RU73889U1 - BUILDING WALL (OPTIONS) - Google Patents

Abstract

The technical result achieved by using technical solutions is to simplify installation work, reduce their costs, increase the pace of construction, expand the assortment and options for the erection of building structures, increase the strength to absorb the main loads due to the joint work of the layers of the structure; including the result is to increase the impact strength and crack resistance of the structure, due to the transfer of shrinkage and temperature stresses of concrete to the outer layers of glass-magnesium sheets. The result also consists in improving the thermal characteristics of the wall, reducing labor costs for painting and reducing the volume of finishing materials, as well as increasing fire resistance, improving sound insulation, reducing the weight of the wall without losing strength characteristics. Another result obtained is the provision of an improved microclimate of the premises of buildings erected using the described technology, including the use of environmentally friendly, vapor-permeable materials. The wall in the first embodiment is characterized in that it contains enclosing the inner and outer layers having inner and outer surfaces, while the main body of the wall is located between the inner surfaces of the enclosing layers, in the thickness of which at least one insert having a lattice structure is located, formed by interconnected longitudinal and transverse elements. Each insert is located along the height of the wall between its layers, across the wall and along it, on the transverse elements of the insert along the entire length of the wall, there are rigid first reinforcing meshes, alternately with which flexible second reinforcing meshes are located in the wall array along its height. The outer layer of the wall is made with the lower and upper flanges directed towards the wall massif, the lower of which is monolithic in the lower end part of the wall massif and is flush with this

end part, and the upper flanging is located above the upper end part of the wall array. Each wall sheathing layer is connected by connecting elements to the insertion elements, at least one inner sheathing layer is made of glass-magnesium sheet based on magnesium chloride containing glass fiber. The outer side of each glass-magnesium sheet is made smooth, the inner side of the glass-magnesium sheet is roughened, and the rough side is adhesively bonded to the wall array, which is made of concrete with polystyrene dispersed in it. The wall in its second embodiment is characterized in that it contains an inner enclosing layer and at least two outer enclosing layers, each specified enclosing layer has inner and outer surfaces, while the main wall array is located between the inner surfaces of the enclosing layers. In the thickness of the wall array, the latches of these layers and / or frames and / or reinforcing mesh are located, and the main wall array is made of concrete with a heater uniformly dispersed in it, mainly polystyrene, at least one, mainly, internal enclosing layer made of glass magnesium sheet based on magnesium chloride containing glass fiber, preferably in the form of fiberglass. The outer side of each glass-magnesium sheet is made smooth, and its inner side is roughened, adhesively bonded to the wall array, with at least one end of each retainer made with a supporting wide part abutting against the inner surface of the inner layer, and this end is rigidly connected with an inner layer. The second end of the latch is located between the flanges that are made at the ends of adjacent outer enclosing layers, the second end of the latch made with a narrow part, in comparison with the wide part

latch, and this narrow part is located between the flanges in such a way that between the flanges of the layers, the end of the narrow part of the latch forms a recess in which the sealant is located, while the flanges are connected to the narrow part of the latch by connecting elements, for example rivets. Between the enclosing layers, in a layer along the height of the wall, there is a metal frame with longitudinal and transverse rods, each outer layer is shorter than the inner layer along the length of the wall, the outer layers are interconnected by a latch, the length of the inner layer is greater than the length of each outer layer, the junction of the latch with the inner the layer is located opposite the junction of the latch with two outer layers. The wall in its third embodiment is characterized in that it contains enclosing the inner and outer layers having inner and outer surfaces, while between the inner surfaces of the enclosing layers there is a main wall array made of concrete, mainly polystyrene concrete, in the thickness of which is located at least at least one, predominantly reinforced stiffener core, as well as retainers or inserts. At least one enclosing layer is made of a glass-magnesium sheet based on magnesium chloride containing glass fiber, the outer side of each glass-magnesium sheet is smooth, the inner surface of each glass-magnesium sheet is roughened and adhesively bonded to the wall array. 3 independent claims, l6 illustrations.

Description

The technical solution presented in this description relates to the field of industrial and civil construction, in particular, to the construction of wall elements of buildings, such as load-bearing, self-supporting, curtain walls.

A multilayer monolithic wall of a building is known from the prior art, containing the outer and inner walls of fixed formwork, between which a layer of aggregate made of polystyrene concrete is placed, in the core layer with a gap relative to the outer wall of fixed formwork, an additional frame made of metal profiles is attached, which is attached to the inner wall of fixed formwork and connected to the outer wall of the fixed formwork using flexible connections, while the gap between the frame of the metal profile it and the outer wall of a fixed formwork is 0.2-0.5 of the thickness of the aggregate layer (RU 2215097 C1, EV 2/86, 10.27.2003).

Also known from the prior art is a building frame comprising frame-forming elements, external and internal fixed formwork mounted on both sides of the frame-forming elements, and the space between the formwork and frame-forming elements is filled with a hardening solution, and the frame-forming elements are made in the form of racks, mainly in the form of bent profiles , in pairs

equipped with thermal insulation inserts and staggered in guiding elements in staggered rows, the profiles are made U-shaped in cross section and horizontally mounted on the foundation and floor of the building, while frame-forming elements are at least supports for fastening fixed formwork (RU 2006100653A, Е04В 1/00, 07.20.2007).

Also known from the prior art is a monolithic wall structure comprising a frame of supporting elements and a fixed formwork attached to the supporting elements of the frame with the formation of a cavity filled with insulation material, and the supporting elements of the frame made in the form of pairwise mounted panels fastened together along the longitudinal axis by a stiffener with holes on its plane, while the supporting elements of the frame, stiffener, formwork and insulation material are made of homogeneous mineral material and (RU 49047U1, E04V 2/86, 10.11.2005).

Known formwork for the manufacture of concrete walls, including the first and second panels made of high density foam, each of which has an inner and outer surface, upper and lower surfaces, as well as two end surfaces. The panels are parallel to one another and face each other with internal surfaces. Between the panels and through the panels there are at least two ties formed in the panel. Each connection contains two elongated end plates oriented in a vertical plane between the upper and lower surfaces of the panels and resting on the outer surfaces of the panels. Said elongated end plates extend substantially from the upper to lower surfaces of the panels and at least one jumper wire rigidly connecting the elongated end plates. Each indicated jumper is oriented in a vertical plane and has a height in this plane that is substantially smaller than the vertical size

these panels and significantly less than the vertical size of these end plates (WO 9423145 A, EV 2/86, 10.13.1994).

The technical result achieved by using technical solutions according to the claimed utility model is to simplify installation work, reduce their costs, increase the pace of construction, expand the assortment and options for erecting building structures, increase tensile and bending strength due to the joint work of the layers of the structure; including the result is to increase the impact strength and crack resistance of the structure, due to the transfer of shrinkage and temperature stresses of concrete to the outer layers of glass-magnesium sheets. The result also consists in improving the thermal characteristics of the wall, reducing labor costs for painting and reducing the volume of finishing materials, as well as increasing fire resistance, improving sound insulation, reducing the weight of the wall without losing strength characteristics. Another result obtained is the provision of an improved microclimate of the premises of buildings erected using the described technology, including the use of environmentally friendly, vapor-permeable materials.

The specified result was obtained by the wall of the building (the first option), characterized in that it contains at least two enclosing layers - the inner and outer layers having inner and outer surfaces, while the main wall array is located between the inner surfaces of the enclosing layers, in the thickness which has at least one insert having a lattice structure formed by interconnected longitudinal and transverse elements, each insert being located along the height of the wall between its layers, pop The wall wall and along it, on the transverse elements of the insert along the entire length of the wall, there are rigid first reinforcing meshes, alternately with which flexible second reinforcing meshes are located in the wall array along its height, the outer layer of the wall is made with directed

the side of the wall massif with the lower and upper flanges, the lower of which is monolithic in the lower end part of the wall massif and is flush with this end part, and the upper flanging is located above the upper end part of the wall massif, each wall envelope is connected by connecting elements with insertion elements at least one inner cladding layer is made of magnesium chloride sheet based on magnesium chloride containing fiberglass, preferably fiberglass, the outer side of each glass Magnesium sheet is smooth, the inner side of glass sheet is roughened, the roughened side adhesively associated with an array of walls, which is made of concrete with dispersed-dispersed therein polystyrene. In this embodiment of the wall, the insert is made of a polymeric material, for example, polyvinyl chloride.

The rigid first reinforcing nets are made of metal and the second reinforcing nets are made of fiberglass, while the reinforcing nets are evenly spaced along the height of the wall so that the hard first reinforcing nets are located at the bottom and top of the wall.

The rigid first reinforcing mesh is made of welded metal rods and / or in the form of perforated metal strips of light metal alloy.

The main wall array is made of lightweight expanded polystyrene concrete and / or foam concrete and / or gas silicate concrete and / or cellular concrete and / or expanded clay concrete.

The main wall array is made of heavy concrete, for example, heavy polystyrene concrete.

A layer of adhesive composition is applied to the inner rough surfaces of the enclosing layers facing the main massif of the wall. The adhesive composition layer is formed by G-2 adhesive.

The wall array contains polystyrene concrete or polystyrene foam with a density of D200 to D600.

The outer enclosing layer is made of glass-magnesium sheet. The external enclosing layer is made of Alucobond composite sheets. The external wall envelope is made of fiber-reinforced concrete. The outer cladding layer is reinforced with panels or panel blocks attached to it, for example fiber-reinforced concrete slabs.

The outer enclosing layer is lined with structurally decorative or decorative layers, for example, decorative bricks and / or wild stone, or panels, the front side of which is lined with, for example, decorative bricks or wild stone.

The outer side of the outer enclosing layer is painted and / or coated with a plaster composition, or glued with decorative or structural-decorative material.

The indicated result was obtained by the wall (the second option), characterized in that it contains an inner enclosing layer and at least two outer enclosing layers, each specified enclosing layer has inner and outer surfaces, while the main wall array is located between the inner surfaces of the enclosing layers , in the thickness of which are latches of the indicated layers and / or frames and / or reinforcing mesh, and the main wall array is made of concrete with a uniformly dispersed insulation in it, pre essentially, polystyrene or polystyrene concrete, at least one, mainly, the inner cladding layer is made of a magnesium glass sheet based on magnesium chloride containing glass fiber, preferably in the form of fiberglass, the outer side of each glass magnesium sheet is made smooth and its inner side is roughened adhesively bonded to the wall array, at least one end of each retainer is made with a supporting wide part abutting against the inner surface of the inside He layer,

and this end is rigidly connected to the inner layer, the second end of the latch is located between the flanges that are made at the ends of adjacent outer enclosing layers, the second end of the latch is made with a narrow part, in comparison with the wide part of the latch, and this narrow part is located between these flanges and connected with them in such a way that between the flanges and the end of the narrow part of the latch a recess is formed in which the sealant is located, while the narrow part of the latch is connected to the flanges of the layers by connecting elements, for example, rivets, between the enclosing layers, in a tier along the height of the wall, there is a metal frame having longitudinal and transverse rods, each outer layer is shorter than the inner layer along the length of the wall, the outer layers are interconnected by a latch, the length of the inner layer is greater than the length of each outer layer , the junction of the latch with the inner layer is located opposite the junction of the latch with two outer layers. Each clamp is made of a polymeric material, for example, polyvinyl chloride.

The rigid first reinforcing nets are made of metal and the second reinforcing nets are made of fiberglass, while the reinforcing nets are evenly spaced along the height of the wall so that the hard first reinforcing nets are located at the bottom and top of the wall.

The rigid first reinforcing mesh is made of welded metal rods and / or in the form of perforated metal strips of light metal alloy.

The main wall array is made of lightweight expanded polystyrene concrete and / or foam concrete and / or gas silicate concrete and / or cellular concrete and / or expanded clay concrete. The main wall array is made of heavy concrete, for example, heavy polystyrene concrete.

A layer of adhesive composition is applied to the inner rough surfaces of the enclosing layers facing the main massif of the wall. The adhesive composition layer is formed by G-2 adhesive.

The wall array contains polystyrene concrete or polystyrene foam with a density of D200 to D600.

Each outer cladding layer is made of glass-magnesium sheet. Each outer cladding layer is made of Alucobond composite sheets. Each outer wall covering is made of fiber-reinforced concrete panels. Each outer enclosing layer is reinforced with panels or panel units attached to it, for example fiber-reinforced concrete panels.

The outer side of each outer enclosing layer is lined with structurally decorative or decorative layers, for example, decorative bricks and / or wild stone, or panels whose front side is lined with, for example, decorative bricks or wild stone.

The outer side of each external enclosing layer is painted and / or coated with a plaster composition, or glued with decorative or structural-decorative material.

The indicated technical result was obtained by a wall (third option), characterized in that it contains enclosing inner and outer layers having inner and outer surfaces, while between the inner surfaces of the enclosing layers there is a main wall array made of concrete, mainly polystyrene concrete, in the thickness of which at least one predominantly reinforced stiffening core is located, as well as retainers or inserts, and at least one enclosing layer is made of glass-magnesium of a magnesium chloride-based sheet containing glass fiber, preferably fiberglass, the outer side of each glass-magnesium sheet is smooth, the inner surface of each glass-magnesium sheet is roughened and adherent to the wall array.

The core of rigidity is limited by a fixed formwork. Fixed formwork is made of fragments of a glass-magnesium sheet, for example strips, which

fastened by corners and connecting elements, preferably self-tapping screws.

Fixed formwork is attached to one and / or connected to one of the enclosing layers by corners and connecting elements, preferably self-tapping screws.

Figure 1 shows a cross section of a first embodiment of a monolithic wall in a transverse vertical plane; figure 2 - the second version of the first variant of the wall in the form of a block; figure 3 - arrangement of walling layers of the wall in the spatial image; figure 4 is a wall lined with facing elements; figure 5 is a fragment of the wall; figure 6 is a cross section of the second variant of the wall in the longitudinal horizontal plane; figure 7 - connection of the enclosing layers with a retainer in the end part of the wall; on Fig - connection of the enclosing layers of the retainer in the middle part of the wall; figure 9 is a cross section of a third variant of the wall in a longitudinal horizontal plane with a core of rigidity, located at a distance from one of the enclosing layers of the wall; figure 10 is a cross section of a third version of the wall in the longitudinal horizontal plane with a core of rigidity, docked to the inner wall layer of the wall; 11-16 are axonometric images of fragments of three wall options. 11-16 are not included in the description.

In the first embodiment, the wall of the building (Figs. 1-5) comprises an inner enclosing layer 1 and an outer enclosing layer 2 having, respectively, inner and outer surfaces 3 and 4, while the main array 5 of the wall is located between the inner surfaces 3 of the enclosing layers. In the thickness of the latter is located at least one insert 6 having a lattice structure formed by interconnected longitudinal and transverse elements 7 and 8, respectively.

Each insert is located along the height of the wall between its layers 1 and 2, across the wall and along it. On the transverse elements 8 of the insert along the entire length of the wall are the rigid first reinforcing mesh 9, alternately with

which are located in the array 5 of the wall along its height, the flexible second reinforcing mesh 10.

The outer layer 2 of the wall is made with the lower and upper flanges 11 and 12 directed towards the wall array, respectively. The lower flange 11 is monolithic in the lower end portion 13 of the wall array 5 and is flush with this end portion, and the upper flange 12 is located above the upper end portion 13 of the wall array 5. Each enclosing layer 1 and 2 of the wall is connected by connecting elements 14 with the elements of the insert 6.

At least one - the inner enclosing layer 1 - is made of a glass-magnesium sheet based on magnesium chloride containing glass fiber, preferably fiberglass (not shown). The outer surface 4 of each glass-magnesium sheet is smooth, the inner surface 3 of the glass-magnesium sheet is roughened (not disclosed), and the rough surface is adhesively bonded to the wall array 5, which is made of concrete with dispersed-distributed polystyrene in it (component not shown). The insert 6 is made of a polymeric material, for example, polyvinyl chloride.

The rigid first reinforcing mesh 9 is made of metal, and the second flexible reinforcing mesh 10 is made of fiberglass, while the reinforcing mesh 9 and 10 are evenly spaced along the height of the wall so that the hard first reinforcing mesh 9 is located at the bottom and top of the wall. the versions are made of metal rods welded together and / or in the form of perforated metal strips (not shown), which are made of a light metal alloy.

This technical solution provides for various versions of the main array 5 of the wall, which in one version is made of lightweight expanded polystyrene concrete and / or foam concrete and / or gas silicate concrete and / or cellular concrete and / or expanded clay concrete. The main array of the wall 5 in another design is made of heavy concrete, for example heavy

polystyrene concrete. An array of walls containing polystyrene concrete or expanded polystyrene concrete has a density of D200 to D600.

At least one layer of the adhesive composition, for example, G-2 adhesive, is applied to the inner rough surfaces 3 of the enclosing layers facing the main body 5 of the wall.

In one version of the wall, the outer cladding layer 2 is made of glass-magnesium sheet, in another version, the layer is made of Alucobond composite aluminum sheets, in the third wall version, the outer wall cladding is made of fiber-reinforced concrete.

The outer enclosing layer 2 is reinforced with panels or panel blocks 15 connected to it, for example, fiber-reinforced concrete (Fig. 5). The outer enclosing layer 2 in another embodiment is lined with structurally decorative or decorative layers, for example, decorative bricks 16 (Fig. 4) and / or wild stone, or panels 17, the front side of which is faced, for example, with decorative bricks 16 or wild stone.

In the third embodiment, the outer surface of the outer enclosing layer 2 is painted and / or coated with a plaster composition, or glued with a decorative or structurally decorative material.

In the second embodiment, the wall (Fig. 6), as in the first embodiment, contains an inner enclosing layer 1 and an outer enclosing layer 2 having, respectively, inner and outer surfaces 3 and 4, while between the inner surfaces 3 of the enclosing layers The main array of 5 walls. Along the entire length of the wall are rigid reinforcing mesh 9.

In the second embodiment, the wall contains at least two external enclosing layers 2, with each specified enclosing layer having inner and outer surfaces 3 and 4, while the main array of the wall is located between the inner surfaces of the enclosing layers, in the thickness of which there are latches 18 of these layers and / or frames,

(for example, inserts 6 of the first version of the wall) and / or reinforcing nets forming the metal frame of the wall, and the main array of the wall 5 is also made of concrete with evenly dispersed predominantly polystyrene, which serves as insulation.

At least one mainly inner lining layer 1 is made of a glass-magnesium sheet based on magnesium chloride containing glass fiber, the outer surface of each glass-magnesium sheet is made smooth and its inner surface is roughened, adhesively bonded to the wall array 5.

At least one end of each latch 18 is made with a supporting wide part 19 abutting against the inner surface 3 of the enclosing inner layer 1, and this end is rigidly connected to the inner layer.

The second end 17 of the latch 18 is located between the flanges 20 and 21, which are made at the ends of the adjacent outer enclosing layers 2. The second end of the latch is made with a narrow part 22 (Fig.7, 8), in comparison with the supporting wide part 19 of the latch. The narrow part 22 of the latch is located between these flanges so that between them and the end of the narrow part 22 of the latch a recess 23 is formed in which the sealant 24 is located, while the narrow part of the latch is connected to the flanges of the layers 1 and 2 by connecting elements 14, for example, rivets.

Between the enclosing layers 1 and 2, in a tier along the height of the wall, said inserts or, mainly, a metal frame having longitudinal and transverse rods are located.

Each outer enclosing layer 2 in the second embodiment of the wall is shorter than the inner layer 1 along the length of the wall. The outer layers 2 are interconnected by a latch at the junction 25 (Fig. 6), which is located opposite the junction 26 of the latch with the inner layer 1.

Each clamp is made of a polymeric material, for example, polyvinyl chloride.

The main array 5 of the wall in its second embodiment is made of lightweight polystyrene concrete and / or foam concrete and / or gas silicate concrete and / or cellular concrete and / or expanded clay concrete. The main array of the wall in its other design is made of heavy concrete, for example, heavy polystyrene concrete. A layer of adhesive composition, for example, G-2 adhesive, is applied to the inner rough surface 3 of the enclosing layers 1 and 2 facing the main wall array. The wall array contains polystyrene concrete or polystyrene foam with a density of D200 to D600.

Each outer cladding layer is made of glass-magnesium sheet. Each outer cladding layer 2 is also made of glass-magnesium sheet or it is made of Alucobond composite sheets. Each external wall covering layer 2 can be made of fiber-reinforced concrete. Each outer cladding layer is reinforced with panels or panel blocks attached to it, for example, fiber-reinforced concrete.

The outer side of each outer enclosing layer 2 is lined with structurally decorative or decorative layers, for example, decorative bricks and / or wild stone, or panels whose front side is lined with, for example, decorative bricks or wild stone.

The outer surface of each outer enclosing layer is painted and / or coated with a plaster composition, or glued with decorative or structurally decorative material.

In the third embodiment, the wall is characterized in that it contains enclosing the inner and outer layers 1 and 2 (Figs. 9, 10) having inner and outer surfaces 3 and 4, respectively, while the main array 5 of the wall is located between the inner surfaces of the enclosing layers, made of concrete, mainly polystyrene concrete, in the thickness of which at least one, mainly

reinforced stiffness core 27 (Fig.9). The wall also contains retainers 18 and / or inserts 6, and at least one enclosing layer 1 is made of glass-magnesium sheet based on magnesium chloride containing glass fiber. The outer surface 4 of each glass-magnesium sheet is made smooth, the inner surface 3 of each glass-magnesium sheet is roughened and adhesively bonded to the wall array.

The core of rigidity is limited by a fixed formwork 28 (figure 10), which is made of fragments of a glass-magnesium sheet, for example strips 29, which are fastened between the corners 30 by means of connecting elements 31, preferably self-tapping screws.

Fixed formwork 28 is adjacent to one and / or connected to one of the enclosing layers 1 or 2 by means of connecting elements 31 and corners 30.

The wall works in the first and second variants of its execution as follows. Static and dynamic load from the influence of the mass of the building and external influences on the wall is perceived by the array 5 of the wall (Fig.2 and 6) and its enclosing layers 1 and 2. Moreover, the enclosing layers 1 and 2 of the wall during the long-term operation of the building and the appearance of microcracks in the array 5 walls prevent the appearance of cracks on the outer surfaces 4 of the enclosing layers 1 and 2 due to greater flexibility and increased resistance to stretching of these layers in comparison with the array 5 of the wall. Mentioned loads are also perceived by inserts 6, reinforcing grids 9 and 10 and clamps 18, which are monolithic in array 5.

The wall in the third embodiment of its execution works similarly to the first two variants of the wall, and in contrast to these, the indicated loads are perceived by the stiffness core 27, associated with other similar stiffness cores of the building, as well as with the ceilings of the building.

The manufacture of the above-described walls (all three options) is carried out by installing in a vertical position the enclosing layers 2 and 3 of the wall

(FIG. 3), between which the inserts 6 and / or the clamps 18 are located and by means of which the enclosing layers 2 and 3 are connected. After the operations, the reinforcing mesh 9 and / or the flexible reinforcing mesh 10 are laid on the transverse elements of the inserts or on the clamps 18. After that, the cavity between the enclosing layers 1 and 2 is poured with the concrete described above, including its various options, differing in the percentage of components and their presence. After curing the concrete, it turns into an array of 5 walls. In this case, the enclosing layers due to the adhesion of the adhesive layer and the molecular interaction of the material of the glass-magnesium sheet from which the enclosing sheets or at least one enclosing sheet are made, are interlocked and monolithic and, after concrete has cured, are a solid wall monolith.

Claims (34)

1. The wall of the building (first option), characterized in that it contains enclosing the inner and outer layers having inner and outer surfaces, while the main body of the wall is located between the inner surfaces of the enclosing layers, in the thickness of which at least one insert is located having a lattice structure formed by interconnected longitudinal and transverse elements, wherein each insert is located along the height of the wall between its layers, across the wall and along it, on the transverse elements of the insert along the entire length of the wall there are rigid first reinforcing meshes, alternately with which flexible second reinforcing meshes are located in the wall array along its height, the outer layer of the wall is made with the lower and upper flanges directed towards the wall massif, the lower of which is monolithic in the lower end part of the wall massif and is flush with this end part, and the upper flange is located above the upper end part of the wall array, each wall layer being connected by connecting elements to the elements of the insert, at least one inner cladding layer is made of a magnesium chloride sheet based on magnesium chloride containing fiberglass, preferably fiberglass, the outer side of each magnesium glass sheet is smooth, the inner side of the magnesium glass sheet is roughened, and the rough side is adhesively bonded to the wall array, which made of concrete with dispersed polystyrene distributed in it. 2. The wall according to claim 1, characterized in that the insert is made of a polymeric material. 3. The wall according to claim 2, characterized in that the insert is made of polyvinyl chloride. 4. The wall according to claim 1, characterized in that the first reinforcing mesh is made of metal, and the second reinforcing mesh is made of fiberglass, while the reinforcing mesh is evenly spaced along the height of the wall so that the rigid first reinforcing mesh are located at the bottom and top of the wall. 5. The wall according to claim 4, characterized in that the rigid first reinforcing mesh is made of welded metal rods and / or in the form of perforated metal strips of light metal alloy. 6. The wall according to claim 1, characterized in that the main array of the wall is made of lightweight expanded polystyrene concrete and / or foam concrete and / or gas silicate concrete and / or cellular concrete and / or expanded clay concrete. 7. The wall according to claim 1, characterized in that the main array of the wall is made of heavy concrete, for example, heavy polystyrene concrete. 8. The wall according to claim 1, characterized in that on the inner rough surface of the enclosing layers facing the main array of the wall, a layer of adhesive composition is applied. 9. The wall of claim 8, wherein the adhesive composition layer is formed by G-2 adhesive. 10. The wall according to claim 1, characterized in that the wall array contains polystyrene concrete or polystyrene foam with a density of D200 to D600. 11. The wall according to claim 1, characterized in that the outer enclosing layer is made of glass-magnesium sheet. 12. The wall according to claim 1, characterized in that the outer cladding layer is made of Alucobond composite sheets. 13. The wall according to claim 1, characterized in that the outer enclosing layer of the wall is made of fiber-reinforced concrete panels. 14. The wall according to claim 1, characterized in that the outer enclosing layer is reinforced by panels or panel units attached to it, for example fiber-reinforced concrete. 15. The wall according to claim 1, characterized in that the outer cladding layer is lined with structurally decorative or decorative layers, for example decorative bricks and / or wild stone, or panels whose front side is lined with, for example, decorative bricks or wild stone. 16. The wall according to claim 1, characterized in that the outer side of the outer enclosing layer is painted and / or coated with a plaster composition, or glued with a decorative or structural-decorative material. 17. The wall (the second option), characterized in that it contains an inner enclosing layer and at least two outer enclosing layers, each specified enclosing layer has inner and outer surfaces, while the main wall array is located between the inner surfaces of the enclosing layers, in the thickness of which there are latches of the indicated layers, and / or frames, and / or reinforcing mesh, the main wall array is made of concrete with a uniformly dispersed insulation in it, mainly polystyrene, at least one, mainly the inner, cladding layer is made of a glass-magnesium sheet based on magnesium chloride containing glass fiber, the outer side of each glass-magnesium sheet is made smooth, and its inner side is roughened, adherently connected to the wall array, at least one end of each clamp is made with a supporting wide part abutting against the inner surface of the inner layer, and this end is rigidly connected to the inner layer, the second end of the clamp laid between the flanges that are made at the ends of adjacent outer enclosing layers, and this narrow part is located between these flanges and connected with them so that between the flanges and the end of the narrow part of the retainer there is a recess in which the sealant is located, while the narrow part of the retainer is connected with flanging of the layers with connecting elements, for example rivets, between the enclosing layers in a tier along the height of the wall there is a metal frame having longitudinal and transverse rods, each outer layer minutes shorter than the inner layer along the length of the wall, the outer layers are interconnected fixative length of the inner layer is greater than the length of each outer layer, compounds place detent with the inner layer located opposite the latch with compound two outer layers. 18. The wall according to 17, characterized in that each latch is made of polymeric material. 19. The wall according to p. 18, characterized in that the latch is made of polyvinyl chloride. 20. The wall according to claim 17, characterized in that the main array of the wall is made of lightweight polystyrene foam concrete and / or foam concrete and / or gas silicate concrete and / or cellular concrete and / or expanded clay concrete. 21. The wall according to claim 17, characterized in that the main body of the wall is made of heavy concrete, for example, heavy polystyrene concrete. 22. The wall according to claim 17, characterized in that a layer of adhesive composition is applied to the inner rough surfaces of the enclosing layers facing the main body of the wall. 23. The wall according to item 22, wherein the layer of adhesive composition is formed by adhesive G-2. 24. The wall according to 17, characterized in that the wall array contains polystyrene concrete or polystyrene foam with a density of D200 to D600. 25. The wall according to 17, characterized in that each outer enclosing layer is made of glass-magnesium sheet. 26. The wall according to claim 17, characterized in that each outer enclosing layer is made of Alucobond composite sheets. 27. The wall according to 17, characterized in that each external wall sheathing layer is made of fiber-reinforced concrete panels. 28. The wall according to claim 17, characterized in that each outer enclosing layer is reinforced with panels or panel units attached thereto, for example fiber-reinforced concrete. 29. The wall according to claim 17, characterized in that the outer side of each outer enclosing layer is lined with structurally decorative or decorative layers, for example decorative bricks and / or wild stone, or panels whose front side is lined with, for example, decorative bricks or wild stone . 30. The wall according to claim 17, characterized in that the outer side of each outer enclosing layer is painted and / or coated with a stucco composition or glued with decorative or structurally decorative material. 31. The wall (third option), characterized in that it contains enclosing the inner and outer layers having inner and outer surfaces, while between the inner surfaces of the enclosing layers is the main array of the wall, made of concrete, mainly polystyrene concrete, in the thickness of which is located, at least one, mainly reinforced, stiffening core, as well as fixatives or inserts, and at least one enclosing layer is made of a magnesium chloride sheet based on magnesium chloride, containing glass fiber, the outer side of each glass-magnesium sheet is smooth, the inner surface of each glass-magnesium sheet is roughened and adherent to the wall array. 32. The wall according to p. 31, characterized in that the stiffness core is limited to a fixed formwork. 33. The wall according to p, characterized in that the fixed formwork is made of fragments of a glass-magnesium sheet, for example strips, which are fastened by corners and connecting elements, preferably self-tapping screws. 34. The wall according to p, characterized in that the fixed formwork is adjacent to one and / or connected to one of the enclosing layers by means of connecting elements, mainly corners and self-tapping screws.