RU2670791C9 - Wall panel (options) - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, in particular to wall panels for buildings construction for various purposes. Wall panel comprises first plate, first surface and second surface of which are larger in size than other surfaces thereof and arranged in parallel to each other, with large vertical ribs and two large horizontal ribs, first heat-insulating layers, second heat-insulating layer, second plate, third surface and fourth surface of which are larger in size than other surfaces and arranged parallel to each other, first fire-prevention layer, second fire-prevention layer, third fire-prevention layer. Wall panel options are also described.

EFFECT: technical result consists in increasing level of protection of thermal insulation during installation of panel from mechanical influences, as a result of which thermal insulation material does not collapse and does not reduce its thermal insulation properties.

9 cl, 9 dwg

Description

Technical field

The invention relates to the field of construction, in particular to the wall panels for the construction of buildings for various purposes.

The level of technology

In the field of ground construction in the construction of various buildings, for example, residential, to simplify the installation on the construction site using multi-layer wall panels. Basically, these panels consist of layers of concrete or reinforced concrete and heat insulation. The connection of the layers of insulation and reinforced concrete produced in the factory. Also in the factory in the windows window blocks are fixed (according to clause 7.1.2 of GOST 31310-2005 "Three-layer wall panels made of reinforced concrete with effective insulation. General technical conditions" panels should be supplied with installed, ie fixed, window blocks).

The closest technical solution (prototype) is a wall panel (patent RU 2616311, publication date 12/16/2015). The wall panel consists of concrete (reinforced concrete) slabs, vertical and horizontal edges, as well as large and small insulation boards. The horizontal edges are located at the edges of the plate, and the vertical edges are located both at the edges and in the middle part of the plate. At the same time, large heat-insulating plates are located in niches formed by vertical and horizontal ribs, flush with the surface of vertical ribs. Small heat-insulating plates are located along vertical edges and are attached to them with the help of a U-shaped profile.

A disadvantage of the known technical solution is the reduction of the insulating properties of the wall panel due to the destruction of the insulating plates under the action of mechanical effects during installation. This is due to the fact that during installation the heat-insulating plates are not protected by any external layer and can be damaged.

The technical result of the invention is to increase the level of protection of insulation during installation of the panel from mechanical stress, as a result of which the insulation material does not collapse and does not reduce its thermal insulation properties.

This technical result is achieved due to the fact that, in the first embodiment, in the wall panel containing the first plate, the first surface and the second surface of which are larger compared to its other surfaces and are parallel to each other, with large vertical edges and two large horizontal ribs, the first insulating layers, the second insulating layer, the second slab, the third surface and the fourth surface of which are made larger than its other surfaces surfaces and are parallel to each other, the first fire layer, the second fire layer, the third fire layer, with large horizontal ribs and large vertical edges placed on the second surface of the first plate, made integral with it, large horizontal edges parallel to each other and from the opposite edges of the first slab, large vertical edges are located from one large horizontal edge to another large horizontal edge parallel to each other, moreover, two large vertical edges are located on opposite edges of the first plate, the first insulating layers are located on the second surface of the first plate between the large horizontal edges and the adjacent large vertical edges flush with the specified edges, the second insulating layer is located close to the third surface of the second plate on the one side and the first insulating layers, large horizontal ribs, large vertical ribs on the other hand, one of the surfaces of the second the heat-insulating layer is made flush with the surface of the nearest large vertical rib opposite to the other large vertical edges, the other surface of the second heat-insulation layer is made flush with the surface of one of the large horizontal ribs opposite to the other large horizontal rib, the first fire-prevention layer is adjacent to the surface of the second heat-insulating layer opposite to the surface made flush with the surface of one of the large vertical edges, while The first fire layer is made flush with the two outermost surfaces of large horizontal edges and flush with the surface of the nearest large vertical ribs opposite to the other large vertical edges, the second fire layer is located on the second thermal insulation layer and one of the large vertical edges made flush. and is made flush with the two most distant from each other surfaces of large horizontal edges, as well as with the adjoining The third fire layer is located on the surface of the second heat insulating layer opposite to the surface made flush with the surface of one of the large horizontal edges, is located between the surfaces of the first fire layer and the second fire layer facing each other and is flush with the surface of one of the large horizontal edges opposite to another large horizontal edge, while the second plate stands for flush surfaces one of the large horizontal edges and the second insulating layer, and also stands for the surface of the second fire layer, opposite the large vertical edges, the second plate is located with a ledge in relation to the surfaces of the first fire layer and one of the large vertical edges flush, and also the second plate with a ledge in relation to the surfaces of the third fire layer and one of the large horizontal ribs made flush, the first plate and the second plate are soy Inns with each other using flexible connections, one end of which is located in the material of the first slab, the other end is located in the material of the second slab, with the first slab, the second slab, large vertical edges and large horizontal ribs made of a material with a predominant content of concrete, in private case, it has a window opening bounded, at least in part, by adjacent large vertical edges and small horizontal edges located from one of two adjacent large vertical edges to the other of two adjacent large vertical edges, with small horizontal edges parallel to each other and parallel to large horizontal edges, small horizontal edges are located on the second surface of the first plate, made at the same time with it from a material with a predominant concrete content, and the second insulating layer is closed with side of the window opening fourth fire layer, in the particular case between each pair of adjacent large horizontal edges and small horizontal edges of There is a small vertical edge, with a small vertical edge located from a small horizontal edge to a large horizontal edge located on the same side of the window opening and parallel to large vertical ribs; small vertical edges are located on the second surface of the first plate, made together with it from a material with a preferential content concrete, according to the second variant, in the wall panel containing the first slab, the first surface and the second surface of which are larger compared to its other surfaces are parallel to each other, with large vertical edges and two large horizontal edges, the first heat-insulating layers, the second heat-insulating layer, the third heat-insulating layer, the second slab, the third surface and the fourth surface of which are made larger than its other surfaces and parallel to each other, a corner element made in the form of a slab, a second fire layer, a third fire layer, a fifth fire layer, with this large horizontal edges and large vertical edges are placed on the second surface of the first plate, made integral with it, large horizontal edges are located relative to each other parallel and from opposite edges of the first plate, large vertical edges are located from one large horizontal edge to the other large horizontal edge parallel to each other, with two large vertical edges located on opposite edges of the first plate, the first heat-insulating layers are located on the second along the surfaces of the first slab between the large horizontal ribs and adjacent large vertical ribs are flush with the specified ribs, the second heat-insulating layer is located closely between the third surface of the second slab on the one hand and the first heat-insulating layers, large horizontal ribs, large vertical ribs on the other hand, opposite the surfaces of the second heat-insulating the layers, adjacent to the large vertical edges located on the edges of the first slab, are made flush with the corresponding The other surface of the second heat-insulating layer is flush with the surface of one of the large horizontal ribs opposite to the other large horizontal rib, the second fire-prevention layer is located on the made-up surfaces of the second heat-insulating layer and one of the large vertical ribs and flush with the two most distant surfaces of large mountains the horizontal edges, as well as with adherence to the second plate, the corner element and the second plate are connected to each other with the formation of an L-shaped configuration and are made at the same time, the third heat-insulating layer is located adjacent to the corner element from the first plate, to the second plate from the angular element to the flush surfaces of the second heat-insulating layer, a large vertical rib and the first plate, the free edge of the corner element is located with a ledge relative to the third heat-insulating layer, third the heat-insulating layer is made flush with the first surface and also flush with the surface of the second heat-insulating layer and the surface of one of the large horizontal ribs flush, the fifth fire-prevention layer is located on the opposite side of the third heat-insulating layer, flush with the surface of the closest one of the large horizontal ribs opposite to the other horizontal edge, and performed by the speaker relative to the adjacent edge of the corner element, the first slab and the second plate is interconnected by means of flexible links, one end of which is located in the material of the first plate, the other end is located in the material of the second plate, with the first plate, the second plate, large vertical edges, large horizontal edges, the corner element is made of material with the predominant content of concrete, in the particular case, it has a window opening bounded, at least partially, by the adjacent large vertical edges and small horizontal edges located from one of the two banks large vertical edges to the other of two neighboring large vertical edges, with small horizontal edges parallel to each other and parallel to large horizontal edges, small horizontal edges located on the second surface of the first slab, made at the same time with it and made of a material with a predominant concrete content the second heat-insulating layer is closed on the side of the window opening by the fourth fire-prevention layer, in a particular case, between each pair of adjacent large horizontal lines a small edge and a small horizontal edge are located a small vertical edge, with a small vertical edge located from a small horizontal edge to a large horizontal edge located on the same side of the window opening and parallel to the large vertical edges; the small vertical edges are located on the second surface of the first plate and are integral with it is made of a material with a predominant content of concrete, according to the third variant, in a wall panel containing the first slab, the first surface and the second along the surface of which is larger compared to its other surfaces and parallel to each other, with large vertical edges, two large horizontal edges and an angular vertical edge, the first heat-insulating layers, the second heat-insulating layer, the second slab, the third surface and the fourth surface of which are made larger size compared with its other surfaces and are parallel to each other, the second fire layer, the third fire layer, with large mountains isontal edges, large vertical edges and an angular vertical edge are placed on the second surface of the first plate, made integral with it, large horizontal edges are parallel to each other and from opposite edges of the first plate, large vertical edges and an angular vertical edge from one large horizontal edge to another large horizontal edge parallel to each other, with one of the large vertical edges and an angular vertical edge located opposite the edges of the first slab, with the angular vertical edge protruding from the surfaces of the large vertical edges and the large horizontal edges furthest from the first plate, the first insulating layers are located on the second surface of the first plate between the large horizontal edges and the adjacent large vertical edges, and large horizontal edges and adjacent large vertical edges and angular vertical edges flush with the surfaces of large vertical edges and large horizontal edges furthest from the first slab, the second heat-insulating layer is located closely between the third surface of the second slab on the one hand and the first heat-insulating layers, large horizontal ribs, large vertical ribs on the other hand, one of the surfaces of the second heat-insulating layer is flush with the surface of the nearest a large vertical rib opposite to the other large vertical edges, opposite to the last indicated surface of the second heat The insulating layer adjoins the surface of an angular vertical rib facing the large vertical ribs, another surface of the second heat-insulating layer is made flush with the surface of one of the large horizontal ribs opposite to the other large horizontal rib, while the second heat-insulating layer is flush with the surface of the angular vertical rib most remote from the first plate, the second fire layer is located on the flush-mounted surfaces of the second thermal insulation layer and one of the large vertical edges and is made flush with the two most distant from each other surfaces of large horizontal edges, as well as adjacent to the second slab, the third fire layer is located on the surface of the second insulating layer opposite the surface, made flush with the surface of one of large horizontal edges, located between facing each other surfaces of the angular vertical edge and the second fire layer and made flush with one of the large horizontal edges opposite to the other large horizontal edge, while the second plate stands for the flush surfaces of one of the large horizontal edges and the second insulating layer, and also stands for the surface of the second fire layer opposite to the large vertical edges, the second plate is located with a ledge in relation to the surfaces of the third fire layer and one of the large horizontal edges flush-mounted, also the second plate the first plate and the second plate are interconnected by flexible links, one end of which is located in the material of the first plate, the other end is located in the material of the second plate, the first plate , the second slab, large vertical edges, large horizontal edges, an angular vertical edge made of a material with a predominant content of concrete, in a particular case, it has a window opening, a curb unimportant, at least partially, by adjacent large vertical edges and small horizontal edges, located from one of two neighboring large vertical edges to the other of two neighboring large vertical edges, while small horizontal edges are parallel to each other and parallel to large horizontal edges, small horizontal ribs are located on the second surface of the first plate, are made integral with it and are made of a material with a predominant content of concrete, with the second thermal insulation The target layer is closed on the side of the window opening by the fourth fire layer, in a particular case, between each pair of adjacent large horizontal edges and small horizontal edges there is a small vertical edge, with a small vertical edge located from the small horizontal edge to the large horizontal edge located on the same side of the window opening ribs and parallel large vertical ribs; small vertical ribs are located on the second surface of the first slab, are made integral with it and are made from a material with a predominant content of concrete.

Brief Description of the Drawings

The invention is illustrated by drawings (Fig. 1-9), where Fig. 1 shows a general view of the first slab with edges, Fig. 2 shows a general view of the first slab with edges for a wall panel with a window opening, and Fig. 3 shows a general view of the wall panels, figure 4 is a general view of a wall panel with a window opening, figure 5 is a general view of an angular wall panel (with an angle outward), figure 6 is a vertical section of a wall panel, figure 7 is a vertical section of a wall panel with a window opening on a window opening, in FIG. 8 is a horizontal section of a wall panel with a window opening on a window opening mu FIG. 9 is a horizontal section of two adjacent corner panels (with an angle to the inside of the room).

DISCLOSURE OF INVENTION

In the drawings, the first plate 1, the first surface 2, the second surface 3, the first horizontal side surface 4, the second bearing surface 5, the large horizontal edge 6, the first vertical lateral surface 7, the contact surface 8, the large vertical edge 9, the first bearing surface 10, a small horizontal edge 11, a small vertical edge 12, a second plate 13, a third surface 14, a fourth surface 15, a second horizontal side surface 16, a second vertical side surface 17, a second heat insulation Onion layer 18, first fire layer 19, second fire layer 20, vertical slope 21, window opening 22, fourth fire layer 23, corner element 24, third heat insulation layer 25, fifth fire layer 26, flexible connection 27, third fire layer 28, the first insulating layer 29, the horizontal slope 30, the angular vertical edge 31.

The wall panel can be designed as a blank wall panel or a wall panel with a window installed. In addition, both the blind panel and the window panel can be made in the angular form (with an angle to the outside or an angle to the inside of the room).

The main elements of the blank wall panel are the first slab 1 with edges (for simplification, large vertical ribs 9 and large horizontal ribs 6 are named for simplification, and in the case of a wall panel with a window, small vertical ribs 12 and small horizontal ribs 11), the first thermal insulation layer 29, the second insulating layer 20 and the second plate 13.

The first plate 1 is a parallelepiped, two linear dimensions of which are significantly larger than the third linear dimension. The two largest surfaces of the first plate 1 are referred to below as the first surface 2 and the second surface 3. With standard use, the wall panel is installed in such a way that the first surface 2 faces inside the building and the second surface 3 faces out. The remaining surfaces of the first plate 1 are hereinafter referred to as the first horizontal side surfaces 4 and the first vertical side surfaces 7. Hereinafter, the definitions of vertical, horizontal, top, bottom and the like are given in accordance with the direction of action of gravity in the object position with its standard use.

On the second surface 3 of the first plate 1 there are large vertical edges 9 and two large horizontal edges 6, made integral with the first plate 1. Each of the large vertical edges 9 and large horizontal edges 6 is a parallelepiped, two transverse dimensions of which are smaller than the third longitudinal dimension. In addition, each of the edges is in contact with the second surface 3 of the first plate 1 of one of its surfaces with the largest linear dimension.

Large vertical edges 9 are arranged vertically, parallel to each other (meaning the parallelism of the largest linear dimensions of the edges) and at a distance from each other. Moreover, those two large vertical edges 9, which are located along the edges of the first plate 1, are placed in such a way that the surface of the large vertical edge 9 with the largest size adjacent to the surface along which the large vertical edge 9 contacts the first plate 1 lies approximately in one planes with the first vertical side surface 7 of the first plate 1. The first vertical side surfaces 7 of the first plate and the surfaces of the large vertical edges 9 lying with them in the same plane form the contact surfaces 8.

Two large horizontal ribs 6 are located along the edges of the first plate 1 so that the surface of the large horizontal rib 6 with the largest size adjacent to the surface along which the large horizontal rib 6 contacts the first plate 1 lies approximately in the same plane with the first horizontal lateral surface 4 of the first plate 1. The first horizontal side surfaces 4 of the first plate 1 and the surfaces of the large horizontal edges 6 lying in the same plane with them form the first support surface 10 and the second support The first surface 10 is a support surface in the sense that when installed in a working position, it rests on the underlying elements, and the second support surface 5 serves as the basis for the installation of an upstream building element. The length of the large horizontal edges 6 is equal to (approximately equal to) the horizontal size of the first plate 1. In this case, each large vertical edge 9 contacts with each large horizontal edge 6 and is located between them.

The first slab 1 with ribs and the second slab 13 are made of a material with a predominant concrete content (various types of concrete are known from the prior art according to GOST 25192-2012 Concretes. Classification and general technical requirements), such as concrete or reinforced concrete. These elements are usually reinforced by placing metal rods in the ribs, which can either be interconnected or unrelated, and in the second plate 13 and the first plate 1 - a metal mesh.

The first heat-insulating layers 29 and the second heat-insulating layer 18 are layers of the same or different heat-insulating materials (for example, blocks of mineral wool, foam glass, expanded polystyrene). The shape of the first heat-insulating layer 29, the second heat-insulating layer 18 is close to the parallelepiped, the two linear dimensions of which are larger than the third linear dimension. The first insulating layers 29 and the second insulating layers 18 can be both monolithic and composite.

The first insulating layers 29 are located in niches formed by adjacent large vertical edges 9 and large horizontal edges 6. One of the large dimensions of the first insulation layer 29 is equal (approximately equal) to the distance between the large horizontal edges 6, and the other larger size equals (approximately equal) between adjacent large vertical edges 9. One of the largest surfaces of the first insulating layer 29 is in contact with the second surface 3 of the first plate 1. The other is the largest the surface of the first heat-insulating layer 29 is located at the same (or almost the same) distance from the first surface 2 of the first plate 1 as the surface of any edge that is farthest from the first surface 2 of the first plate 1.

The second heat-insulating layer 18 adjoins its one largest surface with the surface of the ribs and the largest surface of the first heat-insulating layers 29, which are the most distant from the first surface 2 of the first plate 1. Moreover, the horizontal and vertical adjacent surfaces of the second heat-insulating layer 18, which are not the largest, are located in one ( almost in one) plane, respectively, with the second bearing surface 5 and with one of the contact surfaces 8. The other vertical surface of the second heat-insulating layer 18, is not the largest, it is located within the large vertical ribs 9, which forms another contact surface 8. The other horizontal surface of the second insulation layer 18 that is not the largest, is situated in the limit of large horizontal edges 6, forming the first bearing surface 10.

From the side of the contact surface 8, with which the surface of the second heat-insulating layer 18 is located in the same plane, the first fire-prevention layer 20 is attached to the first plate 1 with the first heat-insulating layer 29 and the second heat-insulating layer 18 located on one of its largest surfaces. an element in shape close to the parallelepiped, two linear dimensions of which are larger than the third linear dimension. In this case, one of the large dimensions of the second fire layer 20 is equal to (approximately equal to) the vertical size of the first plate 1. The other larger size of the second fire layer 20 is somewhat less than the total thickness of the first plate 1 and the first heat insulation layer 29 and the second heat insulation layer 18 on it. Third the size of the second fire layer 20 is selected in such a way as to ensure the ability of the second fire layer 20 to prevent the spread of fire and does not contribute to an increased Iu heat loss through it. The second fire layer 20 is located in such a way that one of its surface adjacent to the surface along which the second fire layer is attached to the first plate 1 is located in the same plane (almost in one) with the largest surface of the second heat-insulating layer 18, the most distant from the first surface 2. The second fire layer 20 is located from the first support surface 10 to the second support surface 5. The material of the second fire layer 20 (as well as the first fire layer 19, the third fire layer molecular layer 28, fourth layer 23 of fire-fighting fire and fifth layer 26) is selected so as to provide the ability to fire the first layer 20, prevent the spread of fire, for example, pictures can be basalt or mineral wool.

On the side of the contact surface 8, to which the second fire layer 20 is not attached, the first fire layer 19 is attached to the second heat insulation layer 18. The first fire layer 19 is an element close to the parallelepiped in shape, two linear dimensions of which are significantly smaller than the third linear dimension. The first fire layer 19 in one direction is located from the first support surface 10 to the second support surface 5. In the other direction, the first fire protection layer 19 is located from the surface of the large vertical rib 9 forming the contact surface 8 indicated at the beginning of the paragraph to the maximum surface of the second heat-insulating layer 18 (the surfaces of the large vertical rib 9 and the second insulating layer 18 are the most distant from the first surface 2). Also, the first fire layer 19 is located from the contact surface 8 indicated at the beginning of the paragraph to the surface of the second heat-insulating layer 18, to which the first fire layer 19 is attached.

On the side of the first support surface 10, a third fire prevention layer 28 is attached to the second heat-insulating layer 18. The third fire protection layer 28 is an element in shape close to a parallelepiped, two linear dimensions of which are significantly smaller than the third linear dimension. The third fire layer 28 in one direction is located from the first fire layer 19 to the second fire layer 20. In the other direction, the third fire layer 28 is located from the surface of the large horizontal rib 6 forming the first support surface 10 to the largest surface of the second heat-insulating layer 18 a large horizontal edge 6 and the second insulating layer 18 is the most remote from the first surface 2). Also, the third fire layer 28 is located from the first support surface 10 to the surface of the second insulating layer 18, to which the third fire layer 28 is attached.

The second heat-insulating layer 18, the first fire-prevention layer 19 and the third fire-prevention layer 28 mounted on the first plate 1 with ribs and the first heat-insulating layer 29 form a composite layer of one (approximately one) thickness, located from one contact surface 8 to another contact surface 8 and from the first support surface 10 to the second support surface 5.

With the larger surface of the second heat-insulating layer 18, furthest from the first surface 2 of the first plate 1, the second plate 13 contacts its third surface 14 (or part of the third surface 14). The second plate 13 as a whole is a parallelepiped, two linear dimensions of which are significantly larger than the third linear size. The two largest surfaces of the first plate 13 are referred to below as the third surface 14 and the fourth surface 15. The remaining surfaces are called the second horizontal side surfaces 16 and the second vertical side surfaces 17. The vertical size (one of the largest sizes) of the second plate 13 is larger than the vertical size of the first plate 1 by (or close to this value) the thickness of the slab used in the installation of the building. The horizontal size (one of the largest sizes) of the second plate 13 is larger than the horizontal size of the first plate 1 by the amount (or close to this value) of the thickness of the second fire layer 20. One of the second horizontal side surfaces 16 is located at the same or slightly smaller distance from the first bearing surface 10, as the surfaces in contact with the second heat-insulating layer 18 and the third fire-resistant layer 28. The other second horizontal side surface 16 is located relative to the first plate 1 s edges on the side of the second support surface 5. One of the second vertical side surfaces 17 is located at the same or slightly smaller distance from the contact surface 8 located near the first fire-prevention layer 19, as the surfaces that contact the second heat-insulating layer 18 and the first fire-prevention layer 19 The other second vertical side surface 17 is located relative to the first plate 1 with the edges on the side of the second fire layer 20. That is, the second plate 13 is offset from the first plate 1 with attached heat-insulating layers and fire layers so that the second plate 13 stands for the second fire layer 20 and does not reach the contact surface 8, to which the second fire layer 20 does not adjoin, by the same amount.

The connection between the first slab 1 and the ribs and the second slab 13 is ensured by means of flexible ties 27. The flexible bond 27 is a bond (core element) of stainless steel or other corrosion-resistant material, for example, fiberglass or basalt plastic, between outer and inner concrete or reinforced concrete layers of the panel, ensuring their joint work in the outer wall panel (the definition of a flexible connection is given in paragraph 3.5 of GOST 31310-2015 Three-layer reinforced concrete wall panels with effective insulation . General technical conditions). Among the flexible links 27, depending on the purpose and the corresponding location, there are suspensions, struts and struts. Each flexible link 27 at one end is fixed in the material of the first plate 1 or some edge, and the other in the material of the second plate 13. In this case, the axis of each flexible link 27 can be either perpendicular to the second plate 13, or at an angle to it . In this case, usually between two flexible links 27 with axes 13 perpendicular to the second plate located close to each other, there is a flexible link 27 with the axis at an angle to the second plate 13. At the same time, the flexible links 27 pass through the second heat insulation layer 18 and can pass through the first heat insulation layer 29.

In the case of a wall panel with a window opening 22 (fixing the window and the device of this node are not considered in this case), the device changes in comparison with the above described variant as follows.

In the first slab 1 there is a through rectangular opening located between two adjacent large vertical edges 9. Small vertical edges 13 can be located between the same large vertical edges 9, similar in design to large vertical edges 9, but of smaller length. Each pair of small vertical edges 12 is located on the same vertical line - above and below the through hole. Small vertical edges 12 are also parallel to each other and large vertical edges 9 and at a distance from each other and from large vertical edges 9. From above and below from the through hole in the first plate 1 along its horizontal borders there are small horizontal edges 11, similar in design large horizontal edges 6, but shorter. The length of the small horizontal edges 11 is equal to the distance between the large vertical edges 9 located on the sides of the through hole in the first plate 1. The length of the small vertical edges 12 is equal to the distance between the adjacent small horizontal edge 11 and the large horizontal edge 6.

Each first insulating layer 29 is located in the space between adjacent vertical edges (for example, between small vertical edge 12 and large vertical edge 9, between two small vertical edges 12, between two large vertical edges 9) and between adjacent horizontal edges (except for a pair of two small horizontal edges 11 near the through hole in the first plate 1). The second insulating layer 18 also has a through hole opposite the through hole in the first plate 1. The dimensions of the through hole in the second heat insulating layer 18 are larger than the sizes of the through hole in the first plate 1 so that when placed through the perimeter of the through hole in the second heat insulating layer 18 of the fourth fire layer 23, the dimensions of the obtained through holes were equal (approximately equal) to the sizes of the through holes in the first plate 1. The fourth fire layer 23 represents the battle is a closed, generally rectangular, element consisting of four parallelepipeds, two linear dimensions of each of which are significantly smaller than the third linear dimension. The fourth fire layer 23 is attached to the second heat-insulating layer 18 and to the edge surfaces farthest from the first plate 1, bounding the through hole in the first plate 1. The size of the fourth fire layer 23 in the direction perpendicular to the plane of the first plate 1 is equal to the size of the second heat-insulation layer 18 in the same direction (i.e. its thickness).

The second plate 13 also has a through hole, the dimensions of which are approximately equal to the size of the hole in the first plate 1 and in the second heat-insulating layer 18 with the fourth fire-prevention layer 23. On three sides a through hole in the second plate 13 limits the horizontal slope 30 and two vertical slopes (hereinafter sometimes referred to as slopes), made together with the second plate 13. In the area associated with the windows, the term "slope" is used for the elements bounding the window opening, or the window decoration elements themselves th aperture (eg, http://4okna.info/montazh-i-demontazh/vybiraem-okonnyj-otkos-i-ustanavlivaem-ego.html, reference date 07.07.2017). Horizontal slope 30 and vertical slopes 21 are elongated, usually straight, elements with a cross section in the shape of, for example, a rectangle or a rectangular trapezium. The cross sections of the horizontal slope 30 and vertical slopes 23 can be both the same and different, but the dimensions of the cross section in the direction perpendicular to the second plate 13, the horizontal slope 30 and each of the vertical slopes 23 are the same and are usually chosen so that the slopes are located within the second insulating layer 18. In the particular case shown in figures 4, 7, 8, the slopes are made with a cross section in the form of a rectangular trapezium. Slopes are located relative to the second plate 13 from the third surface 14. In this case, the horizontal slope 30 is located along the horizontal side of the through hole in the second plate 13 closest to the second bearing surface 5. The vertical slopes 23 are located along the vertical sides of the through hole in the second plate 13. The slopes are adjacent to the fourth insulating layer 23.

The hole obtained by a set of holes in the first plate 1 with edges and the second insulating layer 18 in the presence of the fourth fire layer 23, as well as the holes in the second plate 13 with a horizontal slope 30 and vertical slopes 23, defines a window opening 22.

In the case of the corner option (with the angle out), a blank wall panel or wall panel with window opening 22, the device will change as follows.

The first fire layer 19 in this case is missing. The largest horizontal dimensions of the second heat-insulating layer 18 and the third fire-prevention layer 28 are increased so that the location of the first fire-prevention layer 19 is filled with the second heat-insulation layer 18 and the third fire-prevention layer 28. On the side of the contact surface 8, to which the second fire-prevention layer 23 does not adjoin, To the first plate 1 with the first heat-insulating layer 29 and the second heat-insulating layer 18 located on it, the third heat-insulating second layer 25 and fifth layer 26. Fire third insulating layer 25 is the closest element in shape to the box, two linear size which is less than a third linear dimension. The largest size is equal to (approximately equal to) the vertical size of the second insulating layer 18. The section with the smallest dimensions is close in shape to a square, the side of which is equal to (approximately equal to) the total thickness of the first plate 1 with edges and located on it of the first insulating layer 29 and the second heat insulation layer 18. The fifth fire layer 26 is an element in shape close to the parallelepiped, two linear dimensions of which are larger than the third linear dimension. The largest dimensions of the fifth fire layer 26 are equal to the dimensions of the third insulating layer 25 in the same directions, and the smallest size of the fifth fire layer 26 is approximately equal to the size of the third fire layer 28.

The second plate 13 is changed as follows. The horizontal size of the second plate 13 increases by approximately the size of the third insulating layer 25 in the same direction. The second vertical side surface 17 of the second plate 13, located near the third heat-insulating layer 25, is made flush with the surface of the third heat-insulating layer 25 opposite to all large vertical edges 9.

The second vertical side surface 17, located near the third heat-insulating layer 25, adjoins the corner element 24, integral with the second plate 13. The corner element is named in the sense that it participates in the formation of the corner. The corner element 24 is an element that is close in shape to a parallelepiped, one size of which is less than the other two sizes. The smallest size (thickness) of the element described in the previous sentence is equal to the thickness of the second plate 13, the largest size is equal to the vertical size of the second plate 13, and the third size is chosen so that the corner element 24 covers the third heat-insulating layer 25. At the same vertical surface ( containing the largest and smallest size of the flat part of the corner element 24) the corner element 24 is adjacent to the second vertical side surface 17 at an angle of 90 ° with the formation of an L-shaped configuration, and the other is not TIGA to the first plane surface 2 by the same amount as in the non-corner embodiment of the wall panel vertical second side surface 17 of the second plate does not reach to the contact surface 8, which is not adjacent to the second layer 20 fire.

In the case of the corner version (with the corner inside the room) a blank wall panel or wall panel with a window opening 22, the device will change as follows, as shown in FIG. 9. In this case, the design of the parts of two adjacent panels, forming an internal angle, changes.

On one wall panel, in place of a large vertical rib 9 located near the first fire layer 19, an angular vertical rib 31 is performed (the angular edge is named because it is located in the corner). The angular vertical rib 31 differs from the large vertical rib 9 in cross-sectional dimensions. The cross-sectional size perpendicular to the first plate 1 is equal to the sum of the thicknesses of the first heat-insulating layer 29 and the second heat-insulating layer 18. The cross-sectional size parallel to the first plate 1 is equal to the sum of the thicknesses of the first plate 1 and the first heat-insulating layer 29. At the same time, the first fire layer 19 is , in its place have a second insulating layer 18 and a third fire layer 28 due to a corresponding increase in their size. The second vertical side surface 17 of the second plate 13 does not reach the contact surface 8, formed with the participation of the angular vertical edge 31, by the thickness of the other (adjacent to the described) wall panel. To do this, reduce the size of the second plate 13 accordingly.

On the other (adjacent to the described) wall panel, the dimensions of the second plate 13 are reduced so that the second plate does not protrude beyond the second fire layer 20.

The implementation of the invention

In the case of the use of the above elements and means, the invention is implemented as follows.

Pre-assemble formwork for casting the second plate 13 of one of the above structures. Then the concrete solution is poured into the formwork, if necessary, after placing the reinforcement for the second plate 13 in the formwork, for example, in the form of a metal grid. After alignment of the free surface of the second plate 13 on the second plate 13 in the formwork is placed the second heat-insulating layer 18, in which flexible links 27 are placed in the previously described required configuration. At the same time, the ends of the flexible links 27 protruding from one of the second heat-insulating layer 18 are not yet frozen concrete solution of the second plate 13, as well as the protruding opposite ends of the flexible links 27 will be located in the material of the ribs on the first plate 1 or in the material of the first plate 1. Then on the surface of the second eploizolyatsionnogo layer 18 disposed first insulating layer 29, a first fire protection layer 19, the second fire-prevention layer 20, the third fireproof layer 28 so as to obtain the desired design of the wall panels previously described. At the same stage in the case of the corner wall panel or wall panel with window opening 22 is placed in the desired position of the third insulating layer 25, the fourth fire layer 23, the fifth fire layer 26. Thus placed in the desired position of the second insulating layer 18, the first heat-insulating layer 29, the third insulating layer 25, the first fire layer 19, the second fire layer 20, the third fire layer 28, the fourth fire layer 23, the fifth fire layer 26, and e mounting parts (removed after solidification) forming the formwork for a first plate 1 with edges. If necessary, reinforcement is placed in this formwork and then concrete solution is poured into it. In the case of a wall panel with a window opening 22, when filling a wall panel, it is possible to place the window block, which will then be fixed in the window opening 22. After the concrete solution hardens, additional formwork elements not specified in the wall panel design are removed.

When pouring a wall panel, they usually also provide and install special elements (fasteners, anchors, mortgages) to enable the wall panel to be lifted, oriented, and mounted, to fasten the panels to each other, to fasten floor slabs.

Wall panels are used in panel housing as walls (usually external) of a building to speed up the construction process. At the same time, the wall panel is turned to a vertical position and oriented so that the first plate 1 is placed inside the building, the second plate 13 is outside, the first bearing surface 10 is at the bottom, and the second bearing surface 5 is at the top. Wall panels are interconnected and with floor slabs, for example, by welding pre-installed contact pads (metal embedded elements). In the junction between the installed adjacent wall panels due to the fact that the second fire layer does not reach the first surface 2 of the first plate 1, a long recess is formed in which the sealant and / or sealant, for example, a compressible cord, is placed.

Thus, the presence of the second plate 13, attached to the first plate 1 by flexible couplings 27, protects the first heat-insulating layer 29 and the second heat-insulating layer 18 from mechanical impact, as a result of which the first heat-insulating layer 29 and the second heat-insulating layer 18 do not collapse and do not reduce their heat-insulating properties. Due to this, the heat-insulating properties of the wall panel are not reduced during panel installation. In addition, the insulating properties of the wall panel increase due to the displacement of the second plate 13 relative to the first plate 1 and, consequently, the projection and ledge, which, when interacting with counter elements of adjacent wall panels, prevent the penetration of the medium into the joint between adjacent wall panels. An additional result of the presence of the second plate 13 is to increase the stability of the wall panel by increasing the area of the first support surface 10 by the value of the horizontal section area of the second plate 13.

Claims (9)

1. A wall panel containing the first slab, the first surface and the second surface of which are larger compared to its other surfaces and are parallel to each other, with large vertical edges and two large horizontal edges, the first heat-insulating layers, the second heat-insulating layer, the second slab , the third surface and the fourth surface of which are larger than the other surfaces and are parallel to each other, the first fire layer, the second th fire layer, the third fire layer, with large horizontal ribs and large vertical ribs placed on the second surface of the first plate, made at the same time with it, large horizontal ribs are located relative to each other parallel and from opposite edges of the first plate, large vertical edges are from one large horizontal edge to another large horizontal edge parallel to each other, with two large vertical edges located on opposite edges of the first Litas, the first heat-insulating layers are located on the second surface of the first plate between the large horizontal ribs and adjacent large vertical ribs flush with the specified edges, the second heat-insulating layer is located closely between the third surface of the second plate on one side and the first heat-insulating layers, large horizontal edges on the other hand, one of the surfaces of the second insulating layer is flush with the surface of the nearest large The vertical edge opposite to the other large vertical edges, the other surface of the second insulating layer is made flush with the surface of one of the large horizontal edges opposite to the other large horizontal edge; the first fireproof layer is adjacent to the surface of the second insulation layer opposite the surface that is flush with the surface of one of the large vertical edges, with the first fire layer made flush with the two most distant each t other surfaces of large horizontal ribs and is flush with the surface of the nearest large vertical ribs opposite to other large vertical ribs, the second fire layer is located on the flush surfaces of the second heat-insulating layer and one of the large vertical ribs and flush with the two most distant from each other surfaces of large horizontal edges, as well as with adherence to the second plate, the third fire layer is located on the surface of the second about the heat-insulating layer opposite to the surface, made flush with the surface of one of the large horizontal ribs, is located between the surfaces of the first fire-prevention layer and the second fire-prevention layer facing each other and is flush with the surface of one of the large horizontal edges opposite to the other large horizontal edge, while the second plate stands for flush surfaces of one of the large horizontal ribs and the second heat-insulating layer, and stands for the surface of the second fire layer opposite to the large vertical edges, the second plate is located with a ledge in relation to the surfaces of the first fire layer and one of the large vertical edges flush, and the second plate is located with a ledge in relation to the surfaces of the third fire layer that are flush and one of the large horizontal ribs, the first plate and the second plate are interconnected by means of flexible links, one end of which is located in the material The first slab, the other end is located in the second slab material, with the first slab, the second slab, large vertical ribs and large horizontal ribs made of a material with a preferential concrete content. 2, Wall panel according to Claim. 1, characterized in that it has a window opening bounded, at least partially, by adjacent large vertical edges and small horizontal edges located from one of two adjacent large vertical edges to the other of two adjacent large vertical edges, while small horizontal edges are parallel to each other and parallel to large horizontal edges, small horizontal edges are located on the second surface of the first plate, made integral with it from the mater ala predominantly containing concrete, wherein the second insulating layer is closed by the window opening fire fourth layer. 3. The wall panel according to claim 2, characterized in that between each pair of adjacent large horizontal edges and small horizontal edges there is a small vertical edge, with a small vertical edge located from the small horizontal edge to the large horizontal edge located on the same side of the window opening and parallel to large vertical edges, small vertical edges are located on the second surface of the first slab, made integral with it from a material with a predominant content of concrete. 4. A wall panel containing the first slab, the first surface and the second surface of which are larger compared to its other surfaces and are parallel to each other, with large vertical edges and two large horizontal edges, the first heat insulation layers, the second heat insulation layer, the third heat insulation the layer, the second slab, the third surface and the fourth surface of which are made larger in comparison with its other surfaces and are parallel to each other; a new element made in the form of a plate, a second fire layer, a third fire layer, a fifth fire layer, with large horizontal ribs and large vertical ribs placed on the second surface of the first plate, made integral with it, the large horizontal ribs are located relative to each other parallel and from opposite edges of the first plate, large vertical edges are located from one large horizontal edge to the other large horizontal edge parallel to each other, and two large vertical ribs are located on opposite edges of the first plate, the first heat-insulating layers are located on the second surface of the first plate between the large horizontal ribs and adjacent large vertical ribs that are flush with the specified edges, the second heat-insulating layer is located closely between the third surface of the second plate on one side and the first heat-insulating layers large horizontal edges, large vertical edges on the other hand, the opposite surface of the second The insulating layer adjacent to the large vertical edges located on the edges of the first plate is flush with the corresponding surface of the nearest large vertical edge opposite to the other large vertical edges, the other surface of the second insulation layer is flush with the surface of one of the large horizontal edges opposite to the other large horizontal edge The second fire layer is located on the flush-mounted surfaces of the second heat-insulating layer and one of the large vertical edges and is made flush with the two most distant from each other surfaces of large horizontal edges, as well as with adhesion to the second plate, the corner element and the second plate are connected to each other with the formation of an L-shaped configuration and made at the same time, the third the heat-insulating layer is located adjacent to the corner element from the first plate, to the second plate from the corner element, to the surfaces of the second heat-insulating layer that are flush with a large vertical the first edge and the first plate, the free edge of the corner element is located with a ledge relative to the third heat-insulating layer, the third heat-insulating layer is made flush with the first surface, and also flush with the surface of the second heat-insulating layer and one of the large horizontal edges flush with the third heat-insulating layer is the fifth fire layer, made flush with the surface of the nearest large horizontal edges, opposite The first plate and the second plate are interconnected by flexible links, one end of which is located in the material of the first plate, the other end is located in the material of the second plate, the first plate, the second slab, large vertical ribs, large horizontal ribs, a corner element made of a material with a predominant content of concrete. 5. The wall panel according to claim 4, characterized in that it has a window opening bounded, at least partially, by adjacent large vertical edges and small horizontal edges located from one of two adjacent large vertical edges to the other of two adjacent large vertical edges, while small horizontal edges are parallel to each other and parallel to large horizontal edges, small horizontal edges are located on the second surface of the first plate, made at the same time with it and us of a material predominantly containing concrete, wherein the second insulating layer is closed by the window opening fire fourth layer. 6. The wall panel according to claim 5, characterized in that between each pair of adjacent large horizontal edges and small horizontal edges there is a small vertical edge, with a small vertical edge located from the small horizontal edge to the large horizontal edge located on the same side of the window opening parallel to large vertical edges, small vertical edges are located on the second surface of the first slab, made at the same time with it and made of a material with a predominant content of concrete. 7. The wall panel containing the first slab, the first surface and the second surface of which are larger compared to its other surfaces and are parallel to each other, with large vertical edges, two large horizontal edges and an angular vertical edge, the first heat-insulating layers, the second heat-insulating the layer, the second slab, the third surface and the fourth surface of which are larger compared to its other surfaces and are parallel to each other, the second th fire layer, the third fire layer, with large horizontal ribs, large vertical ribs and an angular vertical edge placed on the second surface of the first plate, made integral with it, large horizontal ribs are located relative to each other in parallel and from opposite edges of the first plate, large vertical edges and an angular vertical edge are located from one large horizontal edge to another large horizontal edge parallel to each other, and one of the large ticking ribs and an angular vertical rib are located on opposite edges of the first plate, while the angular vertical rib is protruding relative to the surfaces of large vertical edges and large horizontal edges furthest from the first plate, the first insulating layers are located on the second surface of the first plate between the large horizontal edges and adjacent large vertical edges, as well as between large horizontal edges and adjacent large vertical edges and angular ve With a ticking edge flush with the surfaces of large vertical edges and large horizontal edges furthest from the first plate, the second insulating layer is located close between the third surface of the second plate on the one hand and the first insulating layers, large horizontal edges, large vertical edges on the other hand, one of the surfaces of the second heat-insulating layer are made flush with the surface of the nearest large vertical rib opposite to the other large vertical the opposite edges of the last specified surface of the second heat insulating layer adjoins the surface of an angular vertical rib facing the large vertical edges, the other surface of the second heat insulating layer is flush with the surface of one of the large horizontal edges opposite the other large horizontal rib, while the second heat insulating layer is made flush with the surface of the angular vertical edge, furthest from the first plate, the second fire the layer is located on the flush surfaces of the second heat-insulating layer and one of the large vertical edges and flush with the two most distant from each other surfaces of large horizontal ribs, as well as adhering to the second plate, the third fire-prevention layer is located on the surface of the second heat-insulating layer opposite the surface , made flush with the surface of one of the large horizontal edges, is located between the surfaces of the angular vertex facing each other the second rib and the second fire layer are flush with the surface of one of the large horizontal ribs opposite to the other large horizontal rib, while the second plate stands for the flush surfaces of one of the large horizontal ribs and the second heat-insulating layer, and also stands for the surface of the second fire layer opposite to the large vertical edges, the second plate is located with a ledge in relation to the surfaces of the third opposite which are made flush The second plate is located with a ledge in relation to the surface of an angular vertical edge opposite to the large vertical edges; the first plate and the second plate are interconnected by flexible links, one end of which is located in the material of the first plate, the other end is located in the material of the second plate, with the first plate, the second plate, large vertical edges, large horizontal edges, angular vertical edge made of a material with predominantly Concrete content. 8. The wall panel according to claim 7, characterized in that it has a window opening bounded, at least partially, by adjacent large vertical edges and small horizontal edges located from one of two adjacent large vertical edges to the other of two adjacent large vertical edges, while small horizontal edges are parallel to each other and parallel to large horizontal edges, small horizontal edges are located on the second surface of the first plate, made at the same time with it and us of a material predominantly containing concrete, wherein the second insulating layer is closed by the window opening fire fourth layer. 9. The wall panel according to claim 8, characterized in that between each pair of adjacent large horizontal edges and small horizontal edges there is a small vertical edge, with a small vertical edge located from the small horizontal edge to the large horizontal edge located on the same side of the window opening parallel to large vertical edges, small vertical edges are located on the second surface of the first slab, made at the same time with it and made of a material with a predominant content of concrete.

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