RU2608373C1 - Facade system of comfortable building - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, namely, to buildings, in particular, to designs of suspended ventilated facades, and can be used at constructing walls of frame buildings. Outer wall is made with a lining layer, and the inner layer of the outer wall is placed on an intermediate slab with a projection outside with a displacement of not more than 1/3 of the outer wall inner layer thickness, the inner layer of the outer wall is fixed in the inter-floor space between the lower and the upper intermediate slabs, the front layer of the outer wall is made in the form of a plate, which is strung on mounting brackets, and a heat insulation material, which is placed between the plate and the inner layer of the outer wall, and the mounting brackets are fixed to posts, belts and brace pieces of the spatial panel of the outer wall inner layer via the heat-insulating substrate, on the outer side of the front layer of there are vertically arranged T-section beams for mounting the outer wall lining layer and they are fixed on the mounting brackets throughout the height of the building wall, and the outer wall lining layer is made of a siding, or of lining cassettes from sheet materials, or of piece tiles, or of ceramic granite, or of sandwich panels.

EFFECT: technical result: better thermal properties of the outer wall, reduced labour costs at constructing outer walls and facades regardless of climatic conditions and time of year during the works.

4 cl, 6 dwg

Description

The invention relates to the field of construction, namely to buildings, in particular to structures of ventilated facades, and can find application in the construction of walls of frame buildings.

A known system of insulation of external fences of buildings according to the certificate for a utility model of the Russian Federation No. 26803, class. E04B 1/74, 1/76, 1/88, 2009, consisting of fasteners made in the form of unequal reinforced corners fixed to the wall of the building with dowel anchors, a layer of insulation, horizontal corners fixed to fasteners, vertical racks connected to horizontal corners, facing panels mounted on vertical racks, characterized in that the fasteners are attached to the wall with the outer surface of the greater side of the corner up, the upper surface of the fastener provided with a bent tongue , the horizontal corner is supported by the inner plane of one of the sides on the outer surface of the greater side of the fastener, the vertical racks are made in the form of a trapezoid, the vertical racks are equipped with clamps equipped with stops for installing cladding panels, the clamps are made with a different arrangement of stops, providing design clearances between the facing panels .

The disadvantage of this design is the insufficient strength of the fastening of horizontal profiles to fasteners. It is difficult to maintain the design clearance between the cladding panels.

Known metal siding "Eurobar VIC" according to the patent of the Russian Federation No. 141114, class. E04F 13/12, 2014, made of a metal sheet and consisting of two corrugations between which a support chute is made, and along the edges of which the first and second fastening elements are made, the first fastening element being made in a cross section U-shaped at the edge the first fastener is perforated, and the second fastener is made in cross section containing a curved shelf, the perforation is placed in the groove, in the cross section the siding is a smooth curve containing two adjacent equal in size sk each of which is made in the form of a part of an isosceles trapezoid containing its smaller base and sides, the ends of the brackets lie on one straight line, on the one side of which the aforementioned brackets are located, and on the other - a support chute and fastening elements, while at its ends the brackets are rounded so that the tangents at the ends of the brackets are perpendicular to the aforementioned straight line, the straight sections of the support channel are also perpendicular to the aforementioned straight line, while the straight flanges of the first fastening element are made of different lengths and are arranged parallel to the aforementioned straight line, wherein the end of the short straight flange of the first fastening element is rounded and connected to the end of the bracket, while the second fastening element in cross section is L-shaped and contains a straight and aforementioned curved shelf, the straight flange connected to the end the brackets are oriented perpendicular to the aforementioned straight line, and the curved shelf is directed along the aforementioned straight line and has a fillet, on the one hand connected to a straight shelf, and on the other through a straight line straps - a circular arc.

The disadvantage of this design is the high noise level in windy weather from the central loose part of the siding.

The known system of external insulation of the building according to the patent of the Russian Federation No. 92040, class. E04B 1/74, 2/00, 2010, comprising prefabricated wall panels with a supporting frame of vertical support columns and horizontal distribution beams, sandwich panels, fasteners and means for sealing joints, sandwich panels of each wall panel are located between the vertical supporting racks and attached to the horizontal distribution beams, also located between the vertical supporting racks, from the front side of the wall panel to the vertical supporting racks attached vertical fix ry sandwich panels, front part of the support pillars and front side of the sandwich panels are in the same vertical plane vertical retainers sandwich panels are in the form of corners and fitted with a front side wall panel between the side surfaces of the sandwich panel and support pillars.

The siding used in this system of external insulation of the building is the facing layer of the facade layer of the outer wall. The main disadvantage of the solution is the visible mounting angles on the facade.

Known hinged facade of the building according to the patent of the Russian Federation No. 146816, class. E04B 2/00, 2014, including heat-insulating plates, cladding plates and a vertical profile frame made of fiberglass or basalt plastic, consisting of vertical profile elements having stiffening ribs in the plane of fixation to the building wall and in the plane of fastening of the facing plates connected between horizontal connections with the formation of cells for placement of heat-insulating plates, heat-insulating plates are made in the form of multilayer frame panels with heat-reflecting screens and contain at least two rectangular rectangular lattice frames, on each side of which a heat-reflecting screen is fixed, connected by fasteners through distance washers installed in the frame, while the frame geometry repeats the cell geometry, and the frame edges are firmly adjacent on one side to the building wall and to the vertical profile frame with the formation of a cavity between the wall of the building and the heat-reflecting screen, and on the other hand, are tightly adjacent to the facing plate and to the vertical profile frame with the formation of a cavity between the faces paid-plate and heat-reflecting screen.

The sandwich panels used in this design determine the facing layer of the facade layer of the outer wall, as one of the options for manufacturing the facade. However, the disadvantage is the flammability of the fiberglass frame, the inconvenience of mounting on uneven surfaces.

Known frame building according to the patent of the Russian Federation No. 2381334, class. E04B 1/18, 2010, adopted by the applicant for the prototype. It contains floor slabs with consoles, columns resting on the console multi-layer external walls, including the inner, middle and facade layers, characterized in that each console is made in the form of a trapezoid, the larger base of which is placed inside the floor slab, and the overhang of the console is not more than the thickness of the outer wall, and the middle layer of the outer wall includes a spatial panel of light thin-walled elements - belts, racks, ties, braces that formed a spatial panel, and the space between the consoles, the inner layer and the facade layer of the outer wall is filled with insulation, the width of the light thin-walled element is equal to the thickness of the outer wall without the thickness of the facade and inner layers of the outer wall, the fastening elements of the facade layer, waterproofing, windproof and vapor barrier layers, the outer wall is installed on the floor slab, and the spatial panel on ¾ parts of its thickness is placed on the consoles, and at least ¼ of its thickness is placed on the slab.

The use of this technical solution made it possible to create structural elements of the frame building that increase the thermal properties of the outer wall, reduce the labor costs of installing the frame building, including the external walls, regardless of climatic conditions, namely, eliminate “wet processes” through the use of a spatial panel, increase reliability and bearing capacity of the frame building, reduce the total weight of the building, give an expressive architectural facade to the building made of modern materials ialov and designs.

The technical task of the invention is the creation of not only external building block elements of the building structure, increasing the thermal properties of the external wall, reducing labor costs when installing external walls and building facades, regardless of climatic conditions and time of year of work, but also increasing comfort, reliability and creating expressive architectural appearance of the building using modern materials and structures.

The problem is solved in that in the proposed solution, the outer wall is made with a facing layer, and the inner layer of the outer wall is placed on the floor slab with a protrusion outward with an offset of not more than 1/3 of the thickness of the inner layer of the outer wall, the inner layer of the outer wall is fixed in the interfloor space between lower and upper floor slabs, the facade layer of the outer wall is made in the form of a plate, which is strung on the mounting brackets, and insulation, which is placed between the plate and the inner layer of the outer wall, and installation brackets are fixed to the posts, belts and braces of the spatial panel of the inner layer of the outer wall through a heat-insulating substrate, logs of a T-profile are vertically placed on the outer side of the facade layer for mounting the facing layer of the outer wall and are mounted on the mounting brackets to the entire height of the building wall, and the facing the outer wall layer is made of siding, or facing cassettes of sheet materials, or piece tiles, or porcelain stoneware, or sandwich panels.

In addition, the fastening elements of the inner layer of the outer wall in the interfloor space to the lower and upper floor slabs, namely the horizontal belts of its spatial panel at the points of attachment to the floor slab, are reinforced with plates.

In addition, the siding of the outer wall cladding layer is made of light steel sheet material with stiffeners and corrugations, perforation under the fasteners is made at the edge of the fastening elements, elongated along the length of the siding, in the inner cavity of which insulation is placed, adjacent sections of the upper and lower castle siding joints at the interfaces, they are double-bent by 180 degrees with the formation of additional stiffeners with bending to the height of the head of the fastener in the upper adjacent section e lock siding, while the joint space is made in the form of a secret niche and filled with insulation.

In addition, the sandwich panels of the outer wall cladding layer are joined together and attached to the lags of the T-profile of the outer wall, the upper and lower adjacent sections of the castle connection of the sandwich panels are double-bent by 180 degrees with the formation of additional stiffeners with a bend to the height heads of the fastener on the upper adjacent section of the castle connection of the sandwich panels, and at the edge of the fastening elements at the joints, perforation was performed under the fasteners, elongated along the length of the sandwich panel ate, while the joint space is made in the form of a secret niche and is filled with insulation, and the sandwich panels themselves are placed horizontally and have vertical air channels with a depth greater than the bending height of additional stiffeners, and the air channels are made coaxial to the entire height of the building wall.

The technical result from the use of the proposed solution is that to use the facade of a modern comfortable building, you can use a number of finishing materials that are competitive in cost and available to create a modern look of the building and comfortable living.

In FIG. 1 - structure of the facade system of the building on a fragment of a vertical section of the building with a facing layer of the outer wall made of siding;

in FIG. 2 - structure of the facade system of the building on a fragment of a vertical section of the building with a facing layer of the outer wall made of sandwich panels;

in FIG. 3 - node I in FIG. 1, butt joint siding;

in FIG. 4 - node II in FIG. 2, butt joint connection of sandwich panels;

in FIG. 5 is a section Α-A in FIG. 2;

in FIG. 6 - elements of siding.

The facade system of a comfortable frame building contains floor slabs 1 and 2, which, unlike the prototype in the present invention, are made without consoles, external walls including an inner layer 3, a facade layer 4 and a facing layer 5.

The inner layer 3 of the outer wall is placed on the slab 1 with a protrusion outward with an offset of "B" not more than 1/3 of the thickness of the inner layer 3 of the outer wall. The inner layer 3 of the outer wall is made in the form of a spatial panel and is fixed by a fastening element 6 in the interfloor space between the lower and upper floor slabs 1 and 2. Namely, the spatial panel of the inner layer 3 is fixed to the floor slabs 1 and 2 by means of horizontal panels 7 attachment points are reinforced with plates 8. Internal volumes of the spatial panel of the inner layer 3 of the outer wall are filled with insulation 9.

The facade layer 4 of the outer wall is made in the form of a plate, which is mounted on the mounting brackets 11, and insulation 12, which is placed between the plate 10 and the inner layer of the outer wall. And the mounting brackets 11 are fixed to the posts, belts and braces of the spatial panel of the inner layer 3 of the outer wall through the heat-insulating substrate 13, by means of the fastening element 6.

On the outer side of the facade layer 4 of the outer wall, logs 14 of a T-profile are vertically placed for mounting the facing layer 5 of the outer wall and are fixed on the mounting brackets 11 to the entire height of the building wall.

And the facing layer 5 of the outer wall can be made of siding 15, or of facing cassettes of sheet materials, or piece tiles, or porcelain stoneware, or sandwich panels 16.

For example, siding 15 of the facing layer 5 of the outer wall is made of light steel sheet material with stiffeners 17 and corrugations 18.

At the edge of the fastening elements, perforation 19 was made under the fastening element 6, elongated along the length of the siding 15, in the inner cavity of which a heater 9 is placed. The upper and lower adjacent sections of the lock connection of the siding 15 at the interfaces are double-bent by 180 degrees with the formation of additional stiffeners 20 with a bend to the height of the head of the fastening element 6 on the upper adjacent section of the castle connection of siding 15. In this case, the joint space is made in the form of a secret niche 21 and filled with insulation 9.

The facing layer 5, made of siding 15, is mounted on vertically placed lags 14 of the T-shaped profile by means of fasteners 6 through a heat-insulating substrate 13.

For example, the sandwich panels 18 of the outer wall cladding layer 5 are joined together and attached to the lags 14 of the T-shaped profile of the outer wall. The upper and lower adjacent sections of the castle connection of the sandwich panels 16 are double-bent 180 degrees with the formation of additional stiffening ribs 20 with the bend to the height of the head of the fastener 6 on the upper adjacent section of the castle connection of the sandwich panels 16, and at the edge of the fastening elements in places joint, perforation 19 was made for fasteners 6, elongated along the length of the sandwich panel 16. In this case, the joint space is made similar to the joint of siding 15 in the form of a secret niche 21 and filled with insulation 9. And the sandwiches themselves h-panels 16 are placed horizontally and have vertical air channels 22 with a depth greater than the bending height of additional stiffeners 20. Moreover, the air channels 22 are formed by a stepped element 23 and are made coaxial to the entire height of the building wall, and the inner cavity of the sandwich panel 16 is filled with insulation 9.

Sandwich panels 16 forming the cladding layer 5 are also fixed on vertically placed lags 14 of the T-shaped profile by means of fasteners 6 through the heat-insulating substrate 13.

Installation of the building is as follows.

The building frame is erected by installing floor slabs 1 and 2 in it. Then, the outer wall is mounted, for which the inner layer 3 is placed in the interfloor space and attached to the lower and upper floor slabs 1 and 2, namely, the horizontal belts 7 of the spatial panel by means of fasteners 6.

Then on the racks, belts and braces of the spatial panel of the inner layer 3 of the outer wall through the insulating substrate 13 by means of fasteners 6 fix the mounting brackets 11.

A plate 10 is strung on the mounting brackets 11 and a heater 12 is laid, which is placed between the plate 10 and the inner layer 3 of the outer wall - thus, the facade layer 4 of the outer wall is made.

Then on the installed brackets 11 fasten the lags 14 of the T-shaped profile for mounting the facing layer 5 of the outer wall, which is placed vertically to the entire height of the wall of the building. Moreover, the cladding layer 5 of the outer wall can be made or cladding cassettes of sheet materials, or piece tiles of porcelain, as well as siding 15 or sandwich panels 16.

When performing the facing layer 5 of siding 15.

On the vertically placed lags 14 of the T-shaped profile, siding elements 15 are mounted. At the beginning, from the bottom, lag 14 fixes a fragment of the upper adjacent section of the castle connection of siding 15 using fasteners 6, into which the next element of siding 15 is then installed with its lower adjacent section of the castle connection, collecting them into the castle, and its upper adjacent section of the castle connection is fixed by means of fasteners 6. And so on, a third and subsequent walls are installed on the second siding element 15 Ania. As you install the siding elements 15 in the internal cavity of the siding 15 and in the resulting secret niche 21, a heater 9 is laid. The facing layer 5 of the outer wall from the siding is ready.

When performing the facing layer 5 of the outer wall of the sandwich panels 16.

A sandwich panel 16 is mounted on vertically placed lags 14 of the T-shaped profile. At the beginning, from the bottom of the lag 14, fasteners 6 fix a fragment of the upper adjacent section of the castle connection of the first sandwich panel 16, into which the next sandwich panel 16 is then installed with the lower adjacent castle section connections, collecting them in the lock, and its upper adjacent section of the castle connection is fixed by means of fasteners 6. And so on, a third and subsequent walls are installed on the second sandwich panel 16 Denmark. As the sandwich panels 16 are installed, a heater 9 is placed in the hidden niche 21 formed. The sandwich panels 16 are installed horizontally so that the air channels 22 made in them coincide with each other and form a single network of air channels 22 to the entire height of the building wall. The facing layer 5 of the outer wall of the sandwich panels 16 is ready.

After mounting the external walls of the proposed design, the internal walls and partitions are mounted according to known technology.

Using the proposed technical solution, it was possible to create not only the external enclosing structural elements of the frame building that increase the thermal properties of the external wall regardless of climatic conditions and time of the year, but also increase the comfort, reliability and creation of an expressive architectural appearance of the building using modern materials and structures.

Claims (4)

1. The facade system of a comfortable building, containing floor slabs with consoles, columns, multilayer exterior walls resting on the console, including internal and facade layers made of light steel thin-walled elements forming a spatial panel with racks, belts, braces and insulation, characterized in that that the outer wall is made with a facing layer, and the inner layer of the outer wall is placed on the floor slab with a protrusion outward with an offset of not more than 1/3 of the thickness of the inner layer of the outer wall, the inner the first layer of the outer wall is fixed in the interfloor space between the lower and upper floor slabs, the facade layer of the outer wall is made in the form of a plate that is strung on the mounting brackets, and insulation, which is placed between the plate and the inner layer of the outer wall, and the installed brackets are fixed to the racks, to the brackets and braces of the spatial panel of the inner layer of the outer wall through a heat-insulating substrate, logs of a T-profile for vertical installation are vertically placed on the outside of the facade layer th layer of the outer wall and are fixed on the mounting brackets to the entire height of the wall of the building, and the facing layer of the outer wall is made of siding, or facing cassettes of sheet materials, or piece tiles, or porcelain stoneware, or sandwich panels. 2. The facade system according to claim 1, characterized in that the fastening elements of the inner layer of the outer wall in the interfloor space to the lower and upper floor slabs, namely the horizontal belts of its spatial panel in the places of fastening to the floor slab, are reinforced with plates. 3. The facade system according to claim 1, characterized in that the siding of the facing layer of the external wall is made of lightweight sheet material with stiffeners and corrugations, perforation under the fasteners is made at the edge of the fastening elements, elongated along the length of the siding, in the inner cavity of which insulation is placed , adjacent sections of the upper and lower castle siding joints at the interface are double-bent by 180 degrees with the formation of additional stiffeners with bending to the height of the head of the fastener on the upper adjacent section of the siding castle joint, while the joint space is made in the form of a secret niche and filled with insulation. 4. The facade system according to claim 1, characterized in that the sandwich panels of the facing layer of the outer wall are joined together and attached to the lags of the T-shaped profile of the outer wall, the upper and lower adjacent sections of the castle connection of the sandwich panels are double-bent by 180 degrees with the formation of additional stiffeners with bending to the height of the head of the fastener on the upper adjacent section of the castle connection of the sandwich panels, and at the edge of the fastening elements at the joints, perforation was performed under the fastener s, elongated along the length of the sandwich panel, while the joint space is made in the form of a hidden niche and filled with insulation, and the sandwich panels themselves are horizontal and have vertical air channels with a depth greater than the bending height of the additional stiffeners, and the air channels are made coaxial to the entire height walls of the building.

Images