RU192364U1 - SUPPORT FORMWORK PROFILE - Google Patents

Abstract

The utility model relates to the field of construction, in particular to formwork during construction, reconstruction of buildings and structures, and can be used for the manufacture of external walling of facades and walls with external cladding of various materials, including those with stepped and other non-standard relief . The objective of the utility model is to expand the functionality of the known design of the support formwork profile and obtain support formwork profile made with possible The technical result of the utility model is the implementation of the indicated purpose. The technical result is achieved by using a supporting formwork profile containing vertical and horizontal faces connected by communication elements, connection elements passing through through holes made in the communication elements and the vertical face of the formwork profile, while izontalnaya facet profile is connectable with an additional supporting face. The horizontal edge of the profile, designed to install the facing material, is made with a bent end, which is engaged with the bent end of the attached additional support face.

Description

The utility model relates to the field of construction, in particular to formwork during construction, reconstruction of buildings and structures, and can be used for the manufacture of external walling of facades and walls with external cladding of various materials, including those with stepped and other non-standard relief .

In modern construction, frame construction has become very popular, where the main structure of the building is in the form of a monolithic concrete or steel frame. The floor structure of the floors of the building in this case is made in the form of a monolithic reinforced concrete slab or by laying ready-made reinforced concrete floor slabs on the frame with their subsequent fastening to the frame.

Here, the urgent issue always remains to reduce the complexity and costs during construction, including by simplifying the process of erecting a monolithic floor slab and a supporting platform for installing the facing material. In this case, there is a solution to the issue of the external cladding of the building, which may have a non-standard surface with a stepped relief or other local local extension relative to the vertical wall of the building.

That is, to solve these problems it is necessary to simultaneously take into account two factors: a constructive solution along the profile and the possibility of forming an external masonry with any non-standard surface.

A known design with a fixing plate, a carrier plate and a latch for attaching ceramic plates (RF patent No. 2381340, published 02.10.2010), while the carrier plate is made in the form of a T-shaped plate, which contains at least three cantilevered protrusions intended for subsequent fastening of at least one ceramic plate on each said protrusion. Said protrusions are disposed one at a time on three corresponding faces of the cap of said T-plate. The locking plate is made in the form of a plate with at least one convex focus on the edge of one of its sides. The emphasis is made along the entire length or part of said side for elastic fixation of the respective ceramic plates. The carrier plate is thicker than the fixing plate.

The presence of a fixing plate, which increases the width of the face of the carrier plate, allows you to install ceramic plates on different floors of the building, taking into account the different number of such plates, the relief of the outer surface, the organization of joints, etc. However, in this case, the device is not a formwork and does not participate in the manufacture of concrete floor slabs, which leads to the need to use additional profiles for this, which in turn complicates the installation and delays the construction process.

A known construction of a masonry support formwork profile (RF patent No. 158675, published January 20, 2016), adopted as the closest analogue to the claimed solution, containing perpendicular faces connected by communication elements, connection elements passing through through holes made in communication elements and vertical face of the shuttering profile. In this case, the communication elements are jibs or rods, and the elements of the connection of the vertical face of the formwork profile to the concrete base are anchor bolts.

The specified profile allows you to create an external contour of pouring concrete slabs, and, at the same time, forms a supporting platform for the manufacture of masonry, which greatly simplifies and optimizes the construction process.

However, the considered profile has a horizontal face of the same width along the entire length of the profile, which allows using it to produce a building cladding that has only a flat external surface. That is, the formation of local external masonry to obtain a non-standard surface relief in this case is impossible.

The objective of the utility model is to expand the functionality of the known design of the supporting formwork profile and obtain a supporting formwork profile made with the possibility of increasing the area of the horizontal face designed to install the facing material with any non-standard external surface.

The technical result of the utility model is the implementation of this purpose.

The technical result is achieved by using a support formwork profile containing vertical and horizontal faces connected by communication elements, connection elements passing through through holes made in communication elements and a vertical face of the formwork profile, while the horizontal profile face is made with the possibility of connecting with an additional support face .

The horizontal edge of the profile, designed to install the facing material, is made with a bent end that engages with a bent end made at the attached additional supporting face.

The specified option of connecting the horizontal face of the profile and the additional face is in this case preferred, but not the only one. The horizontal face of the profile and the additional support face can be connected in any way that ensures the fixation of the faces relative to each other.

The inventive supporting formwork profile, as well as the closest analogue, allows you to get a fixed formwork, which combines both formwork for the manufacture of concrete floors and support for the installation of facing material. After laying the outer cladding layer and pouring concrete, the formwork profile remains in the structure, thereby ensuring a tight connection between the joint of the floor and the wall.

Moreover, the presence of an additional reference face allows you to adjust the masonry offset relative to the vertical profile face, as well as make local local offsets if the masonry has a stepped relief of the outer surface.

The left corner formed by the vertical and horizontal faces of the thermoforming formwork serves as a support for the facing material and has a size sufficient for its reliable support. The right corner, formed by the vertical face of the formwork profile and the lower formwork, serves as a form for pouring concrete, or the area of the support mount to the vertical surface of the wall.

Communication elements may be, for example, jibs.

The horizontally located face of the formwork profile has holes for fastening self-tapping screws or conventional bolts to the lower formwork.

Elements for connecting the vertical face of the shuttering profile to the concrete monolith can be, for example, anchor bolts.

In FIG. 1 shows the design of the inventive supporting formwork profile, made with the possibility of connection with an additional supporting face.

In FIG. 2 shows an enlarged image of a variant of connecting a horizontal profile edge and an additional support face due to the engagement of their bent ends.

In FIG. 3 shows the image of the formwork profile after pouring concrete on one side of its vertical face and laying the facing material with local removal on the other side of its vertical face.

The supporting formwork profile contains a vertical face 1, a horizontal face 2, a communication element 3 connecting the vertical 1 and horizontal 2 faces of the formwork profile, connection elements 4, with which the horizontal face is attached to the lower formwork 5, connection elements 6, with which the vertical face 1 is attached to a concrete slab 7 (Fig. 1).

In this case, the horizontal face 2 has a bent end 8, which engages with the bent end 9 of the additional supporting face 10 in order to increase the area of the horizontal face 2 of the profile (Fig. 2).

The design of the formwork profile is made in advance. Its horizontal 2 and vertical 1 faces are connected to each other at an angle of about 90 degrees, for example, by welding or by bending sheet material to form an angle. In this case, the angle formed by the vertical 1 and horizontal 2 faces of the shuttering profile is first a support against tipping over the vertical face during pouring and setting concrete, and after setting concrete, it becomes a supporting platform for laying the facing material 11.

To the horizontal edge 2 of the shuttering profile, a coupling element 3 (jibs) is attached, for example, by welding, or by means of a seam connection. The connection element 3 is also connected to the vertical face 1, for example, by welding so that through passage of the connection elements 6 (anchor bolts) through the connection element 3 and the vertical edge 1 of the formwork profile is ensured.

As the lower formwork 5, a plywood sheet or other sheet material is used. Using the elements of the connection 4 (self-tapping screws or conventional bolts) located on the side of the horizontal edge 2, the formwork profile is temporarily attached to the lower formwork 5 for the time of pouring and setting concrete.

In the form formed to the right of the vertical edge 1 of the shuttering profile, the reinforcement cage is laid and concrete is poured. Then, using the elements of the joint 6 (anchor bolts), the vertical face 1 is attached to the concrete slab 7. In this case, the elements of the joint 6 are monolithic in the structure of the slab after pouring the concrete mixture and ensure the fixation of the formwork profile. After the concrete has acquired the necessary strength, the elements of the compound 4 are removed. In this case, the formwork profile on one side of the vertical face 1 is attached to the concrete slab 7, while the other side of its vertical face 1 and horizontal face 2 represent the angle at which the facing material 11 is laid and, if necessary, the insulation 12. In this case if the external masonry provides for the presence of a non-standard relief of the external surface or local offsets, an additional supporting face 10 is attached to the horizontal profile edge. At the end of the work, g rizontalnye expansion joints (Fig. 3).

As the facing material 11, brick, natural and / or artificial stone, cement and / or ceramic blocks, glass blocks can be used.

The masonry formwork profile is made from corrosion-resistant non-combustible materials, for example, from sheet corrosion-resistant steel or has a coating that provides corrosion resistance.

Communication elements 3 provide the proper rigidity of the construction of the formwork profile from two perpendicular faces 1 and 2 to obtain an even and uniform layer of concrete without the formation of gaps and distortions from the vertical side 1 of the formwork profile, where concrete is poured.

The obtained rigid and reliable construction of the formwork profile allows you to simultaneously obtain a vertical surface for concrete flooring and a supporting platform for installing the facing material with any non-standard external surface, which ultimately allows you to diversify the external relief of buildings without increasing the cost of construction work and delaying the construction process. In addition, the profile acts as an intermediate layer between the facing material and the concrete floor, which compensates for changes in ambient temperature, which prevents the occurrence of deformations of the materials from which they are made, thereby reducing the risk of cracks.

Claims (6)

1. A support formwork profile, characterized in that it contains vertical and horizontal faces connected by communication elements, connection elements of communication elements and a vertical face of the formwork profile, while the horizontal profile face is made with the possibility of connection with an additional support face. 2. The formwork profile according to claim 1, characterized in that the horizontal face of the profile is made with a bent end that engages with the bent end of the attached additional support face. 3. The formwork profile according to claim 1, characterized in that the connection elements pass through the through holes made in the communication elements and the vertical face of the formwork profile. 4. The formwork profile according to claim 1, characterized in that the communication elements are jibs. 5. The formwork profile according to claim 1, characterized in that the horizontally located face of the formwork profile has holes for fastening self-tapping screws or conventional bolts. 6. The formwork profile according to claim 1, characterized in that the elements for connecting the vertical face of the formwork profile to the concrete base are anchor bolts.

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