RU2330147C1 - Multilayer wall panel (versions) - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: multilayer wall panel with one or two window openings includes outer and inner layers from reinforced concrete, situated between them a layer of thermal insulating material and elements joining the layers made in the shapre of discrete concrete connections uniformly distributed about the panel. The thermal insulating material is foam polystyrene placed between the outer and inner layers with an open exit at least at three side ends of the panel and consists of separate fixed and butt-packed elements. Between the inner layer of the reinforced concrete and the thermal insulating material there is an insulating layer in the form of foil or plastic film or metal-coated plastic film. Multilayer wall panel contains four locking keys situated at its ends. The specified discrete reinforced concrete connections binding the outer and the inner layers of the reinforced concrete function at the same time as fixators for the elements of the thermal insulation material and are placed in the holes performed in the insulating layer and the thermal insulating material. The discrete reinforced concrete connections have rectangular cross section, at that the bigger part of the specified rectangular has at least two discrete reinforced concrete connections, oriented in the direction perpendicular to the bigger side of the rectangular of the rest discrete reinforced concrete connections and in parallel to the smaller side of the multilayer wall panel. The reinforcing part of each of the specified discrete reinforced concrete connections is made in the form of framework from two loops connected in-between by parallel polls. At that planes of the polls are in parallel to the existing side end surfaces of the panel, and the polls themselves are situated along the specified side end surfaces. Rectangular wall panel is described.

EFFECT: increase of durability and performance properties.

7 cl, 9 dwg

Description

The invention relates to construction and can be used as external walling.

Known multilayer wall panel (ed. Certificate of the USSR No. 973751, class E04C 2/46), including enclosing reinforced concrete layers made with stiffeners, an intermediate heat-insulating layer and a moisture-proof layer placed between the enclosing layer and the heat-insulating layer, while the insulating layer made of bulk insulation. The known panel has a high material consumption, insufficient strength and heat and sound insulation characteristics.

Known multilayer wall panel (RF patent No. 2035558, class E04C 2/26, EV 1/76), including the outer and inner concrete layers and the intermediate layer of insulation, while the insulation layer is perforated, the outer and inner layers are interconnected by ribs, and an airtight layer is placed between the outer layer and the insulation layer. However, the specified multilayer wall panel also has a high material consumption, as well as insufficient strength and heat and sound insulation characteristics.

Also known is a multilayer wall panel (RF patent No. 2104373, class Е04С 2/26, ЕВВ 1/76), consisting of external and internal concrete layers, connecting stiffeners, an intermediate layer of insulation made of a whole sheet of expanded polystyrene and a sheet with perforations, as well as a layer of foil. However, this wall panel has insufficient strength characteristics.

The closest technical solution to the proposed wall panel is a multilayer panel (RF patent No. 2130107, class E04C 2/26) containing the outer and inner structural layers made of concrete, a layer of porous insulation made of polystyrene foam boards and a vapor-proof heat-reflecting screen. However, this design does not provide sufficient strength of the wall panel.

The invention is aimed at solving the problem of improving the heat-shielding properties and strength characteristics of a multilayer wall panel.

The technical result that can be obtained by using the invention is to increase the service life of the building under construction, as well as to improve its operational characteristics by improving the heat-shielding properties of the exterior panels of the building.

The problem is solved due to the fact that in a multilayer wall panel with one or two window openings, including the outer and inner layers made of reinforced concrete, the layer of heat-insulating material located between them and the layers combining layers made in the form of discrete reinforced concrete ties evenly placed over the area of the panel, the insulating material is polystyrene foam, which is placed between the outer and inner layers with an open outlet, at least at three ends s side panels and consists of separate fixed and arranged in the joint elements. Moreover, between the inner layer of reinforced concrete and the insulating material there is an insulating layer in the form of a foil or a polymer film or a metallized polymer film, and the multilayer wall panel has at least four fixing dowels, which are located at its edges, these discrete reinforced concrete bonds uniting the outer and inner layers of reinforced concrete, at the same time serve as clamps for the elements of the insulating material and are placed in the slots made in the insulating layer and insulating material, wherein said discrete reinforced concrete bonds have a rectangular cross-section, the larger side of said rectangle of at least two discrete reinforced concrete bonds oriented in a direction perpendicular to the larger side of the rectangle of the remaining discrete reinforced concrete bonds and parallel to the smaller side of the multilayer wall panel, the reinforcing part of each of these discrete reinforced concrete bonds is made in the form of a frame of two loops connected by m forward rods arranged in parallel, with the plane in which the rods are arranged parallel to the corresponding end faces of the panel, and the rods themselves are arranged along said end surfaces.

It is advisable that the number of discrete reinforced concrete bonds is selected from the ratio: one discrete reinforced concrete bond per 1.8-1.9 m ^{2 the} area of the specified multilayer wall panel.

It is possible to perform a multilayer wall panel, the outer side of the outer layer of which is lined with cement-sand tiles with water-repellent additives.

It is advisable to perform a multilayer wall panel containing at least four embedded parts located in the inner layer at the corners of the multilayer wall panel.

According to the second variant, the multilayer wall panel is a structure without window openings, but the problem to which the invention is directed remains the same, namely, increasing the heat-shielding properties and increasing the strength characteristics of the multilayer wall panel.

The problem is solved due to the fact that in a rectangular wall panel, including the outer and inner layers made of reinforced concrete, a layer of heat-insulating material located between them and uniting layers elements made in the form of discrete reinforced concrete bonds evenly spaced across the panel area, with one The sides of the panel along its edges are additionally made combining layers of an element in the form of a concrete rib located along the edge of one of the sides of the panel and partially along the edges of two adjacent sides. The heat-insulating material is polystyrene foam, placed between the outer and inner layers with access to the ends of the panel, not covered by the above concrete rib, and consists of individual elements fixed and stacked in the joint. Between the inner layer and the insulating material is placed an insulating layer in the form of a foil or a polymer film or a metallized polymer film. A multilayer wall panel has at least four fixing dowels, which are located at its edges, and these discrete reinforced concrete bonds, combining the outer and inner layers of reinforced concrete, simultaneously serve as clamps for elements of the heat-insulating material and are placed in slots made in insulation layer and heat-insulating material, while these discrete reinforced concrete bonds have a rectangular cross-section, with the larger side of the specified rectangle of at least two discrete reinforced concrete bonds is oriented in a direction perpendicular to the larger side of the rectangle of the remaining discrete reinforced concrete bonds and parallel to the smaller side of the multilayer wall panel, the reinforcing part of each of these discrete reinforced concrete bonds is made in the form of a frame of two loops connected by parallel rods, while the planes in which the rods are placed are parallel to the corresponding end surfaces of the panel, and the rods themselves are located us along said end surfaces.

It is advisable to perform a multilayer wall panel so that the number of discrete reinforced concrete bonds is selected from the ratio: one discrete reinforced concrete bond per 1.8-1.9 m ^{2 of the} area of the specified multilayer wall panel.

Preferably, the multilayer wall panel was made with at least six embedded parts located in the inner layer at the corners and perimeter of the multilayer wall panel.

The invention is illustrated by drawings, where Fig. 1 shows a multilayer wall panel with one window opening, a view from the outside with a layout plan of elements of the insulating material, Fig. 2 is a section AA in Fig. 1 of a multilayer wall panel with one window opening. , Fig.3 is a section bB in Fig.1 of a multilayer wall panel with one window opening, Fig.4 is a multilayer wall panel with two window openings, the view from the outside with the layout plan of the elements of the insulating material, Fig.5 - section bb in figure 4 many 6, a layered wall panel with two window openings, Fig. 6 is a multilayer wall panel with two window openings, Fig. 7 is a multilayer wall panel from the outside with a layout plan of elements of the heat-insulating material, in Fig. 8 is a section DD in Fig. 7 of a multilayer wall panel; in Fig. 9 is a section EE in Fig. 7 of a multilayer wall panel.

The multilayer outer wall panel according to the first embodiment can be made with one or two window openings. A multilayer wall panel consists of an outer 1 and an inner 2 layers made of reinforced concrete and a layer of heat-insulating material 3 located between them. The heat-insulating material 3 is a polystyrene foam that is placed between the outer 1 and inner 2 layers with an open outlet, at least on the three end sides of the panel. Depending on the size of the panel and its design, the heat-insulating material 3 may have an open outlet on three or four end faces of the panel. Also, the heat-insulating material 3 can have an open exit not to the entire end side of the panel, but only to its part. The layer of heat-insulating material 3 consists of separate elements fixed and laid in the joint. Between the inner layer 2 of reinforced concrete and heat-insulating material 3 is placed an insulating layer 4 made of foil or polymer film or metallized polymer film.

The outer 1 and inner 2 layers of reinforced concrete are interconnected by means of discrete reinforced concrete connections 5, and also by means of fixing dowels 6. At least six embedded parts 7 are placed in the corners and perimeter of the multilayer wall panel in order to connect the plates installation of the house.

Discrete reinforced concrete bonds 6, combining the outer 1 and inner 2 layers of reinforced concrete, simultaneously serve as clamps for the elements of the heat-insulating material 3 and are placed in the slots made in the insulating layer 4 and the heat-insulating material 3. However, the main purpose of the discrete reinforced concrete bonds 5 is to perceive dynamic, static and temperature loads between the inner 2 and outer 1 layers. In this regard, the discrete reinforced concrete bonds 5 have a rectangular cross section, and the larger side of the specified rectangle of at least two discrete reinforced concrete bonds 6 is oriented in the direction perpendicular to the larger side of the rectangle of the remaining discrete reinforced concrete bonds 5 and parallel to the smaller side of the multilayer wall panel. This arrangement of discrete reinforced concrete bonds 5 is provided for a better perception of operational stresses arising in the slab from shear vertical and horizontal loads. That is, discrete reinforced concrete bonds 5 are arranged so as to perceive loads in mutually perpendicular directions coinciding with the directions of the central axes of the slab.

The reinforcing part of each of the discrete reinforced concrete bonds 5 is made in the form of a frame of two loops connected together by parallel spaced rods, the planes in which the rods are placed are parallel to the corresponding end surfaces of the panel, and the rods themselves are located along these end surfaces.

In addition, the wall panel has at least four fixing dowels 6, which are located at the corners and / or edges of the panel. The specific number of locking keys 6 is determined depending on the size of the plate, configuration, number of mounting loops, embedded parts.

For a better perception of shear loads, as well as high-quality performance of technological work in the manufacture of slabs, discrete reinforced concrete bonds 5 and fixing keys 7 are made of plastic concrete of grade P4 with a cone draft of 18-20 cm.

Given the fact that discrete reinforced concrete bonds 5 must withstand certain loads, they should be distributed evenly over the panel area taking into account the panel configuration and the number of window openings. Practice has shown that, provided that sufficient bond strength between the concrete layers 1 and 2 of the multilayer wall panel is ensured, it is sufficient that the number of discrete reinforced concrete bonds be selected from the ratio: one discrete reinforced concrete bond per 1.8-1.9 m2 ^of panel area.

To increase the resistance of the panel to external negative factors, the surface of the outer 1 layer of the panel can be lined with cement-sand tiles with water-repellent additives (not shown in the figure).

The second embodiment of a multilayer wall rectangular panel refers to a panel that does not have window openings, but also includes an outer 1 and an inner 2 layers made of reinforced concrete, and a layer of heat-insulating material located between them 3. Just like in the first embodiment, the layers 1 and 2 are interconnected by discrete reinforced concrete bonds 5, placed over the area of the panel. On one side of the panel along its edges, an additional unit of layers is made in the form of a concrete rib 7 located along the edge of one of the sides of the panel and partially along the edges of two adjacent sides. The heat-insulating material 3, as in the first embodiment, is a polystyrene foam, placed between the outer 1 and inner 2 layers with access to the ends of the panel, not covered by a concrete edge 8, and consists of separate elements fixed and laid in the joint. Between the inner 2 layer and the insulating material 3 is placed an insulating layer 4 made of a metal foil or a polymer film or a metallized polymer film. Discrete reinforced concrete bonds 5 simultaneously serve as clamps for the elements of the heat-insulating material 3 and are placed in the slots made in the insulating layer 4 and the heat-insulating material 3. Discrete bonds 5 are distributed over the area of the panel at the joints of adjacent heat-insulating elements and have a rectangular cross section, with the larger side of the rectangle part of the discrete reinforced concrete bonds is oriented in the direction perpendicular to the larger side of the rectangle of the remaining discrete reinforced concrete x bonds and the parallel lower side wall panel.

As in the first embodiment of the multilayer wall panel, all discrete reinforced concrete bonds 5 are arranged in such a way that their side surfaces are parallel to the corresponding central axes of the panel to absorb shear loads arising between the outer 1 and inner 2 layers.

The reinforcing part of each of the discrete reinforced concrete bonds 5 is made in the form of a frame of two loops connected together by parallel spaced rods, the planes in which the rods are placed are parallel to the corresponding end surfaces of the panel, and the rods themselves are located along these end surfaces.

The number of discrete reinforced concrete bonds is selected from the ratio: one discrete reinforced concrete bond per 1.8-1.9 m ² panel area.

To increase the strength of the panel, the outer 1 and inner layers 2 of reinforced concrete are additionally interconnected by fixing dowels 6, which additionally provide the most rational resistance to shear loads arising during the operation of the panel.

The manufacturing process of a multilayer wall panel according to one of the options is as follows. Molding begins with the preparation of the metal mold for the production cycle, i.e. its surface is cleaned and lubricated. Facing cement-sand tiles are laid at the bottom. The tile has water-repellent and vapor-permeable properties due to the addition of hydrophobizing components in the mass fraction of not more than 5% during its manufacture in the sand-cement mixture. Moreover, the outer surface of the multilayer wall panel trimmed with tiles, in addition to high performance, also has aesthetic advantages. After laying the tiles, the lower layer of the reinforcement system is laid, consisting of thirteen different types of frames, consisting of flat and spatial grids, four rods and two anchor mounting loops. Then fill the bottom concrete layer with a mobile mix of grade P4 with a draft of 16-18 cm cone. Concrete of the specified grade provides an improved seal between the tiles without the formation of voids. Thus, the outer layer 1 of the multilayer wall panel is obtained.

After that, the elements of the heat-insulating material 3 and the insulating layer 4 are laid taking into account the necessary for performing discrete reinforced concrete connections 5 and the fixing keys 6 in the installed places. The insulating layer 4, made in the form of a metallized polymer film or foil, serves to reflect the radiant component of the internal heat flux. Due to this, heat losses in the building are sharply reduced. In the slots, the reinforcing parts of the discrete reinforced concrete joints 5 are installed, and along the edges of the multilayer wall panel, anchors of embedded parts and mounting loops are installed. Then, these cuts are filled with reinforced plastic reinforced concrete with low stiffness of grade P4 with a draft of 18–20 cm. It should be noted that the grain size of a large fraction of aggregate (stone, crushed stone) of the concrete mixture of this layer should not exceed 3–10 mm . Due to the mobility of this mixture and the small size of the concrete aggregate, filling of all voids is achieved, spills are eliminated.

Then lay the reinforcement of the inner layer 2 of the multilayer wall panel, consisting of six different types of frames and two mounting loops and at least four embedded parts. After that, the top layer is poured with concrete of grade P1 with a draft of a cone of 1-3 cm, which has high rigidity, which allows to achieve a high-quality internal surface for further finishing. Then the concrete is compacted by vibration, and the inner surface of the multilayer wall panel is aligned mechanically. Then produce heat treatment for the maturation of concrete.

After this, the metal form is removed and the finished multilayer wall panel is removed.

The inventive multilayer wall panel has improved operational and strength characteristics, as well as reduced material consumption.

Claims (7)

1. A multilayer wall panel with one or two window openings, including the outer and inner layers made of reinforced concrete, a layer of heat-insulating material located between them and uniting layers elements made in the form of discrete reinforced concrete bonds evenly distributed over the area of the panel, characterized in that the heat-insulating material is polystyrene foam, placed between the outer and inner layers with an open outlet, at least on the three end sides of the panel and consists of of individual fixed and sealed elements, between the inner layer of reinforced concrete and the insulating material there is an insulating layer in the form of a foil or a polymer film or a metallized polymer film, the multilayer wall panel has at least four fixing dowels, which are located at its edges, indicated discrete reinforced concrete bonds, combining the outer and inner layers of reinforced concrete, at the same time serve as clamps for the elements of the insulating material and in the slots made in the insulating layer and the heat-insulating material, wherein said discrete reinforced concrete bonds have a rectangular cross-section, and the larger side of said rectangle of at least two discrete reinforced concrete bonds is oriented in a direction perpendicular to the larger side of the rectangle of the remaining discrete reinforced concrete bonds and parallel to the smaller side of the multilayer wall panel, the reinforcing part of each of these discrete reinforced concrete joints on in the form of a frame of two loops connected together by parallel spaced rods, while the planes in which the rods are placed are parallel to the corresponding end surfaces of the panel, and the rods themselves are located along these end surfaces. 2. The multilayer wall panel according to claim 1, characterized in that the number of discrete reinforced concrete bonds is selected from the ratio: one discrete reinforced concrete bond per 1.8-1.9 m ^{2 the} area of the specified multilayer wall panel. 3. The multilayer wall panel according to claim 1, characterized in that the outer side of the outer layer is lined with cement-sand tiles with water-repellent additives. 4. The multilayer wall panel according to claim 1, characterized in that it is provided with at least four embedded parts located in the inner layer at the corners of the multilayer wall panel. 5. A multilayer wall rectangular panel, including the outer and inner layers made of reinforced concrete, a layer of heat-insulating material located between them and uniting layers of elements made in the form of discrete reinforced concrete bonds evenly spaced across the panel area, characterized in that on one side of the panel along its edges an additional unit of layers is made in the form of a concrete rib located along the edge of one of the sides of the panel and partially along the edges of two adjacent sides, the th material is polystyrene foam, placed between the outer and inner layers with access to the ends of the panel, not covered by the above concrete rib, and consists of separate elements fixed and laid in the joint, between the outer layer and the insulating material there is an insulating layer in the form of a foil or a polymer film or metallized polymer film, a multilayer wall panel has at least four fixing dowels, which are located at its edges, these discrete reinforced concrete bonds and, combining the outer and inner layers of reinforced concrete, at the same time serve as retainers for the elements of the insulating material and are placed in slots made in the insulating layer and the insulating material, while these discrete reinforced concrete bonds have a rectangular cross section, with the larger side of the specified rectangle at least two discrete reinforced concrete bonds, oriented in the direction perpendicular to the larger side of the rectangle of the remaining discrete reinforced concrete ties and parallel to the smaller side of the multilayer wall panel, the reinforcing part of each of these discrete reinforced concrete ties is made in the form of a frame of two loops connected together by parallel rods, the planes in which the rods are placed are parallel to the corresponding end surfaces of the panel, and the rods are located along these end surfaces. 6. A multilayer wall rectangular panel according to claim 5, characterized in that the number of discrete reinforced concrete bonds is selected from the ratio: one discrete reinforced concrete bond per 1.8-1.9 m ^{2 of the} area of the specified multilayer wall panel. 7. The multilayer wall rectangular panel according to claim 5, characterized in that it is provided with at least six embedded parts located in the inner layer at the corners and perimeter of the multilayer wall panel.

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