EP2322730A1 - Frame building - Google Patents

Abstract

The invention relates to a skeleton structure for a building with covering slabs, with brackets and columns, wherein multilayer outer walls are supported on the brackets, which include an inner layer, a middle layer and a facade layer. It is envisaged that each console is designed in the form of a trapezoid, the base dimension of which merges with the cover plate, that the length of the consoles is not greater than the thickness of the outer wall, the inner layer of the outer wall being a room panel made of light, thin-walled elements - Belts, supports, struts in composite form - and that the space between the brackets, the inner layer and the facade layer is filled with heat protection material. A structure for a skeleton structure for a building has been created, which has increased thermal properties, reduces the workload during assembly, avoids wet processes and increases the comfort, reliability and load-bearing capacity of the skeleton structure. In addition, the overall weight of the building is reduced and the use of modern materials and manufacturing processes is ensured.

Description

The invention relates to a skeleton construction for a building according to the preamble of claim 1.

The invention can be used in the construction field and indeed in skeleton construction and can be used in building construction with self-supporting walls.

It is a skeleton construction according to the patent of the Russian Federation J 104371, class E 04 B 1/18 from 2 / 28.1998, the cover plates and multi-layer outer walls in the form of an outer layer of small pieces, preferably made of bricks, has. The outer walls are semi-brick strong with built into the wall buttresses, a thermal insulation of a middle wall layer and an inner wall layer constructed. The outer wall layer is flush mounted with an end face of the cover plate, wherein in the body in the wall storage zone continuous folds filled with heat protection material are formed parallel to their outer edge. The thickness of the thermal insulation thereby exceeds the length of the buttress projections. The thermal insulation used is foam polystyrene or mineral wool, either foam polymer gypsum board or foam board. As inner layer Einkehlkammtrennplatten of gypsum or cement sand blocks can be fully assembled.

The disadvantages of this known construction are insufficient and unreliable wall insulation at the location of the top wall finish to the cover plate, a limitation of the architectural design of the building facade at the expense of horizontal cutting. The outer layer is fully assembled flush with the face of the overlay plate. The high work involved in the erection of the outer walls is disadvantageous because of the inadequacy of the work with the presence of a large amount of different materials for the wall construction.

It is a skeleton construction according to the patent of the Russian Federation no. 2168590 , Kl. E 04 B 1/18 5/43, 2001, which is selected here as a prototype. It comprises overlay panels, multi-layered exterior walls enclosing the tile, and thermal insulation of a middle layer. Each cover plate is provided with W-shaped brackets after the outer perimeter of the building, on the front sides inserts are attached. The outer layer of the outer wall is placed behind the face of the overlay plate and aligned with an angle that is fixed to the inserts hard. The inner layer of the outer plate is formed of hollow blocks. At least part of the outer layer of the outer wall is formed of bricks and reinforced with reinforcement cages. Separate cores layered at the level of a hollow block form an inner wall layer, each reinforcing cage being connected to a hollow block by means of a T-shaped plate. The outer edge of the wall is placed behind the front of the W-shaped consoles. In the outer layer of the outer wall, ie in the plane of the cover plate, hollow blocks of blocks are aligned to a height that is equal to the cover plate. The space between the W-shaped brackets, the angle between the brackets and the hollow blocks and the constructive space between the wall and the lower part of the cover plate are z. B. filled with foam polyurethane. The cavities of the blocks are lightweight foam concrete or z. B. filled with foam polyurethane, wherein at least a portion of the horizontal and vertical spaces is provided with a fitting and with a rust-proofing. In the cavities of the blocks reinforcing baskets are introduced and filled with heavy concrete, wherein on the outer wall portion of a heat protective material is applied, for. As foam polyurethane, either foam polystyrene or mineral wool, with a protective coating. The hollow blocks are formed of structural foam concrete, either of Keramite concrete or burned ceramics, each hollow block having partitions in which through openings are formed towards the center. After the upper and lower end faces of the partitions two half-openings are provided.

However, the construction of the outer wall of a building requires an increased workload, does not exclude the execution of "wet processes" and also increases the weight of the building.

It is an object of the invention to develop a skeleton structure for a building, which has increased thermal properties of the outer walls, reduces the workload in the assembly of the outer walls regardless of the climatic conditions and the season of work execution, avoiding wet processes and the comfort, the reliability and increased the carrying capacity of the skeleton construction. In addition, a reduction in the overall weight of the building and the formation of an expressive architectural design of the building using modern materials and constructions is to be achieved.

The stated object is solved by the features of claim 1.

The skeleton structure for a building has cover plates with consoles and columns, with the console supporting multi-layered outer walls including an inner layer, a middle layer and a facade layer. According to the invention, each console is in the form of a trapezoid, the larger base dimension merges into the cover plate. The length of the console is no greater than the thickness of the outer wall, with the inner layer of the outer wall forming a room panel of lightweight thin-walled elements - belts, columns, struts in combination. The space between the consoles, the inner layer and the facade layer of the outer wall is filled with heat protective material.

In addition, the width of the lightweight thin-walled element is equal to the thickness of the outer wall without the thicknesses of the facing layer and the inner layers and the fastening elements of the facade layer, i. H. the waterproof, windproof and steam-insulating layers.

The outer wall is built on the cover plate, with the room panel with ¾ part of its thickness placed on the consoles and at least 1/4 of its thickness on the cover plate. The distance of the columns in the room panel is equal to the distance of the brackets to the cover plate. The wall of each lightweight thin-walled element is perforated, with the perforation extending no more than half the width of the wall of the lightweight thin-walled element.

The fastener element of the facing layer, which is made of block pieces, is formed in the form of an additional support of a C-shaped profile and an elastic element, the ends of which are not closed and formed in the form of gripping. The additional support is connected to the room panel. The ends of the C-shaped profile of the additional support are bent into the profile, and the grips of the elastic element are guided behind the bent ends of the C-shaped profile.

The elastic element in the form of a geometric figure is formed either of a plate or a wire rod, wherein the thickness or the diameter of the elastic member are not smaller and not larger than the thickness of the wall joint of the piece blocks. The height of the elastic element is not greater than the thickness of the facade layer of the outer wall.

Fig. 1

ein Fragment eines Gebäudes mit einer montierbaren äußeren Wand und einer Überdeckungsplatte mit Konsolen,

Fig. 2

die Ansicht in Richtung A der Fig. 1,

Fig. 3

eine Vereinigung eines Raumpaneels und einer Fassadenschicht der äußeren Wand, die aus Stückblöcken gebildet ist,

Fig. 4

eine Vereinigung eines elastischen Elements mit einer zusätzli- chen Stütze mit C-förmigem Profil und

Fig. 5

ein elastisches Element in der Form von verschiedenen geometrischen Figuren.

The invention will be explained in more detail with reference to an embodiment shown in the drawings. Show it:

Fig. 1

a fragment of a building with a mountable outer wall and a cover plate with consoles,

Fig. 2

the view towards A the Fig. 1 .

Fig. 3

a union of a room panel and a facade layer of the outer wall formed of blocks of pieces,

Fig. 4

a combination of an elastic element with an additional support with C-shaped profile and

Fig. 5

an elastic element in the form of different geometric figures.

The skeleton construction has a cover plate 1 with brackets 2, which is constructed on columns 3. On the console 2 are based multilayer outer walls, which have an inner layer 4 and a facade layer 5 and several Layers can exist. Each bracket 2 of the overlay plate 1 is formed in the shape of a trapezoid whose larger base dimension merges with the overlay plate 1. The length L of the brackets 2 is smaller than the thickness N of the outer wall (L <N). Such a configuration of the bracket 2 reinforces the cover plate 1 and increases the carrying capacity of the bracket 2 on which the mounting of the outer wall is performed.

To achieve a lightweight construction of the building, the inner part of the outer wall is designed as Raumpaneel with light thin-walled elements. The Raumpaneel is formed of belts 6, columns 7 and struts 8 in the composite. The space between the brackets 2 of the inner layer 4 and the facade layer 5 of the outer wall is filled with a heat protective material 9. The thermal protector 9 may be mineral wool, basalt fiber, cellulose heat-protective material, foam polystyrene, foam polyurethane and the like. be a.

The lightweight thin-walled element, z. As the support 7 or the belt 6 is equal in width B of the thickness N of the outer wall, minus the thicknesses of the facade panel 5, the inner layers 4 and the fasteners, which are formed in the shape of a pit profile 10. The facade layer 5 and a waterproof layer 11 are arranged on the outside of the Raumpaneels, while on the inside over a vapor-insulating layer 12 and the inner layer 4, the Raumpaneel is covered. For this, water-resistant linen and a steam-insulating film can be used.

The outer wall is constructed on the cover plate 1 thanks to the lightweight construction of the room panel, the room panel being placed on the trapezoidal consoles 2 with a ¾ part of its thickness B and 1/4 part of its thickness B on the cover plate 1. The distance of the supports 7 in the Raumpaneel is equal to the distance of the brackets 2 of the cover plate 1. The wall of each light thin-walled element in the Raumpaneel is with a perforation 13, the in offset rows is provided. The perforation 13 does not extend in width more than half the width of the lightweight thin-walled member and therefore does not reduce its hardness. However, the thermal properties of the construction are increased.

The installation of the building is realized in the following way:

A skeleton of the building is erected, including the cover plate 1 with the brackets 2 placed on the columns 3. Then the outer wall is set up, for which the Raumpaneel with the belt 6 is placed on the brackets 2 so that the struts 7 lie directly on the brackets 2. You take about a ¼-part on the cover plate 1 and a ¾-part on the consoles 2. Under the Raumpaneel a water-heat insulating insert 14 is arranged.

Thereafter, a waterproof film and / or a waterproof layer 11 is applied to the Raumpaneel on the outside of the Raumpaneels and also the mine construction profiles 10. On the mine construction profiles 10, the facade layer 5 is attached. Later, on the inner side of the room panel, the inner layer 4 of the outer wall is fixed, while the steam insulating layer 12 has been previously attached. The cavities between the inner layer 4 and the facade layer 5 are filled with heat protective material 9.

In the case of producing a facade layer 5 with block pieces 15, a fastening element for the block pieces 15 on the room panel in the form of an additional support 16 of a C-shaped profile and an elastic member 17 are used. The ends of the elastic member 17 are not closed and take the form of seizures. The additional support 16 is firmly connected to the Raumpaneel. The ends of the C-shaped profile are bent into the profile. The seizures of the elastic element 17 are behind the bent Guided ends of the C-shaped profile and form a solid connection that holds the block blocks consisting of blocks 15 securely.

The elastic member 17 is formed in the shape of geometric figures, for. B. in the form of a triangle, in the form of letters "Π" or "Ω", which are made of a plate or a wire rod. The thickness or the diameter of the elastic member 17 are not smaller and not larger than 1/4 part of the size t of the wall joint 18 between the unit blocks 15. The height h of the elastic member 17 is smaller than the thickness of the outer layer wall layer 5.

After assembling the outer walls in the new construction, the inner walls and partitions are erected using the known technology.

The application of the new technical solution has allowed to create elements of skeleton construction which increase the thermal properties of the outer wall, reduce the labor costs for the assembly of the skeleton construction, including the outer wall regardless of the climatic conditions. Here, "wet processes" are excluded due to the use of room panels. The construction increases the reliability and carrying capacity of the skeleton construction, reduces the overall weight of the building and gives the building an expressive architectural facade, as the construction uses modern materials.

Claims (6)

A skeleton construction for a building with cover plates (1), with brackets (2) and columns (3), wherein on the brackets (2) are supported multilayer outer walls comprising an inner layer (4), a middle layer and a facade layer (5 ) lock in,
characterized,
in that each bracket (2) is formed in the form of a trapezoid whose larger base dimension merges into the covering plate (1),
that the length (L) of the brackets (2) is not greater than the thickness of the outer wall, wherein the inner layer (4) of the outer wall a Raumpaneel of lightweight thin-walled elements - belt (6), supports (7), struts ( 8) in the compound - forms and
that the space between the brackets (2), the inner layer (4) and the facade layer (5) having thermal insulation material (9) is filled. Skeleton construction for a building according to claim 1,
characterized,
that the width (B) of the lightweight thin-walled element, the thickness of the outer wall without the thicknesses of the facade layer (5), the inner layer (4) of the outer wall and the fastening elements of the facade layer (5), a waterproof, wind-proof and vapor-insulating layer, is equal to. Skeleton construction for a building according to claim 1,
characterized,
that the outer wall is built on the cover plate (1), the room panel being placed with a part of ¾ of its thickness on the brackets (2) and with a part of ¼ of its thickness on the cover plate (1). Skeleton construction for a building according to claim 1,
characterized,
that the distances of the brackets (2) on the cover plate (1) correspond to the distance of the supports (7) in the Raumpaneel and
in that the wall of each lightweight thin-walled element is provided with a perforation (13) which does not extend more than half the wall width of the lightweight thin-walled element. Skeleton construction for a building according to claim 1,
characterized,
in that the fastening element for a facade layer (5) produced from unit blocks (15) in the form of an additional support (16) is formed from a C-shaped profile and an elastic element (17) whose ends are not closed and formed in the form of gripping are that the ends of the C-shaped profile of the additional support (16) are bent into the profile and
that the gripping of the elastic element (17) are guided behind the bent ends of the C-shaped profile. Frame construction for a building according to claim 5,
characterized,
in that the elastic element (17) in the form of a geometric figure is formed either from a plate or a wire rod, the thickness or diameter not being smaller or smaller than the thickness (t) of the wall joint (18) of the piece blocks (15) are and
that the height (h) of the elastic member (17) is not greater than the thickness of the facade layer (5) of the outer wall.

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