RU2266379C1 - Building facade add-on enclosure and enclosure block - Google Patents

Abstract

FIELD: building, particularly for new building construction and existent ones repair and reconstruction.

SUBSTANCE: facade enclosure is composed of single blocks. Each block comprises frame with fastening members and inner lining. Inner lining and facade facing define sealed cavity with the use of sealing material. The sealed cavity communicates with atmosphere through channel and is provided with at least one heat-insulation screen and at least two heat-insulation layers. The blocks are connected to the building by supports rigidly secured to building frame by the first ends thereof. The second support ends are connected to blocks.

EFFECT: increased air-tightness and reliability of facade enclosure.

21 cl, 12 dwg

Description

The invention relates to the field of construction and can be used in the construction of new buildings, as well as in the repair and reconstruction of old ones.

A facade hinged building is known, comprising a facade cladding, forming cell frames of metal battens attached to the wall of the building with 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 (see. "The best facades", Periodic catalog of the facade market of Russia, January, 2004, pp. 72-73, "Reynaers systems rus").

There is also a known block of the facade hinged fence of the building, containing the front and inner claddings made of reinforced concrete, between which a heat-insulating layer is placed (see Overview of “Modern Walls and Facades”, No. 2, 2000, p. 32, Fig. 2.40).

However, the installation of the well-known facade curtain wall of the building is time-consuming and significantly increases the cost of the building, since the facade curtain wall is manually mounted in layers on the wall of the building and often requires the installation of scaffolding. At the same time, quality control of installation is often absent. In addition, during the operation of the known fence due to its leakage, moisture is accumulated by the heat-insulating material, which reduces the thermal protection of the building and reduces the reliability of the frame fastening. When the wind load is also reduced thermal protection of the building. The above leads to a rise in the cost of construction and operation, as well as to a decrease in reliability.

The known block does not provide the required stable thermal insulation properties and tightness.

The objective of the present invention is to reduce the cost and time of installation of a facade curtain rail and the cost of its operation while increasing heat and sound insulation and reliability, regardless of wind load and precipitation through the use of heat and sound insulating blocks, assembled in the factory with guaranteed quality .

The problem is solved in terms of the facade curtain wall of the building is solved by the fact that the facade curtain wall of the building, containing the facade cladding and heat insulating layer, according to the invention is made of blocks, each of which contains a frame with fasteners and an inner lining, forming together with the facade cladding using a sealing a sealed cavity connected to the atmosphere through a channel and provided with at least one heat shield and at least two heat insulating oyami, the blocks are attached to the building by means of supports, at one end rigidly connected to the frame of the building, and the other - with the unit.

The problem is also solved by the fact that the frame of the building can be formed by ceilings and facade supporting pillars, rigidly connected to window sills, and the supports at one end are rigidly connected to the ceilings, and / or columns, and / or window sills, and the other end protruding beyond the outer surface frame, - with the block.

The problem is also solved by the fact that the other end of the supports can be made in the form of a square with an emphasis and covers the corner of the block on three sides.

The problem is also solved by the fact that the other end of the supports can be made cross-shaped with stops and covers the corners of four blocks on three sides.

The problem is also solved by the fact that the other end of the supports can be made T-shaped with stops and covers the corners of two blocks on three sides.

The problem is also solved by the fact that the frame of the block in its corners can be fastened with stops of other ends of the supports.

The problem is also solved by the fact that the channel can be equipped with a filter, inlet and outlet valves.

The problem is also solved by the fact that the sealed cavity of at least two blocks can be additionally interconnected.

The problem is also solved by the fact that in the joints between the blocks can be placed seals.

The problem is also solved by the fact that the seals can be made profile or of a sealing material and covered with overlays.

The problem is solved in part of the facade cladding block of the building is solved by the fact that the facade cladding block of the building, containing the front and inner cladding, between which there is a heat-insulating layer, according to the invention further comprises a frame with fastening elements, forming together with the front and inner claddings using sealing material, an airtight cavity connected to the atmosphere through a channel and provided with at least one heat shield and at least two heat insulating layers.

The problem is also solved by the fact that the inner surface of the frame can be closed with a sealed material.

The problem is also solved by the fact that the front and inner cladding can be made of moisture-airproof material.

The problem is also solved by the fact that the front and inner cladding can be made of glass and / or tile, and / or plastic, and / or metal.

The problem is also solved by the fact that the block can be equipped with a decorative element placed under the facade cladding made of glass.

The problem is also solved by the fact that the facade cladding can be made of tiles with dimensions smaller than the dimensions of the block.

The problem is also solved by the fact that between the heat shields, facade and interior cladding can be installed dividing elements.

The problem is also solved by the fact that heat shields can be made of film material with a reflective coating and / or foil.

The problem is also solved by the fact that mineral wool can be used as one of the insulating layers.

The problem is also solved by the fact that the heat shields can be made of frames closed on both sides with a film material with a reflective coating, between which are space-deformed sheets, and the separation elements are also made of body-deformed sheets.

The problem is also solved by the fact that between the frame, the front and the inner lining can be located moisture-air tight element.

Figure 1 presents the proposed facade hinged fence of the building.

Figure 2 is a view A of figure 1.

Figure 3 - frame with the proposed facade hinged fence.

Figure 4 is a section bB of figure 3.

Figure 5 - mounting scheme of the proposed block.

Figure 6 is a view In figure 5.

In Fig.7 - the proposed block of the front hinged fence of the building.

On Fig - view G of Fig.7.

In Fig.9 is a variant of the proposed block of the facade hinged fence of the building.

Figure 10 is a view D of figure 9.

Figure 11 is a variant of the proposed block of the facade hinged fence of the building.

On Fig - a variant of the proposed block of the facade hinged fence of the building.

The proposed facade hinged fence (Fig.1-4) contains a facade cladding 1 and is made of blocks 2, which are mounted on the building with supports 3, one end 4 rigidly connected to the building frame, and the other 5 - with block 2. Bearing reinforced concrete frame can be formed by ceilings 6, support pillars 7 and facade support pillars 8, rigidly connected to the window sills 9. Moreover, the supports 3 end 4 are rigidly connected to the ceilings 6, and / or posts 8, and / or window sills 9, and the end 5, protruding the outer surface of the frame, - with block 2. When this m for the corner block 2, the end 5 of the supports 3 (5, 6) is made in the form of a square with an emphasis 10 and covers the angle of the block 2 on three sides. For indoor units 2, the end 5 of the supports 3 is made in a cross-shaped form with stops 10 and covers from three the sides of the corners of the four blocks 2. And for the peripheral blocks 2, the end 5 of the supports 3 is made of a T-shape with stops 10 and covers the angles of two blocks 2 on three sides.

The proposed block 2 (Figs. 7-12) of the front hinged fence comprises a facade cladding 1, a frame 11 and an internal cladding 12, which together with the facade cladding 1 form an airtight cavity 14 with a sealing material 13, which is connected to the atmosphere through a channel 15 and is equipped with at least one heat shield 16 and at least two heat insulating layers. The distance between claddings 1, 12 can be up to 200 mm, depending on the requirements for building thermal protection and other conditions. The inner surface of the frame 11 (11) can be closed with a sealed material. In an embodiment, a moisture-air-tight element 17 may be located between the frame 11, the front and the inner lining 1, 12. The front and inner lining 1, 12 can be made of a moisture-air-tight material. Cladding 1, 12 can be made of glass and / or tile, and / or plastic, and / or metal. If the facade cladding 1 is made of glass, the block can be equipped with a decorative element 18 located under the facade cladding 1. Decorative element 18 can be made volumetric or flat, as well as made in color. Placed under the lining 1, the decorative element 18 will not be covered with dirt and dust and will not be destroyed by atmospheric moisture, which will allow to maintain its appearance for a long time. In an embodiment, ceramic can be glued to the facade cladding 1. In another embodiment (Fig. 9), the facade lining 1 can be made of tiles 19, including those with sizes smaller than the sizes of the block 2. Joints 20 between the tiles 19 are closed with a sealing material 13. In the cavity 14, supports 21 can be installed that provide strength, structural rigidity and tightness of joints 20. Between heat shields 16, front and inner claddings 1, 12, dividing elements 22 can be installed. Moreover, heat shields 16 can be made of film material with a reflective coating and / or gi. Mineral wool 23 can be used as one of the heat-insulating layers. Other heat-insulating layers are air layers 24. In the embodiment, heat shields 16 (Fig. 12) can be made of frames 25, closed on both sides with a film material with a reflective coating, between which volume-deformed sheets 26 are located, and the dividing elements 22 are also made of volume-deformed sheets 26.

When installing block 2 (Figs. 1, 5, 6) on the building frame, the frame 11 of block 2 in its corners can be fastened with stops 10 of the ends 5 of supports 3 using, for example, holes 27 in the stops 10 and fastening elements 28. In the joints 29 between the blocks 2 can be placed seals 30, which can be made profile or of a sealing material and closed by plates 31.

The channel 15, through which the cavity 14 of each block 2 is connected to the atmosphere, can be equipped with a filter 32, inlet and outlet valves 33, 34. In this case, the cavities 14 of at least two blocks 2 (Fig. 8) can be additionally interconnected and then with channel 15.

To improve the heat and soundproof properties of the building between the floors 6 (Fig. 1) and blocks 2, a heat and sound insulating material 35 can be located. Under the window sill 9, a window sill 36 can be installed, which prevents the inner lining 12 of the block 2 from organizing, organizing air circulation and increasing fire safety.

When reconstructing an old building, a supporting reinforced concrete frame can be made around the reconstructed building.

Block 2 can be assembled in the factory. The conveyor production of blocks 2 during serial production is easily reconstructed. The weight of block 2 can range from 25 to 40 kg / m ² . The low weight of unit 2 allows for mobility in the manufacture and installation. High degrees of tightness and thermal protection of blocks 2, the ability to minimize the effects of thermal conductivity in block 2, as well as thermal bridges, allows the use of blocks 2 for the construction of energy-efficient housing and thereby reduce heat loss in the residential complex and increase indoor comfort.

The installation of blocks 2 (Figs. 1, 5, 6) on the building frame due to their low weight can be performed from floors 6. When installing block 2, the corners of its frame 11 are pressed against the stops 10 of the ends 5 of the supports 3, which cover each corner on three sides block 2. In this case, at the ends of the frame 11, support seats 37 can be provided at its corners. The protruding supports 3 with the ends 5 interact with the support seats 37. After installing the blocks 2 on the protruding supports 3, they are attracted to the stops 10 using the holes 27 in the stops 10 and mounting elements 28. Between the supporting seats 37 and the ends 5 of the supports 3 can be installed gaskets of heat insulating materials. Through the supports 3, the weight of the unit 2 and the wind loads on it are transferred to the frame.

In the process of operation of the facade curtain wall at a pressure in the cavity 14 of the block 2 below atmospheric, the inlet valve 33 opens, and air from the environment will enter it through the filter 32. At a pressure in the cavity 14 of the block 2 above atmospheric, the exhaust valve 34 opens, and air will escape from it through the channel 15 into the atmosphere. The difference in air pressure inside and outside the cavity 14 of block 2 is practically zero.

Thus, the proposed group of inventions allows to ensure high tightness and reliability of the facade fencing, which increases the degree of heat and sound protection of the building, and also creates the possibility for the conveyor production of facade fencing in the factory and reduces the cost of manufacture and operation.

Claims (21)

1. Facade hinged fence of the building, comprising a facade cladding and a heat-insulating layer, characterized in that it is made of blocks, each of which contains a frame with fasteners and an inner cladding, which together with the facade cladding with the help of a sealing material are sealed cavity connected to the atmosphere through the channel and provided with at least one heat shield and at least two heat-insulating layers, while the blocks are mounted on the building using supports, one end is rigidly connected connected with the frame of the building, and another with the block. 2. The fence according to claim 1, characterized in that the frame of the building is formed by ceilings and facade support pillars, rigidly connected to 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 for the outer surface of the frame, with the block. 3. The fence according to claim 2, characterized in that the other end of the supports is made in the form of a square with an emphasis and covers the corner of the block from three sides. 4. The fence according to claim 2, characterized in that the other end of the supports is cross-shaped with stops and covers the corners of four blocks on three sides. 5. The fence according to claim 2, characterized in that the other end of the supports is made in a T-shape with stops and covers the angles of two blocks on three sides. 6. The fence according to any one of claims 3 to 5, characterized in that the block frame in its corners is fastened with stops of other ends of the supports. 7. The fence according to claim 1, characterized in that the channel is equipped with a filter, inlet and outlet valves. 8. The fence according to claim 1 or 7, characterized in that the sealed cavity of at least two blocks are additionally interconnected. 9. The fence according to claim 1, characterized in that in the joints between the blocks are seals. 10. The fence according to claim 9, characterized in that the seals are made of a profile or of a sealing material and are closed by overlays. 11. The block of the facade hinged fence of the building, containing the front and inner lining, between which is placed a heat-insulating layer, characterized in that it further comprises a frame with fastening elements, which forms, together with the facade and internal lining with the help of a sealing material, a sealed cavity connected to the atmosphere through the channel and provided with at least one heat shield and at least two heat insulating layers. 12. The block according to claim 11, characterized in that the inner surface of the frame is closed with a sealed material. 13. The block according to claim 11 or 12, characterized in that the front and inner claddings are made of moisture-tight material. 14. The block according to item 13, wherein the front and inner cladding is made of glass and / or tile, and / or plastic, and / or metal. 15. The block according to p. 14, characterized in that it is equipped with a decorative element located under the facade cladding made of glass. 16. The block according to 14, characterized in that the facade cladding is made of tiles with dimensions smaller than the dimensions of the block. 17. The block according to claim 11, characterized in that dividing elements are installed between heat-shielding screens, front and inner claddings. 18. The block according to claim 17, characterized in that the heat shields are made of a film material with a reflective coating and / or foil. 19. The block according to claim 11, characterized in that mineral wool is used as one of the insulating layers. 20. The block according to claim 17, characterized in that the heat shields are made of frames closed on both sides with a film material with a reflective coating, between which are space-deformed sheets, and the dividing elements are also made of body-deformed sheets. 21. The block according to claim 11, characterized in that between the frame, the front and the inner lining there is a moisture-airtight element.

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