UA13321U - Multi-layer protective wall structure - Google Patents

Abstract

The multi-layer protective wall structure has the outer lining layer and bearing layer, those are connected to each other by links, and heat-insulation layer, this is placed between the outer and the inner layers. The structure has arbitrary shape and profile, the outer lining layer is at the inner side provided with layer of shotcrete, the inner bearing layer is made of reinforced shotcrete. The links, mostly with horizontal orientation, are arranged mostly as rods and connected with the inner layer of the shotcrete.

Description

Description of the invention

The useful model refers to construction, more precisely to multi-layer enclosing wall 2 structures and can be used in the construction of buildings: as a load-bearing structure for low-rise buildings and as a self-supporting structure for high-rise buildings and structures.

A known heat-insulating-reinforcing panel containing two welded metal meshes, which are connected to each other by flexible diagonal ties, and a middle layer of foam. This panel is intended for the construction of monolithic three-layer external walls of buildings |11. 70 The disadvantage of the well-known heat-insulating-reinforcing panel is the presence of a significant number of diagonal connections (more than 7Osht/m2) between the grids, which are necessary to achieve installation rigidity, which leads to a significant decrease in thermal parameters. In addition, the known design involves the use of only rigid types of insulation, as well as the use of lifting mechanisms and the impossibility of creating such a panel in the conditions of the construction site due to the specifics of the technological process, which complicates it. t The closest in terms of technical essence to the proposed construction is the well-known three-layer wall, which contains a load-bearing inner layer, a layer of rigid insulation and a facing layer made of brick, connected to the load-bearing inner layer with the help of metal staples (21.

Common features of the known and the claimed device are the presence of an outer facing layer and an inner bearing layer, which are interconnected by ties, as well as a heat-insulating layer located between the outer and inner layers.

The disadvantages of the known device include limited functionality due to the requirement to use only rigid insulation in it, which perceives the active pressure of the wind and transfers it to the main bearing layer, as well as the limitation of the height of the wall, which is associated with different deformation of the bearing and facing layers and insufficient stability of the facing layer, which leads to insufficient rigidity of the 29 structure and its thermal performance. -

The basis of the useful model is the task of improving the multilayer wall enclosing structure, in which, due to its completely different structure with additional layers of shotcrete and ties, an increase in rigidity, stability and strength of the structure, as well as thermal insulation, waterproofing and frost resistance indicators, is ensured manufacturability, reduction of labor intensity and - 3o material intensity due to more complete use of strength properties of concrete and reinforcement, Ge! expansion of functional capabilities due to the possibility of varying the shape and profile of the structure, the choice of different concrete, type and material of the heat-insulating layer with specified parameters, and due to this, monolithicity and high stability of the structure during installation and operation are achieved, which leads to an increase in operational reliability and heat resistance of the structure, increasing the service life, as well as ensuring energy efficiency, which leads to a decrease in the costs of heating objects made of the proposed blocks, and a reduction in the installation time of the enclosing wall structure due to a significant reduction of small artificial building materials and its erection without the use lifting mechanisms directly on the construction site. The task is achieved by the fact that a multi-layered enclosing wall structure, which includes an external facing layer and an internal bearing layer, which are connected to each other by ties, as well as a heat-insulating layer located between the external and internal layers, respectively to a useful model, it has any shape and profile, the outer facing layer from the inside is provided with a layer of shotcrete, the inner bearing layer is made of reinforced shotcrete, and the connections, mainly horizontally oriented, are made, mainly in the form of rods, and with connected with a reinforced inner layer of 395 shotcrete.

In addition, in some specific cases, the proposed multi-layer enclosing wall (95) construction is characterized by the following features: it is equipped with dowels, which are formed due to through holes in the heat-insulating layer, which are filled with concrete, mainly shotcrete, and are made mainly in places where connections connecting the inner and outer layers; connections that connect up to 50 inner and outer layers are located discretely; the layer of shotcrete, which is located on the inner side of the facing layer, is reinforced; the facing layer is made in the form of a stone layer of half a brick and has reinforcing elements; it is equipped with a vertical riser, which is located in a heat-insulating layer; the heat-insulating layer is made of any type and from any effective heat-insulating material, including completely from one material or a combination of several materials, 59 depending on the purpose and operating conditions. c As a result of the use of the claimed useful model, it is ensured that the technical result is obtained, which consists in increasing the stiffness, stability and strength of the structure, as well as thermal insulation, waterproofing and frost resistance indicators, improving its manufacturability, reducing labor and material consumption due to more complete use of strength properties concrete and reinforcement, because the expansion of functional capabilities due to the possibility of varying the shape and profile of the structure, the choice of various concrete, type and material of the heat-insulating layer with the specified indicators.

Due to the presence of distinctive essential features, the proposed design makes it possible to perform it in any shape and profile with the choice of the most effective material of the heat-insulating layer depending on the purpose and conditions of operation, which expands the functional possibilities during its use. Execution of an additional layer of shotcrete on the inner side of the facing layer and the internal bearing layer of reinforced shotcrete in the presence of connections, mainly horizontally oriented, connecting the inner and outer layers, in the form of rods, and their connection with the reinforced inner layer of shotcrete, allows you to ensure monolithicity and increase the rigidity, stability and strength of the structure, which leads to an increase in its operational reliability, as well as to ensure its manufacturability during installation. At the same time, its waterproofing, heat-insulating and frost-resistant properties increase, which leads to an improvement in operational and consumer indicators. In addition, shotcrete ensures the absence of discrete connections when switching any architectural building systems, which allows you to create a multi-layer enclosing wall structure of any shape and profile, which expands the functionality when using it. In general, 7/o Distinctive features of the claimed device are essential and necessary to achieve a new technical result.

According to the information available to the applicants, the set of essential features characterizing the essence of the claimed utility model is not known from the state of the art, which allows us to conclude that the utility model meets the "novelty" criterion. The claimed useful model can be repeatedly implemented during the construction of buildings and structures with the expected technical result, which allows us to conclude that it meets the "industrial suitability" criterion. Thus, the claimed utility model meets all the conditions for its patentability.

The essence of the useful model is explained by the drawings, where Fig. 1 shows a cross-section of a multi-layer enclosing wall structure with stone cladding, applicable for load-bearing and self-supporting walls 2o depending on loads, and Fig. 2 shows a cross-section of a multi-layer enclosing wall structure with stone cladding for load-bearing walls using various cases of its implementation.

The proposed multi-layer enclosing wall construction can have any shape and profile, and contains (see Fig. 1): an external facing layer 1, preferably stone, on the inner side of which is a layer of shotcrete 2. Adjacent to it is a thermal insulation layer 3, which is made of any type and of any highly effective heat-insulating material, including entirely from one material or a combination of several materials, depending on the purpose and conditions of operation. The material can be any lightweight and effective insulation that has given properties (heat-sound insulation and other consumer qualities): structural or other effective heat-insulating material, for example, foam plastic, polystyrene foam, foam glass, mineral wool or other composite materials. On the surface of the heat-insulating layer Z, an internal load-bearing layer 4 of reinforced shotcrete, facing the inside of the building, is made. The type of concrete, external facing layer 1, its thickness and the thickness of shotcrete layers 2, 4 (for example, 30-bO0mm) and c heat-insulating layer C (for example, 100-200mm) is regulated and selected depending on the required characteristics and performance of the enclosing wall structure. The outer facing 1 and the inner bearing 4 layers are connected to each other by bonds 5, which are preferably horizontally oriented, and are made, preferably in the form of me) rods of any design, cross-section and from any strong, preferably anti-corrosion material. "-

For example, the rods have a diameter of 3-4 mm and are made of metal (stainless steel or galvanized steel) or of any composite material (fiberglass), which makes it possible to exclude corrosion of the rods at the boundaries between concrete and heat-insulating layers. At the same time, ties 5 are rigidly connected to the reinforced inner bearing layer of shotcrete 4 and passed through the heat-insulating layer 3, shotcrete layer 2 and outer facing "0" layer 1, where their ends are monolithed. The structure has a reliable rigid contact (coupling) of all layers, which ensures monolithicity and high stability during installation and operation, and also enables the use of small wall structures. In addition, as examples of specific implementation of multi-layered ;" of the enclosing wall structure, it may have the following structural features (see Fig. 2). The structure can be supplied with dowels b, formed due to through holes in the heat-insulating layer 3, filled with concrete, preferably shotcrete, and made mainly in the places where connections 5 pass, which connect the inner 4 and outer 1 layers, which makes it possible thin-walled shell to form a joint rigid spatial structure. Connections 5 connecting the inner 4 and outer 1 layers can be located discretely, and the shotcrete layer 2, which is located on the inner side of the facing layer 1, can be 2) reinforced. The outer facing layer 1 can be made, for example, in the form of a stone 5th layer of a half-brick, and to increase rigidity, strength and reliability, have reinforcing elements 6, for example, mesh. A multi-layer enclosing wall structure can be equipped with a vertical riser (not shown in the drawing), which is located in a heat-insulating layer, which allows you to reduce its thickness, while maintaining the hardness, strength and reliability of the structure.

The proposed multi-layer enclosing wall structure is erected directly on the construction site without the use of lifting mechanisms (crane), which is its advantage in comparison with the known ones, which are traditionally manufactured in another place far from the construction site, in factory conditions using special equipment, which leads to significant costs . The construction of the proposed wall enclosing structure allows not to delay the technological process of erecting the building, to improve its manufacturability and to shorten the installation time of the wall enclosing structure due to a significant reduction of building materials, which in general significantly shortens the construction time of the entire building. When installing the proposed structure, the outer facing layer 1 of the given shape and profile is first performed. For example, in the form of a stone layer of half-brick with reinforcing elements 6 in the form of a grid and with the installation of rigid connections 5 in the form of rods, preferably horizontally oriented. The following work on the erection of the structure is carried out from the inside of the building as follows. A layer of shotcrete 2 is applied to the inner side of the facing layer 1. Then, on this 65 surface, the installation or application of the thermal insulation layer C - any effective insulation is carried out.

Next, the reinforcing mesh is attached to the rod 5 and other elements on the heat-insulating layer C with the subsequent application of a layer of shotcrete, resulting in the formation of an internal bearing layer 4 of reinforced shotcrete. At the same time, the design position of the thermal insulation layer C and other layers is ensured. Thus, the possibility of layer-by-layer construction of the proposed enclosing wall structure allows

To make it of any shape and profile, i.e. to carry out commutation of any architectural building systems. To further increase the stiffness and strength of the structure (see Fig. 2), in the heat-insulating layer 4, in the places where connections 5 pass, connecting the inner 2 and outer 1 layers, through holes are made, which are then filled with concrete, preferably shotcrete , due to which the keys 7 are formed. Or when performing a layer of shotcrete 2, which is located on the inner side of the facing layer 1, its reinforcement is carried out 70 using, for example, a reinforcing mesh b. If it is necessary to reduce the thickness of the structure, a vertical riser (not shown in the drawing) is placed in the heat-insulating layer C. As can be seen, the proposed multi-layer enclosing wall structure works as a thin-walled strong shell and, depending on the applicability, has a different degree of commutation when forming a spatial structure, which allows it to be performed in any shape and profile according to the project. In the technological approach used, /5 which is based on the possibility of vertical application of concrete by a mechanized method, a wall structure is formed with optimal indicators from both thermal, technological, economic and operational positions, which fully corresponds to the new trends of the industrial construction concept.

The stated technical solution has the following advantages in comparison with the closest analogue: obtaining a multi-layer enclosing wall structure with specified parameters of any shape and profile with 2-fold improved operational and consumer qualities, which allows it to be used for various projects and in various climatic conditions; provision of a monolithic structure of increased strength and stability during installation and operation, as well as its erection directly on the construction site without the use of lifting mechanisms; the possibility of solving complex problems of the enclosing wall structure of building structures and constructions.

According to this useful model, prototypes were made, which passed the tests, which confirmed the feasibility and obtaining the expected technical result and positive effect. The proposed multi-layer enclosing wall construction can be used in the construction of buildings of any storey.

Sources of information: 1. Magazine "Architecture and construction of Belarus". - ed. "Polimya".- 1992.-Mo02.- P. 11-12. - from 2. Butovsky N.N., Khudoshina O.V. Improvement of structural solutions for thermal protection of external walls, zdany. with co

Claims (7)

The formula of the invention p 35 , , , y y , y y 1. A multi-layer enclosing wall structure containing an outer facing layer and an inner bearing layer, which are connected to each other by ties, as well as a thermal insulation layer located between the outer and inner layers, which is distinguished by the fact that it has any shape and profile, the outer facing layer from the inside is provided with a layer of shotcrete, the inner bearing layer is made of reinforced shotcrete, and the connections, mainly horizontally oriented, are made, mainly in the form of rods, and are connected to the reinforced inner layer of shotcrete . 2. Multi-layer enclosing wall structure according to claim 1, which is characterized by the fact that it is equipped with "with" keys, which are formed due to through holes in the heat-insulating layer, which are filled with concrete, preferably shotcrete, and are made mainly in the places where connections pass, which connect the inner and outer layers. - C. A multilayer enclosing wall structure according to claim 1, which is characterized by the fact that the connections that connect the inner and outer layers are discretely located. o 4. Multi-layer enclosing wall structure according to claim 1, which is characterized by the fact that the layer of shotcrete, which is located on the inner side of the facing layer, is reinforced. 5. A multi-layer enclosing wall construction according to claim 1, which is characterized by the fact that the facing layer is made in the form of a stone layer of half a brick and has reinforcing elements. cheek 6. A multi-layer enclosing wall structure according to claim 1, which is characterized by the fact that it is equipped with a vertical riser located in a heat-insulating layer. 7. A multi-layer enclosing wall structure according to claim 1, which is characterized by the fact that the heat-insulating layer is made of any type and of any effective heat-insulating material, including entirely from one material or a combination of several materials, depending on the purpose and operating conditions . 60 b5