heat-insulating metal profile”.

Facade glazing, for example, the construction of a rack-and-crossbar facade, is often used to enclose balconies and loggias of new 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. (GOST 54858-2011 Translucent facade designs)

The described building envelopes, which include facade glazing, have a significant drawback - low thermal insulation properties.

To improve the thermal insulation properties of building envelopes, various devices are used. In the devices described above, elements of opaque materials with good

thermal insulation properties, for example, sandwich panels, or panels with mineral wool, or transparent elements - double-glazed windows or frames with double-glazed windows or frames with double-glazed windows, with a sash, which have good thermal insulation properties.

However, the described devices do not provide adequate thermal insulation of the frame of the building envelope, which, as a rule, is made of metal and is a good conductor of heat between the environment surrounding the building and its interior. Low heat-insulating properties of the frame of the building envelope lead to significant heat losses in the interior of the buildings, which entails additional energy costs to maintain the required temperature in them. The use of such "cold" enclosing structures in residential buildings for fencing balconies and loggias makes it impossible to use these premises as residential throughout the calendar year, especially at low ambient temperatures.

The objective of this utility model is to create a new building envelope, consisting of a frame and filling elements fixed to it, with the achievement of a technical result consisting in increasing its heat-insulating properties.

The problem is solved due to the fact that in the building envelope, consisting of a frame made of profiles, and filling elements, which can be made in the form of transparent or opaque elements fixed to the frame, according to this utility model, the surface of the frame profiles from the side the premises are covered with a multilayer insulating material, the outer layer of which is made seamless.

In addition, special cases of execution of the main technical solution are possible, consisting in the fact that:

- as a multilayer heat-insulating material can be applied polystyrene foam coated with plastic,

- filling can be performed in the form of double-glazed windows or frames with double-glazed windows or frames with double-glazed windows having a sash,

- the glass packet frame can be made of a T-shaped profile,

- coating the surface of the carcass profiles with a multilayer heat insulating material from the side of the premises can be performed in whole or in part.

The essence of the proposed utility model is illustrated by the following description and drawings.

In FIG. 1 shows a profile of the frame of the building envelope with a filling fixed in it in the form of single-layer glass and a frame with a double-glazed window, FIG. 2 - profile of the frame of the building envelope with a filling fixed in it in the form of frames with double-glazed windows.

As a preferred embodiment of the claimed utility model in FIG. Figures 1 and 2 show the construction of a rack-and-crossbar facade, containing a frame of metal profiles of struts 1 and crossbars (not shown in the figure), filling 2, multilayer heat-insulating material 3.

Fill elements 2 (single-pane glass, a T-frame with a double-glazed window) are fixed to the frame using clamping plates 4 with gaskets 5, drawn to profiles of struts 1 and crossbars (not shown in the figure) using self-tapping screws 6. Fill elements 2 are drawn to the profiles of the frame through plastic inserts, the thickness of which ensures the location of the outer surfaces of the filling elements 2 in one plane for their tight pressure against the frame by the straps 4. From the side of the room, the frame consists of profiles of racks 1 and crossbars (not shown in the figure) PTFE coating layered heat insulating material 3, which is fixedly mounted on the frame, for example, using adhesive. As a multilayer heat-insulating material 3 can be used a three-layer material - expanded polystyrene coated with layers of plastic on both sides. The multilayer insulating material 3 has the shape of a box, repeating the shape of the profile of the frame from the side of the room, and its outer layer 7 is made seamless.

The shape of the box can be attached to the multilayer heat-insulating material 3 by bending it with preliminary removal of the corresponding parts of the inner layers in the bend and gluing the bend on the inside of the box. In this case, the outer layer 7 of the multilayer heat insulating material 3 remains seamless.

The junction of the multilayer heat insulating material 3 with filling 2 can be filled with glue or sealant (not shown in the figure).

Making the outer layer 7 of the multilayer heat-insulating material 3 seamless, together with filling the joints between it and filling 2 with glue or sealant, significantly increases the heat-insulating properties of the building envelope, due to the achievement of complete insulation of the frame from the interior and reduction of heat transfer between the frame and the indoor air, and also increases service life of the multilayer heat insulating material 3.

As elements of the filling 2 can be applied double-glazed windows, frames with double-glazed windows and frames with double-glazed windows, with sashes.

In the case of using frames made of material of the same material as the outer layer of the heat-insulating material, the joint between them can be glued with liquid plastic, which will create a uniform high-quality sealed joint not subject to destruction during operational deformations of the entire structure of the fence.

When implementing the proposed utility model - the building envelope, a frame made of profiles 1 is first installed on the building, after which the filling elements 2 are fixed on the frame, after which the surface profiles of the frame 1 from the premises are covered with a multilayer heat-insulating material 3, the outer layer 7 which is made seamless. To improve manufacturability and speed up the last operation, prefabricated boxes of multilayer heat-insulating material 3 can be used, repeating the shape of the frame profiles 1 from the side of the room, and the outer layer 7 of which is made seamless, fixed to the frame profiles 1, for example, on an adhesive basis.

In addition to solving the main problem, the proposed utility model allows:

- to make high-quality insulation of the frame of the building envelope of a building of any shape;

- to warm the existing cold facade of the building or any other similar partitions, while maintaining their aesthetic properties from the premises;

- maintain a comfortable indoor air temperature all year round;

- attach the area of the loggia or balcony of the apartment to its living space;

- improve the soundproof properties of the building envelope.

Claims (4)

1. The building envelope, consisting of a frame made of profiles, and filling elements fixed to the frame, characterized in that the surface of the frame profiles from the side of the room is covered with a multilayer heat-insulating material, the outer layer of which is made seamless. 2. The building envelope according to claim 1, characterized in that the multilayer heat-insulating material is polystyrene foam coated with plastic. 3. The building envelope according to claim 1 or 2, characterized in that the filling elements are made in the form of double-glazed windows or frames with double-glazed windows or frames with double-glazed windows having a sash. 4. The building envelope according to claim 3, characterized in that the glass packet frame is made of a T-shaped profile.

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