RU47935U1 - BUILDING WALL CONSTRUCTION DEVICE - Google Patents

Abstract

The invention relates to the field of construction and can be used in the construction of load-bearing walls of buildings. An object of the invention is to simplify the erection of walls of buildings and structures through the use of porous concrete and the creation of a universal framework design, which allows for the erection of walls with the required strength in building conditions while increasing its reliability and reducing material costs. The problem is achieved due to the fact that the device for the erection of walls of buildings and structures, including a frame for attaching a removable or fixed formwork, the internal space of which, after mounting the frame and installing it in the design position, is filled with hardening mortar, characterized in that the frame is made in the form of a cellular spatial lattice structure of frames connected by jumpers using one-piece joints, and porous concrete was used as a hardening mortar.

Description

The invention relates to the field of construction, and in particular to devices for the construction of buildings and structures.

The prior art method of erecting walls of a building, including mounting frame-forming elements, installing them in the design position, formwork sheathing, filling with a hardening solution the space between the formwork and frame-forming elements (see patent FR 2406041A1, 05/11/1979).

The disadvantage of this method is its rather complicated implementation and high material costs.

In addition, a prior art device for erecting walls of buildings and structures, including a frame for fastening the formwork, the internal space of which, after mounting the frame and installing it in the design position, is poured with a hardening solution (see US patent 5456444A, IPC E04G11 / 10.10.10. 1995).

A disadvantage of the known device is the complexity of its installation, insufficiently high reliability of the frame during operation and the need to carry out laborious finishing work after removal of the formwork.

An object of the invention is to simplify the erection of walls of buildings and structures through the use of porous concrete and the creation of a universal framework design, which allows for the erection of walls with the required strength in building conditions while increasing its reliability and reducing material costs.

The problem is achieved due to the fact that the device for the erection of walls of buildings and structures, including a frame for attaching a removable or fixed formwork, the internal space of which, after mounting the frame and installing it in the design position, is filled with hardening mortar, characterized in that the frame is made in the form of a cellular spatial lattice structure of frames connected by jumpers using one-piece joints, and porous concrete was used as a hardening mortar. The frame can be made of wood in the form of a spatial lattice structure with a mesh size of at least 40x45x40

see. On the surface of the frame inside the building, a fixed formwork can be installed, ready for finishing, from sheets made of a number of materials: drywall, plywood, chipboard, etc. , and inside the frame before pouring the mortar can be placed communications of the building.

The invention is illustrated by drawings, which shows a General view of the frame. The device for erecting walls is a universal non-supporting and non-removable frame formed by jumpers 1 and frames 2. The frame is mounted in the design position and sheathed with formwork in the form of removable or non-removable external and internal cladding 3 and 4, made, for example, of drywall, plywood, chipboard or similar materials. The frame is formed in the form of a spatial lattice of cells, each of which is assembled from two frames 2 and four jumpers 1. On the first cell from the top and side, with the help of jumpers 1 and frames 2, the next frame-forming elements are built up to obtain the given geometric dimensions of the wall with a length of "l "And a height of" h ". As the material for the frame, wood, plastic and other materials can be used, the products of which are easy to connect with each other and to which it is easy to attach the formwork sheets. For example, in the manufacture of a frame from wooden battens, its elements and the skin of the frame are connected with simple nails or screws. If the frame is made of plastic, special nests are made in the corners of the frames, and locks on the jumpers.

The dimensions of the cell frame are selected depending on its material and the material of the casing, since the fastening of the casing must withstand the pressure of the porous concrete when it is poured into the space between the casing. When using wooden slats, drywall and screws as a fastening means, the cell dimensions (x x b x e) should exceed 40x45x40 cm. Making a smaller cell is impractical, because this increases the complexity and cost of work.

Casing 3 and 4 can be attached to the frame removable or non-removable.

To simplify the construction process, it is advisable to use non-removable sheets of material, for example, drywall, as a sheathing indoors, which are ready for finishing. After the construction of the wall, it is enough to paint the sheet or paste the wallpaper and the room will be ready for operation.

The construction of walls is carried out by pouring into the assembled frame with

communications installed inside it along its perimeter of lightweight porous concrete with a density of 150 to 1200 kg / m ³ from a pouring hose connected to the installation for its production at a speed depending on the performance of the installation. After pouring, the porous concrete is maintained until it is completely hardened, its specific gravity after hardening must correspond to the design.

An example implementation.

Closed Joint-Stock Company “Selena” built a 3-storey cottage using the proposed device in the 3rd district.

The walls were erected using a frame made of wood in the form of a spatial lattice structure with a cell size of 40x45x40 cm. The internal fixed paneling is made of drywall sheets, and the external panel is removable from plywood sheets. Fastening is carried out using screws. All communications to the building were mounted in the spatial structure of the frame before pouring it with porous concrete. To prepare the mixture for pouring, the modernized Super-Mixer ST-10 was used, the productivity of which is 5 m ³ / hour. The mixture was supplied to the place of laying by a plastic sleeve. As starting materials for the mixture were used - river sand, Portland cement M-500, water and foam concentrate.

The density of the porous concrete used to build this cottage was 650 kg / m ³ in the dry state, and its compressive strength was 3.05-3.15 MPa.

The device will allow for the construction of load-bearing and non-bearing walls of porous concrete with the required strength in building conditions while increasing its reliability and reducing material costs through the use of porous concrete with a density of 150 to 1200 kg / m ³ , as well as by creating a universal frame in the form spatial lattice design.

Claims (4)

1. A device for erecting walls of buildings and structures, including a frame for mounting formwork from removable or non-removable cladding, the internal space of which, after mounting the frame and installing it in the design position, is filled with a hardening mortar, characterized in that the frame is made in the form of a cellular spatial lattice structure of frames connected by jumpers using one-piece joints, and porous concrete was used as a hardening mortar. 2. The device according to claim 1, characterized in that the frame is made in the form of a spatial lattice structure made of wood with cell sizes exceeding 40 × 45 × 40 cm. 3. The device according to claim 1, characterized in that on the surface of the frame inside the premises there is fixed paneling, ready for finishing, from sheets made of a number of materials: drywall, plywood, chipboard. 4. The device according to claim 1, characterized in that the building's communications are placed inside the frame before pouring the solution.