RU193776U1 - MULTI-LAYERED EXTERNAL WALL OF THE BUILDING MADE ON 3D PRINTER - Google Patents

Abstract

The utility model relates to the field of construction and can be used both in the construction of newly erected external walls of buildings and structures, and in the reconstruction of existing housing stock. The objective of the utility model is to create a construction of a multi-layer external wall of a building with reduced labor intensity, eliminating the cost overrun of external, supporting and thermal insulation layers, increasing the crack resistance of the outer and supporting layers, increasing the life of a 3D building printer, accelerating the speed of construction and providing The fixed task is achieved by the fact that the multilayer outer wall of the building, made on a 3D printer, containing the inner and middle supporting layers connected to the outer layer and the located heat-insulating layer between the outer and middle layers, the space between the middle and inner layers, reinforced vertically and poured with concrete, characterized in that the outer, middle and inner layers are made of dispersed reinforced concrete, while the inner and middle layers form a closed loop, soy The outer, middle, and inner layers were made with horizontal horizontal meshes, the space between the middle and inner layers was poured with concrete with aggregate fractions not exceeding the mesh size. The technical result of the utility model is to reduce the laboriousness of manufacturing, eliminate material overruns, and increase crack resistance of a multilayer outer wall building, increasing the resource of the construction 3D printer, accelerating the speed of construction. Thus, the proposed solution allows to obtain s in the construction of 3D-printers multilayer outer wall of the building with reduced complexity manufacturing to quality assurance and material savings.

Description

The utility model relates to the field of construction and can be used both in the construction of newly constructed external walls of buildings and structures, and in the reconstruction of the existing housing stock.

Known three-layer outer wall containing an inner supporting layer, the outer layer and the heat-insulating layer located between them and passing reinforcing rods inside the heat-insulating layer [1]. A disadvantage of the known design is the complexity of manufacturing the outer and inner layers, as well as the complexity of installing reinforcing rods.

The closest analogue to the claimed utility model is a multilayer outer wall of the building, containing the inner and middle supporting layers connected to the outer layer by horizontal bonds and a heat-insulating layer between the outer and middle layers, made by a 3D construction printer, the longitudinal connections of which were established during the wall erection process , and the space between the middle and inner layers is reinforced vertically and filled with heavy concrete [2]. A disadvantage of the known design consists in the complexity of installing horizontal ties along the height and width of the multilayer outer wall, the overspending of the materials of the outer, supporting and heat-insulating layers due to their variable thickness associated with the curved outline of the middle layer and the low crack resistance of the outer and bearing layers, reducing the life of the 3D building printer due to the manufacture of a complex curved surface of the middle bearing layer, as well as the low speed of construction due to the need technological breaks for hardening, associated with the low rigidity of the freshly formed structure, in the impossibility of fixing vertical reinforcement in the cavities between the middle and inner layers without additional devices.

The objective of the utility model is to create a construction of a multilayer outer wall of a building with reduced labor intensity, to avoid overspending of materials of the outer, bearing and heat-insulating layers, increasing crack resistance of the outer and bearing layers, increasing the resource of a 3D building printer, accelerating the speed of erection and securing reinforcement fixation.

The problem is achieved in that the multilayer multilayer outer wall of the building, made on a 3D printer, containing the inner and middle supporting layers connected to the outer layer and the heat-insulating layer located between the outer and middle layers, the space between the middle and inner layers, vertically reinforced and filled with concrete, characterized in that the outer, middle and inner layers are made of dispersed reinforced concrete, while the inner and middle layers form a closed loop, the connection of zhnogo, middle and inner layers formed flat horizontal grids, the space between the middle and inner layers is filled with a concrete aggregate size fraction, not exceeding the size of the grid cell.

In FIG. 1 shows a transverse horizontal section of the wall; in FIG. 2 - fragment of a multilayer outer wall in a perspective view.

The multilayer outer wall of the building contains rectilinear outer layer 1 parallel to each other, the middle layer 2, the inner bearing layer 3, made of dispersed reinforced concrete by the method of layer-by-layer extrusion on a 3D building printer (for example, AMT S-6044 of SPETSAVIA LLC "). Layer 4 between 1 and 2 layers is filled with insulation. Layer 5 is vertically reinforced with reinforcement 6 and filled with concrete. Layers 1, 2, 3, 4, 5 are rigidly connected to each other with the help of flat horizontal grids laid in the process of layer-by-layer production of a wall with a step that is necessary in height. Horizontal grids can be made of steel or non-metallic reinforcement.

Parallel rectilinear molding of the outer layer 1, the middle layer 2, the inner bearing layer 3 will allow to eliminate the overspending of the materials of the outer layer 1, the bearing layers 2, 3, 5 and the insulating layer 4 due to ensuring their constant thickness along the length of the multilayer outer wall, as well as to increase the life of the building 3D-printer due to the lack of operations associated with the manufacture of complex curved surfaces of the formed layers.

The use of flat horizontal grids 7 will reduce the complexity of manufacturing a multilayer outer wall due to the absence of the need for horizontal single ties along the height and width of the structure, and also allows to increase the crack resistance of the outer layer 1, the supporting layers 2, 3, 5 and provide increased rigidity of the multilayer outer wall design , which allows to accelerate the construction process, as well as to ensure the fixation of the reinforcement 6.

The use of dispersed reinforced concrete in the construction of the outer layer 1, the middle bearing layer 2 and the inner bearing layer 3 will increase their crack resistance.

The technical result of the utility model is to reduce the complexity of manufacturing, eliminate material overruns, increase crack resistance of the multilayer outer wall of the building, increase the resource of a 3D construction printer, and accelerate the speed of construction.

Thus, the proposed solution makes it possible to obtain a multilayer outer wall of a building on a 3D construction printer with a reduced laboriousness of production, with quality assurance and material saving.

Information sources:

1. A.S. 2243336, ЕВВ 1/76, Three-layer outer wall of the building, V. Leshchikov, patent holder Research, Design and Technological Institute of Low-rise High-Speed Housing, application. 07/11/2003, publ. 12/27/2004, bull. Number 36.

2. A.S. 172730, ЕВВ 2/10, ЕВВ 1/76, Multilayer monolithic wall, Ostanin A.A., patentee Ostanin A.A., application. 10/27/2016, publ. 07/21/2017, bull. No. 21.

Claims (1)

A multilayer exterior wall of a building made on a 3D printer, containing the inner and middle supporting layers connected to the outer layer and the heat-insulating layer between the outer and middle layers, the space between the middle and inner layers, vertically reinforced and filled with concrete, characterized in that the outer, middle and inner layers are made of dispersed reinforced concrete, while the inner and middle layers form a closed loop, the connection of the outer, middle and inner layers is made flat horizontal grids, the space between the middle and inner layers is filled with a concrete aggregate size fraction, not exceeding the size of the grid cell.

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