RU118990U1 - WALL - Google Patents

Abstract

1. A wall containing a permanent formwork consisting of an outer layer and an inner layer made of slabs, insulation fixed to the outer layer of the formwork, concrete poured into the space between the insulation and the inner layer of the formwork, a reinforcing cage, characterized in that the outer layer is non-removable the formwork is made by means of masonry from piece factory blocks and at the level of the height of the slabs of the inner layer of the formwork is equipped with reinforcing nets protruding towards the insulation, for fastening the assembly ties, with the second end fixed on the slabs of the inner layer of the permanent formwork. ! 2. A wall according to claim 1, characterized in that chips-cement, particle-cement or fiber-cement boards are used as slabs of the inner layer of the permanent formwork. ! 3. The wall according to claim 1, characterized in that the protrusion of the masonry mesh towards the insulation is 1.5-2.0 cm! 4. Wall according to claim 1, characterized in that the reinforcing cage is made of vertical and horizontal reinforcement and / or mesh and / or spaced space cages.

Description

The utility model relates to the ground construction of a building, in particular, to the technology of building buildings by erecting walls in place in a fixed formwork.

Famous wall, made by the construction technology Velox (Velox), developed by the Austrian company Velox for the accelerated construction of insulated housing. The wall includes: fixed formwork made of wood-cement slabs installed parallel to each other and fastened with wire ties; external insulation - extruded polystyrene foam laid in a single technological cycle with an external formwork plate; reinforcement in the form of rigid frames-trigons and concrete poured into the space between the insulation and the internal plate of fixed formwork. At the same time, the outer part of the wall is plastered with cement-lime mortar, finished with siding or other facade materials.

The construction of walls using Velox technology is characterized by low cost, high installation speed, increased operational properties (heat and sound insulation, fire and seismic safety). (See: rosstro-velox.ru, velox-build.ru, velox.cz.m).

However, due to the lack of necessary rigidity of the formwork structure, it is difficult to maintain the specified axial dimensions of the building and the geometry of the walls when pouring the formwork with concrete. To impart rigidity to the construction of the formwork using Velox technology, the reinforcement is carried out by spatially rigid trigonomy frames, which are not widely used in the construction industry in Russia and the CIS, and the production of trigons is carried out on specialized expensive equipment in the factory, which in general leads to higher construction costs and makes it more difficult its complete set. After the building box is erected and the roof is installed, Velox technology assumes the need for external decoration of the facade, at the same time, until the external finishing work is completed, it is impossible to hem the curtain rods, install the drainage system, perform high-quality installation of entrance doors, etc., which reduces technological effectiveness implementation of civil works, increases construction time. Facade decoration involves subsequent maintenance and repair costs. In addition, since the outer and inner formwork layers are mounted at the same time, visual inspection and elimination of gaps in the joints of the insulation are difficult, which leads to a decrease in the thermal insulation qualities of the walls.

The objective of the solution of which the claimed technical solution is directed is to increase manufacturability, reduce the overall construction time, simplify the assembly process, reduce the cost of reinforcing concrete and subsequent maintenance costs for the maintenance of the facade.

The specified technical result is achieved by the fact that the wall contains: fixed formwork, consisting of an outer layer made by laying from piece factory blocks; insulation fixed from the inside to the outer layer of the formwork; reinforcing cage made of vertical and horizontal reinforcement, and / or mesh, and / or spaced spatial frames; concrete poured into the space between the insulation and the inner layer of fixed formwork made of slabs. In this case, the outer layer of the formwork is provided with reinforcing nets protruding 1.5–2.0 cm towards the insulation to the height of the inner formwork plates. For mounting mounting ties, the second end of the fixed formwork fixed to the plates of the inner layer. As the plates of the inner layer of the formwork, chip-cement, particle-cement or fiber-cement plates are used.

Figure 1 presents a General view of the wall, figure 2 is a wall in section along aa.

The wall consists of a fixed formwork, the outer layer 1 of which,

made by masonry from piece factory blocks (for example, in ½ brick); insulation 2 (for example, polystyrene foam) fixed on the inner side of the outer layer 1 of the formwork; reinforcing cage, consisting, for example, of horizontal 5 and vertical 6 reinforcement; concrete 3, poured into the space between the insulation 2 and the inner layer 4 of fixed formwork made of plates. After a certain number of rows of brickwork of the outer layer 1 of fixed formwork (equal to the height of one slab of the inner layer 4 of fixed formwork), a reinforcing mesh 7 is laid in the brickwork so that it protrudes toward the insulation 2 by 1.5-2.0 see for mounting mounting screeds 8, the second end, fixed on the slabs of the inner layer 4 of the formwork. Reinforcing frame can be made both directly at the construction site, and in the factory.

Inside the wall, for pouring concrete, if necessary, engineering communications can be laid; ventilation ducts, heat pipes, water pipes. Concrete can be poured, either in stages, in one or two rows of formwork, or in stages, i.e. immediately to the entire height of the floor.

The proposed wall is erected in the following sequence:

1. At the first stage, the external 1 layer of fixed formwork is erected to the floor height by means of masonry from factory piece blocks (for example, in ½ brick). In the process of erecting the outer formwork layer 1, reinforcing nets are inserted into it along the height of the slabs of the inner formwork layer 4.

2. After the construction of the outer layer of the formwork to it along the perimeter to the height of the floor, the insulation is fastened using glue, mastic, and / or dowel nails. The insulation is attached with a gap of 0.5-1.0 cm in places of laying reinforcing nets 7 in the masonry.

3. Next, with a certain technological gap to the insulation 2, a reinforcing cage made of vertical 6 and horizontal 5 reinforcement, and / or mesh, and / or spaced spatial frames is installed.

4. With a certain technological gap to the reinforcing cage, rows of plates of the inner layer 4 of fixed formwork are installed, which are fastened by means of mounting ties 8 to the reinforcing mesh 7 of the outer formwork layer.

5. After mounting the inner layer 4 of the formwork, the gap in the insulation 2, in places where the reinforcing nets 7 are laid in the masonry, is filled with mounting foam or sealant.

6. Filling the formwork with concrete can be carried out both in layers, during installation of the formwork, and the entire height of the floor.

Thus, the use of wall structures in the construction of buildings according to the claimed technical solution allows to ensure:

- improving manufacturability and reducing the overall construction time due to the construction of the wall structure and facade decoration in one technological cycle.

- reducing the cost of reinforcing concrete, with a simplified picking process, by abandoning expensive rigid frames-trigons and performing reinforcement with both frames and factory-made nets, or made directly at the construction site;

- the accuracy of the axial dimensions and the geometry of the walls, due to the rigidity and stability of the outer layer of fixed formwork made by laying from piece factory blocks;

- high quality thermal insulation of walls due to the availability of performance and controllability of the installation process of insulation, performed after the erection of brickwork.

- reduction of subsequent operating costs for the repair of facades.

Claims (4)

1. A wall containing a fixed formwork consisting of an outer layer and an inner layer made of slabs, insulation fixed to the outer layer of the formwork, concrete poured into the space between the insulation and the inner layer of the formwork, a reinforcing cage, characterized in that the outer layer is fixed the formwork is made by masonry from piece factory blocks and, at the level of the slabs of the inner layer of the formwork, is equipped with reinforcing nets that protrude towards the insulation, for fastening the mounting screeds, the second end is fixed on the plates of the inner layer of permanent formwork. 2. The wall according to claim 1, characterized in that as the plates of the inner layer of fixed formwork, chip-cement, particle-cement or fiber-cement plates are used. 3. The wall according to claim 1, characterized in that the protrusion of the masonry mesh in the direction of the insulation is 1.5-2.0 cm 4. The wall according to claim 1, characterized in that the reinforcing cage is made of vertical and horizontal reinforcement, and / or mesh, and / or spaced spatial frames.