RU193708U1 - MULTILAYER WALL OF MONOLITHIC DOME BUILDING - Google Patents

Abstract

The utility model relates to construction and is intended for the construction of mainly residential, monolithic dome buildings. The technical result is to reduce the material consumption and the complexity of manufacturing the wall and is achieved due to the fact that the multilayer wall of a monolithic dome building with a multifaceted horizontal section contains layers (from inside to outside): a layer of sheet material, bearing a concrete layer, a layer of insulation and an external protective and decorative concrete layer, moreover, the layer of sheet finishing material is mounted to the supporting concrete layer due to adhesion during hardening of concrete applied to the sheet finishing mat The series in the manufacture of the wall, while bearing and protective and decorative monolithic concrete layers, along the normals to their surfaces, through the insulation, are connected into a single power structure by bonds in the form of segments of composite reinforcement, the ends of which are monolithic in both concrete layers. 6 c.p. f-ly, 2 ill.

Description

The utility model relates to construction and is intended for the construction of mainly residential monolithic domed buildings {E04B 1/32].

The SPHERICAL SPATIAL STRUCTURE is known from the prior art [RU132815, Publ .: 04.09.2012], comprising a sphere frame, characterized in that the frame is made of thin-walled profile sections connected to form hollow cells, while the profile cross-sectional area ensures that the conditions for creating a self-supporting frame without taking into account external loads, hard finishing material in the form of sheets or plates is attached to the sections of the cell profiles, with the formation of the bottom of the cells, while the shape of the insulation material is congruent with the shape of the cells on which solid thermal insulation material has been laid, the shape of which is also congruent with the shape of the respective cells, while the grooves formed between adjacent insulation plates are filled to a part of their depth with hardening or solid insulation material, and the remaining free space is filled with reinforcing cage and concrete, while the concrete is removed reinforcing "mustache" interacting with the volumetric cellular structure laid on the entire surface of the sphere on the insulation material on which the concrete is applied, while the concrete coating is about removable mesh structure made waterproof.

The main technical problem of the prototype is the complexity of the design of the dome wall, due to the need for the construction of the wall of the metal frame. Declared in the known device, the increase of rigidity and strength of the wall structure due to the fastening of hard finishing material to the frame is a dubious factor, since in the vast majority of cases gypsum board with low strength is used as the finishing material. In addition, there is laborious work of attaching sheets or plates from the inside to the frame.

The objective of the utility model is to eliminate the disadvantages of the prototype.

The technical result of the utility model is to reduce the material consumption and the complexity of manufacturing the wall.

The specified technical result is achieved due to the fact that the multilayer wall of a monolithic dome building with a multifaceted horizontal section contains layers (from inside to outside): a layer of sheet decorative material, bearing a concrete layer, a layer of insulation and an external protective and decorative concrete layer, moreover, a layer of sheet decorative the material is mounted to the supporting concrete layer due to adhesion during hardening of concrete applied to the sheet finishing material in the manufacture of the wall, while bearing and protective-decorative first monolithic concrete layers along the normals to the surfaces thereof through the insulation, are connected to a single load-bearing structure links in the form of segments of composite reinforcement, the ends of which is hardwired to both the concrete layers.

In particular, the horizontal section of the wall is made in the form of a regular polygon.

In particular, the sheet material of the inner lining is made in the form of drywall.

In particular, the monolithic mixture of the protective and decorative layer is made on the basis of white cement with the addition of pigments.

In particular, a monolithic mixture of a bearing and protective-decorative layer contains basalt fiber.

In particular, a monolithic mixture of a protective and decorative layer contains a hydrophobizing additive.

In particular, the surface of the sheet of decorative material in contact with the supporting concrete layer is coated with a contact primer.

A brief description of the drawings.

In FIG. 1 shows a schematic fragment of a vertical section of a multilayer wall of a monolithic dome building.

In FIG. 2 shows a fragment of a vertical section of the claimed multilayer wall of a monolithic dome building assembled with a removable inner formwork.

The figures indicate: 1 - sheet decoration material, 2 - bearing concrete layer, 3 - insulation, 4 - protective and decorative concrete layer, 5 - bond, 6 - removable inner formwork, 7 - mounting screws, 8 - wood material, 9 - holes.

Implementation of a utility model.

The multilayer wall of the monolithic domed building contains a layer of sheet decorative material 1 (see Fig. 1) mounted to the supporting concrete layer 2 due to adhesion on which the insulation 3 is fixed (fastening elements not shown). An external protective and decorative concrete layer 4 is mounted on the insulation 3. The bonds 5 are mounted at one end in the supporting concrete layer 2, and the other end in the external protective and decorative concrete layer 4.

The removable inner formwork 6 (See FIG. 2) is mounted inside to the layer of sheet material 1 and contains mounting screws 7 screwed from the inside through the formwork and through the layer of sheet material into the pieces of wood material 8. Holes 9 are made in the pieces of wood material 8, in which are mounted with an interference fit at one end of the connection 5.

The laminated wall of a monolithic dome building is used as follows.

First, for the entire domed building or in the form of a rearranged section, a removable inner formwork 6 is installed, the outer surface of which, after being installed in the design position, is made in the form of the inner surface of the wall of the domed building.

As an example, we will consider the option of using formwork 6 not immediately under the entire dome building, but in the form of a rearranged section, with the help of which a part of the wall of the dome building is formed in the form of one or more petals (the petal is the upper half of a spherical two-sided rectangle with a vertex at the zenith of the dome). Since the horizontal section of the inner surface of the wall has the appearance of a polyhedron, the petal has a cylindrical surface. Pre-cut in shape and size of the outer surface of the formwork section 6, the sheet finishing material 1 is placed on the outer surface of the formwork section 6 and attached, with some bending along the curvature of the formwork, using mounting screws 7 that pass through holes previously drilled in the formwork section 6 and screwed through the sheet of finishing material 1 into pieces of wood material 8, thereby pressing the sheet of finishing material 1 to the formwork section 6. Moreover, in pieces of wood material 8 in advance under the prepared holes 9 are already inserted with a tightness of connection 5 in the form of segments of composite reinforcement with a diameter of 6 mm. The length of the ties 5 is equal to the thickness of the cake wall. The number of bonds 5 is determined by calculation.

Next, a reinforcing mesh (not shown in the figures) is fixed to the outer surface of the sheet formwork material 6 fixed to the formwork section 6 and the concrete mixture is applied in any way (spraying, spraying, shotcrete) to obtain a bearing concrete layer 2, the thickness of which is determined by calculation. After the concrete mixture has cured, the screws 7 are turned out of the formwork 6, the formwork section 6 is moved to the next position and this cycle is repeated until a complete bearing concrete layer 2 of the entire dome is obtained. The result is a bearing concrete layer 2 with finished internal finish with sheets of finishing material 1, attached to the bearing concrete layer due to adhesion, with protrusions protruding outward, normal to its surface, by bonds 5.

Next, a layer of insulation 3, for example, made in the form of basalt fiber with a density of 45-50 kg / m, is installed and fixed with some bending to the bonds 5 protruding outwardly onto the supporting concrete layer. cube The thickness of the insulation is determined by the need for heat resistance of the wall and is determined by calculation. Insulation 3, for example, in the form of plates with dimensions in the plan of 600x1200 mm, is positioned with the long side horizontally between the rows of ties 5 protruding from the bearing concrete layer.

A reinforcing mesh is installed and fixed over the insulation 3 (not shown in the figures) and applied in any way (spraying, spraying, gunning) a protective and decorative layer of concrete 4 1-2 cm thick. Bonds 5 in this case additionally serve as beacons.

The technical result of the utility model is to reduce the material consumption and the complexity of manufacturing the wall due to the fact that during the construction of the wall they mount a single power structure made of ties 5 connecting the supporting 2 and protective and decorative 4 monolithic concrete layers, the sheet finishing material 1 is mounted to the supporting concrete layer 2 due to adhesion, and the wall lining is made of a protective and decorative layer 4.

Claims (7)

1. A multilayer wall of a monolithic dome building with a multifaceted horizontal section, containing layers (from inside to outside): a layer of sheet decorative material bearing a concrete layer, a layer of insulation and an external protective and decorative concrete layer, and the layer of sheet decorative material is mounted to the supporting concrete layer behind adhesion during the hardening of concrete applied to the sheet finishing material in the manufacture of the wall, while the bearing and protective and decorative monolithic concrete layers, along the normals to their surfaces through the insulation, connected in a single power structure by bonds in the form of segments of composite reinforcement, the ends of which are monolithic in both concrete layers. 2. The wall according to claim 1, characterized in that the horizontal section of the wall is made in the form of a regular polygon. 3. The wall according to claim 1, characterized in that the sheet material of the inner lining is made in the form of drywall. 4. The wall according to claim 1, characterized in that the monolithic mixture of the protective and decorative layer is made on the basis of white cement with the addition of pigments. 5. The wall according to claim 1, characterized in that the monolithic mixture of the supporting and protective-decorative layer contains basalt fiber. 6. The wall according to claim 1, characterized in that the monolithic mixture of a protective and decorative layer contains a water-repellent additive. 7. The wall according to claim 1, characterized in that the surface of the sheet of decorative material in contact with the bearing concrete layer is coated with a contact primer.

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