RU2681747C1 - Three-chamber wall construction profile - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to construction, namely to elements of building structures, and can be used as a fixed formwork for monolithic construction of buildings and structures. Technical result is achieved by the fact that the three-chamber wall construction profile includes lateral parallel spaced longitudinal walls connected by perpendicular partitions, and two partitions arranged parallel to the longitudinal walls, forming three cavities to accommodate the structural material, and in perpendicular partitions of the extreme cavities there are holes for pouring concrete, with the side longitudinal walls, connected by partitions, form an elongated hollow volumetric figure of rectangular section with openings in its four sides, moreover, two parallel openings are provided with retaining elements, made in the form of shaped grooves-hooks, placed along the entire length of the edge of each longitudinal wall of one opening with the possibility of connection with the grooves-hooks of the longitudinal walls of the parallel opening.EFFECT: technical result is to increase the reliability of the connection of multi-chamber wall building profiles.1 cl, 6 dwg

Description

The technical solution relates to the field of construction, namely to the elements of building structures, and can be used as fixed formwork in the monolithic construction of buildings and structures.

The analysis of technical solutions used in the monolithic construction of buildings and structures showed the use of building blocks, for example, a building block is known containing side walls connected by partitions, forming a space for monolithic, as well as fixing elements: horizontal ledges and end walls, ridges on end ledges protruding above the walls to a height of 0.02-0.1 from the height of the walls, grooves of horizontal walls corresponding to the location, configuration and size of the ridges, (see patent RU No. 2074931 C1, 04V 2/08).

The disadvantages of the known technical solutions include the complexity of the design of the unit, a lot of weight, which increases the labor and transportation costs to the construction site.

A known building block containing lateral longitudinal walls connected by partitions with the formation of cavities for placement of a structural and / or heat-insulating liner and locking protrusions (see patent RU No. 2162500 C1, IPC EV 2/16).

The disadvantages of the known block include: the high complexity of manufacturing the block, low reliability of fixing blocks.

Among the profiles used in construction, a profile made of a polymeric material is known, used for edging window and door slopes, wall corners, containing at least two adjacent walls (see patent RU No. 41769 U1, IPC E04F 19/00)

Known profile molded products from a polymer composition made by extrusion in the form of a solid profile: platband, plinth or hollow profile: window profile, element for frames of light panels, partitions, (see patent RU No. 2005752 C1, IPC C08L 97/02)

No technical solutions related to multi-chamber wall building profiles used as fixed formwork during monolithic construction of buildings and structures have been identified.

The development task is to create a three-chamber wall building profile obtained by extrusion, used to produce a universal hollow product, which is a fixed polyethylene formwork or reinforcing coating for the accelerated and simplified construction of monolithic buildings and structures of increased strength and seismic resistance.

The technical result of the claimed technical solution is to increase the reliability of the connection of multi-chamber wall building profiles.

The technical result is achieved by the fact that the three-chamber wall building profile includes parallel lateral longitudinal walls connected by perpendicular partitions and two partitions parallel to the longitudinal walls, forming three cavities for accommodating structural material, with holes for pouring concrete in the perpendicular partitions of the extreme cavities this side longitudinal walls connected by partitions form an elongated hollow volumetric figure straight of a cross-section with openings on its four sides, and two parallel openings provided with locking elements made in the form of curly grooves-hooks placed along the entire length of the edge of each longitudinal wall of one opening with the possibility of connecting with grooves-hooks of the longitudinal walls of the parallel opening.

The implementation of a three-chamber wall construction profile in the form of an elongated hollow volumetric figure of rectangular cross section with openings on its four sides and the supply of two parallel openings with locking elements in the form of grooves-hooks, allows for vertical movement of one profile relative to the other to place one hook inside the other along the length of the opening , which increases the reliability of connecting profiles with each other.

In FIG. 1 General view of a three-chamber building profile in two projections in section: a) view along arrow A in FIG. 1 b; b) view along arrow A in FIG. 1a;

In FIG. 2 Connection of two building profiles:

a) a section along AA in FIG. 2 b;

In FIG. 3 A fragment of a building structure from building profiles partially filled with concrete with reinforcement installed;

In FIG. 4 Installation of building profiles during vertical movement on hardened concrete of the first layer;

In FIG. 5 The fastening of the construction profile of the bottom row to the corner plastic or metal profiles mounted on a concrete base (foundation) is shown.

In FIG. 6 The design of the end-face corner three-chamber wall construction profile is shown.

The three-chamber wall construction profile includes two longitudinal walls: the outer street wall 1 and the inner wall 2, facing the inside of the house. Parallel walls 1 and 2 are connected by perpendicular partitions 3, forming an elongated hollow volumetric figure of rectangular cross section with openings on its four sides. In the partitions 3, holes 4 are made for pouring concrete. The wall building profile is equipped with intermediate partitions 5 and 6, placed parallel to the longitudinal walls 1 and 2 at the same distance from the longitudinal walls, dividing it into three chambers 7, 8, 9 with the formation of cavities for placement of structural material, namely: chambers 7 and 9 for pouring concrete through the holes 4 of the partitions 3, the chamber 8 for placement of insulation. Two openings of a building profile of four, namely: openings "a" and "b" parallel to each other are provided with fixing elements located along the entire length of the vertical edge of the walls in the openings in the form of grooves-hooks 10-1 and 10-2, and the grooves are the hooks 10-1 is a protruding element of the body of the C-shaped section with right angles, and the grooves of the hooks 10-2 are made of a L-shaped section. The grooves-hooks 10-2 are located inside the grooves-hooks 10-1 when the vertical movement of one building block relative to another when they are connected. End angular three-chamber building profiles are equipped with fixing elements in the form of grooves-hooks located on the entire edge of the walls of mutually perpendicular openings (Fig. 6)

The three-chamber building block is used simultaneously for the construction and decoration of the building, since it can be made of polyethylene of any color and its outer wall is used as a decorative element of the building with the possibility of applying any decor and can decorate the exterior facade of the building for a long time without additional repair and painting. The inner wall can also be made in decorative design.

Three-chamber wall construction profile is used as follows.

At the plant, workpieces of different lengths, for example, 100 cm and 60 cm, are cut from three-chamber wall building profiles, they are made up of sets and delivered to the construction site for assembly on site and filling the structure with heavy or light concrete, depending on the project. On the prepared concrete base, the metal or plastic corner profiles 12 are fixed with screws on the width of the building profile along the perimeter of the structure (Fig. 5). When installing the lower row of building profiles, in order to exclude displacements and to exclude the possibility of plastic structures floating up, when pouring concrete mortar inside, they are fixed between angular L-shaped profiles using steel screws. (Fig. 5) Building profiles are assembled in an upright position as a fence. To exclude voids when filling profile cavities with concrete, when assembling profile blanks, use different blanks in height, the approximate ratio is 1 / 2-1 / 4 and place them during assembly as follows: high, low, high, low, etc. (Fig. 3) Combining the curly grooves-hooks 10-2 with 10-1 of two building profiles, move the blank of the profile from top to bottom along the grooves-hooks as by runners, collecting the first blank of the profile from the second. Then similarly attach the next blank of the profile until the first lower row of the wall is built. The design is poured in stages. In the beginning, in the central chambers 8 of the three-chamber wall building profile, insulation lamellae are inserted or loose insulation is poured. Further, concrete is poured into the outer and inner chambers 7, 9, for example, with a height of 50 cm, the pouring height depends on the rigidity of the molds and the viscosity of the solutions. Then time is given for setting concrete. After the lower row of concrete has hardened, a second row of profiles is assembled by moving the upper profile along the grooves of the lower profile. (Fig. 4)

For high strength and seismic resistance of structures to concrete pouring, reinforcement is inserted through vertical and horizontal rows of a three-chamber profile. The reinforcement 11 is easily inserted through the openings and laid in horizontal rows and placed vertically in vertical rows. During the installation of the walls of the building, before pouring concrete, it is necessary to lay electric cable channels, mount sockets and switches. Three-chamber wall building profiles should be as light as possible, to save polyethylene or polystyrene and at the same time rigid enough so that the concrete poured into the chambers does not crush or deform this profile.

A three-chamber wall building profile in the form of a lightweight universal hollow polyethylene product with simplified assembly and reliable connection of modules from it according to the design principle, accelerating construction and facilitating the construction of monolithic buildings and structures in hard-to-reach, remote or high mountains, will find application in the construction field.

Claims (1)

A three-chamber wall construction profile, including lateral parallel longitudinal walls connected by perpendicular partitions, and two partitions parallel to the longitudinal walls, forming three cavities for accommodating structural material, with holes for pouring concrete in the perpendicular partitions of the extreme cavities, with lateral longitudinal walls connected by perpendicular partitions form an elongated hollow volumetric figure of rectangular section with Roy at its four sides, with two parallel openings are provided with locking elements are constructed as curved hooks-notches placed along the entire length of each longitudinal edge of the wall opening to be connected to the slots, hooks parallel longitudinal walls of the opening.

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