RU164519U1 - FENCING WALL DESIGN - Google Patents

Abstract

1. The enclosing wall structure, comprising an inner layer of blocks and an outer layer of external facing plates installed with a gap of at least 20 mm; the blocks are made of light concrete, a metal profile is installed on one of the faces of each block during the formation, the blocks are placed between monolithic reinforced concrete floors of the floors, interconnected with a mortar, blocks of adjacent rows are displaced relative to each other by half their length; external cladding plates are fixed on vertical fastening profiles attached to monolithic reinforced concrete floors of floors and to metal profiles of blocks of the inner layer, characterized in that the blocks are laid so that a face with a metal profile is oriented upwards, and vertical fastening profiles are attached to metal profiles of blocks of the inner layer by means of perforated metal fixing brackets. 2. The enclosing wall structure according to claim 1, characterized in that the outer cladding plates are fixed on the vertical fastening profiles with clamps.

Description

The utility model relates to the field of construction, namely to the technology of frame housing construction, and can be used in the construction of multi-layer walling.

Known enclosing wall structure (Sementsov SA Stone structures. Modern problems of building structures. M .: State publishing house of literature on construction and architecture, 1953, p. 63, p. 134), having an inner layer of blocks and an outer layer of brick masonry.

The disadvantages of this design are the relatively high specific weight of the structure, the complexity and complexity of its construction, high cost, as well as the architectural and aesthetic uniformity of the facade.

Known enclosing wall structure (Patent for the invention of the Russian Federation No. 2148129, IPC EV 2/02, 2000), including an inner layer of blocks and an outer layer of brickwork, the blocks are made of aerated concrete and placed between monolithic reinforced concrete floors of floors and interconnected by a building mortar and horizontally, in addition, with reinforcing meshes, the brickwork is made to the width of the facing bricks with their longitudinal location and the interconnection of the mortar, while the bricks of adjacent rows are displaced to a friend is half their length relative to each other, and the bricks in contact with the reinforcing meshes below are placed with their transverse arrangement in the grooves of aerated concrete blocks.

The disadvantages of this design are the relatively high specific weight of the structure, the complexity and complexity of its construction, as well as the architectural and aesthetic uniformity of the facade.

A FENCING WALL DESIGN is known (RF Patent for Utility Model No. 143759, IPC EV04/02, 2014), adopted as a prototype, including an inner layer of blocks placed between monolithic reinforced concrete floors of floors and interconnected with a mortar, blocks of adjacent rows are offset relative to each other at half their length, the blocks are made of lightweight concrete, a metal profile is installed on one of the faces of each block in the formation process, and laid so that a face with a metal profile is oriented outward nyuyu side of the partition structure, the outer layer of which is mounted with clearance to the inner layer of not less than 20 mm and is made of the outer facing plates mounted on a vertical mounting profile attached to a monolithic reinforced concrete floor slab and the metal profiles of the inner layer blocks. Blocks are made of polystyrene concrete or foam concrete. On two opposite faces of each block in the process of formation, metal profiles are installed. External cladding plates are fixed on vertical fastening profiles with clamps.

The disadvantages of this enclosing wall structure are the complexity of its construction, associated with the danger when working without external scaffolding, because fastening of vertical profiles to blocks is carried out from the outside of the building envelope.

The technical result of the claimed utility model is to increase the safety of work and the manufacturability of the process of erecting a walling.

Technically, the result is achieved in that in the enclosing wall structure, including the inner layer of blocks and installed with a gap of at least 20 mm, the outer layer of the outer cladding panels; the blocks are made of light concrete, a metal profile is installed on one of the faces of each block during the formation, the blocks are placed between monolithic reinforced concrete floors of the floors, interconnected with a mortar, blocks of adjacent rows are displaced relative to each other by half their length; the outer cladding plates are mounted on vertical fastening profiles attached to monolithic reinforced concrete floors of floors and to the metal profiles of blocks of the inner layer, the blocks are laid so that the face with the metal profile is oriented upwards, and the vertical fastening profiles are attached to the metal profiles of blocks of the inner layer by perforated mounting corners made of metal. External cladding plates are fixed on vertical fastening profiles with clamps.

In FIG. 1 shows a wall enclosure; FIG. 2 shows a sectional wall enclosure.

The following notation is introduced in the drawings: monolithic reinforced concrete slab 1, blocks 2 with metal profiles 3, fixing profiles 4, external cladding 5, perforated fixing corners 6, mortar 7.

The inner layer consists of blocks 2, placed between monolithic reinforced concrete floors of 1 floors, interconnected with mortar 7. Blocks 2 are made of lightweight concrete - from polystyrene concrete or foam concrete. A metal profile 3 is installed on one of the faces of each block 2 during the formation process to ensure that perforated mounting angles 6 can be attached to it. It is possible to use blocks 2, metal profiles 3 are installed on two adjacent faces of each of them during formation. When laying the inner layer the blocks 2 are oriented with one face with the metal profile 3 up, the second face with the metal profile 3 will be oriented to the room. This provides the ability to attach to the block 2 on top of the perforated mounting corners 6, and indoors decoration materials. The outer layer consists of outer cladding plates 5, made, for example, of granite. It is possible to use external facing plates of 5 different textures, colors, which improves the architectural and aesthetic appearance of building facades. The outer cladding plates 5 are fastened with clamps (not shown in the drawing) to the fastening profiles 4 mounted vertically. The Klyammer is a universal fastener in the form of specially curved metal plates with elastic clamps, for porcelain stoneware plates, from corrosion-resistant heat-resistant sheet stainless steel AISI-430 and AISI-201, the thickness of the clamp for ceramic granite is 1-1.2 mm. (http://www.amk-stroy.ru/kljammer-dlja-keramogranita.html). Cladding plates 5 of the outer layer are installed with a gap of at least 20 mm to the inner layer of blocks 2 to provide ventilation. Fixing profiles 4 are attached to both monolithic reinforced concrete floors 1 and to blocks 2, by means of perforated fixing corners 6, for example by screws, and fixing to blocks 2 is made in a metal profile 3.

Enclosing wall structure is made as follows.

Work on the manufacture of the claimed enclosing wall structure is carried out after the construction of the load-bearing enclosing structures of the internal walls, columns and monolithic interfloor reinforced concrete floor 1. The construction of the claimed enclosing wall structure is carried out without external scaffolds from the inside of the building being erected. On monolithic reinforced concrete floors 1, perforated mounting angles 6 are fixed, to which vertical mounting profiles 4 are fastened, ensuring plane alignment for the installation of external cladding plates 5. The distance between adjacent vertical fastening profiles 4 should correspond to the width of the external cladding plates 5. Vertical fastening profiles 4, for example "Hat" is selected from the condition of providing a gap between the facing plates 5 of the outer layer and the inner layer of blocks 2 of at least 20 mm. Fasteners, for example screws, are screwed into perforated mounting corners 6 for connecting monolithic reinforced concrete floors 1 with vertical fastening profiles 4 from the inside of the building being erected. Clasps are attached to the vertical mounting profiles 4 for installing the first row of cladding plates 5. In the clasps mounted on the metal profiles 4, the first row of external cladding plates is installed 5. The clasps are mounted on the cladding plates 5 and fixed on the metal profiles 4, for fixing the first and mounting the second row of external cladding plates 5. Installation of the outer layer of the outer cladding plates 5 is continued until a monolithic reinforced concrete floor 1 of the next floor is reached. Then, the inner layer of blocks 2 is mounted. On the mortar 7, the first row of blocks 2 with metal profiles 3 is installed, orienting the faces with metal profiles 3 up. Blocks 2 are stacked in rows and interconnected with mortar 7, blocks of adjacent rows are displaced relative to each other by half their length. After laying the first row of blocks 2, perforated mounting corners 6 are attached to metal profiles 3 of blocks 2, to which vertical mounting profiles 4 are mounted on which the outer cladding plates are already fixed 5. Such fastening increases the strength and reliability of the enclosing wall structure. Fasteners, such as screws, are screwed into the perforated mounting angles 6 to connect the blocks 2 with the vertical mounting profiles 4 from the inside of the building being erected. Installation of the inner layer of blocks 2 is continued until a monolithic reinforced concrete floor 1 of the next floor is reached. The conjugation of the inner layer of blocks 2 with a slab of monolithic reinforced concrete floors 1 of the next floor is sealed, for example, with polystyrene concrete mortar or other effective insulation. Further, the process of erecting a walling is carried out in a similar manner.

Thus, the construction of the proposed walling is safe, ensures the continuity of the technological sequence of construction of walling. In addition, the proposed enclosing wall structure provides the required regulatory heat-shielding properties with a thickness of fencing up to 450 mm, and also improves the architectural and aesthetic appearance of the facades of constructed buildings.

The introduction of the proposed enclosing wall structure in the practice of construction gives significant savings in thermal energy spent on heating residential buildings, and can improve the quality of housing while reducing the cost of construction.

Claims (2)

1. The enclosing wall structure, comprising an inner layer of blocks and an outer layer of external facing plates installed with a gap of at least 20 mm; the blocks are made of light concrete, a metal profile is installed on one of the faces of each block during the formation, the blocks are placed between monolithic reinforced concrete floors of the floors, interconnected with a mortar, blocks of adjacent rows are displaced relative to each other by half their length; external cladding plates are fixed on vertical fastening profiles attached to monolithic reinforced concrete floors of floors and to metal profiles of blocks of the inner layer, characterized in that the blocks are laid so that a face with a metal profile is oriented upwards, and vertical fastening profiles are attached to metal profiles of blocks of the inner layer by means of perforated metal fastening corners. 2. The enclosing wall structure according to claim 1, characterized in that the outer cladding plates are fixed on the vertical fastening profiles with clamps.

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