RU127108U1 - CONSTRUCTION STRIP - Google Patents

Abstract

1. A screed construction, containing a jumper, on each end of which perpendicular to the axis of the jumper two plates are installed, one of which is the end plate, and the second, the inner one, is removed from it by a distance equal to the thickness of the wall panel, characterized in that the end plates are removable , and the jumper is detachable, has a shank with grooves at each end and contains fixation elements. 2. The screed construction according to claim 1, characterized in that it has an extension cord with fixing elements. 3. The screed construction according to claim 1, characterized in that it has protrusions for fixing reinforcement elements.

Description

The proposed product relates to building structures, in particular to fastening devices of the formwork, which includes devices for placing reinforcement and forming a space filled with hardening mortar, which together form part of the building structure.

Known screed construction, installed all the way into the opposed T-shaped grooves made on the side walls. The transverse connector includes two shanks, between which a perforated jumper is placed perpendicular to them, in the center of which there is a holder of a vertical reinforcement rod. The holder of horizontal reinforcing rods is formed by two inclined edges of the upper part of the jumper, the outer surface of the holder of the vertical arm of the reinforcement and protrusions located on the upper edges of the jumper are equidistant with respect to the holder of the vertical arm of the armature, and the shank. On the upper and lower surfaces of the side and end walls, nodes for interconnecting the wall modules in the vertical direction are made. The cylindrical wall modules have vertical recesses on the outer and inner surfaces of the side walls, the side walls being curved about a vertical axis that is parallel to the vertical recesses. The corner module of the wall contains two formwork, with the end surface of the second formwork docked to the outer surface of the side wall of the first formwork, a window for combining the cavities of the two formwork is made in the side wall of the first formwork. [one]

The disadvantage of this screed construction is the complexity of the design, the need to perform in the body of the walls of the formwork T-grooves, the inability to adjust the thickness of the supporting structure, the difficulty of using various materials for the manufacture of removable and fixed formwork.

The closest analogue in technical essence and the achieved effect is a screed of construction formwork, consisting of a bridge, at each end of which two plates are installed perpendicular to the axis of the bridge, one of which is the end plate and the second is removed from it by a distance equal to the thickness of the wall panel. On the side and end surfaces of the formwork, grooves are made for deepening the jumpers, each of which is made in the form of a rod with transverse grooves intended for fixing reinforcement elements. The coupler is equipped with a removable trailer having a transversely mounted plate on one of the ends. The removable trailer is equipped with an axial pin of variable cross section, and a counter hole is made at the end of the coupler for fixing the pin of the coupler trailer. The removable trailer is equipped with an axial screw, and a threaded counter-hole is made at the end of the screed. On the other end of the removable trailer there is a second transversely mounted plate, on the outer surface of this plate and on the outer surface of one of the end plates of the screed, grooves and corresponding protrusions are made to ensure the connection of the trailer to the screed, and at the other end of the removable trailer there is a second, transversely mounted plate, having a bend at the top designed to fix the limit switch on the end plate of the screed. [2]

The disadvantage of the prototype is the complexity of the design and the complexity of the application of this design for various wall materials, long assembly time, limited distance between the formwork sheets, the inability to use a screed to create a removable formwork.

The objective of the proposed utility model is to expand the arsenal of construction tools, to create a universal screed construction for the manufacture of formwork from various sheet materials in the design of formwork with removable and non-removable sheets.

The technical result of the proposed technical solution is the implementation of the task, ensuring the regulation of the thickness of the building structure - formwork.

This result is achieved by the fact that in the screed construction, containing a jumper, on each end of which perpendicular to the axis of the jumper there are two plates, one of which is an end plate, and the second internal one is removed from it by a distance equal to the thickness of the wall panel, the end plates are made removable, and the jumper is detachable, has a shank with grooves at each end and contains fixation elements. The construction coupler may have an extension cord with fixing elements and protrusions for fixing the reinforcement elements.

The implementation of the end plates removable allows you to use the claimed device in the formwork with both removable and non-removable sheets of formwork, since the design of the inventive screed construction allows you to release these sheets by removing the end plates from the shanks with grooves (protruding shanks with grooves are cut with any suitable tool). Formwork sheets after separation from the building structure can be used repeatedly.

The claimed device can be used for mounting formwork from any moisture resistant and sufficiently strong sheet formwork material (in particular, oriented chipboard, cement chipboard, moisture resistant plywood, Green Board fiberboard, expanded polystyrene, extruded polystyrene), in which the shank configuration of the hole insert the shank with the grooves, which is fixed by a removable end plate.

The thickness of the formwork is controlled both by moving the removable end plate into the corresponding groove on the shank in accordance with the thickness of the formwork sheet, and by moving the parts of the detachable jumper using the fixing elements - holes and protrusions, as a result of which the length of the jumper itself changes and, accordingly, the width of the space filled hardening mortar and the thickness of the formwork as a whole. If you need to further increase the width of the space filled with the hardening mortar, you can use an extension cord that has fixing elements similar to the jumper and is installed between the parts of the detachable jumper.

The screed construction is illustrated by drawings, where in Fig. 1. a general view of the assembly is shown, in Figs. 2, 3 - parts of the jumper, in Fig. 4 - an extension cord.

The screed construction contains a jumper 1 (Fig. 1), on each end of which, perpendicular to the axis of the jumper, two plates are installed, one of which is end 2 and the second internal 3. Each inner plate 3 is removed from the corresponding end plate 2 by a distance equal to the thickness of the formwork (not shown in the figure), the jumper 1 is detachable and consists of parts 4 and 5 (Fig. 1, 2, 3). The jumper 1 contains the locking elements 6 in the form of holes 7 and protrusions 8 (Fig 1, 2, 3). The jumper 1 has at each end a shank 9 with grooves 10. The end plates 2 are removable and are installed in the necessary groove 10 located on the shank 9. The screed may have an extension 11 (figure 4) with fixing elements 12 in the form of holes 13 and protrusions 14. Similar to holes 7 (FIGS. 2, 3) and protrusions 8, respectively. The screed construction may have protrusions 15 (FIGS. 1, 2, 3) for fixing reinforcement elements (not shown in the figure). In parts 4 and 5 of the jumper 1 and in the extension cord 11, through holes 16 are provided (FIGS. 1, 2, 3, 4).

Screed construction is used in the following way. Separate parts 4 and 5 (Figs. 2, 3) of the jumper 1, remove the end plates 2 from the shank 9. Into the drilled hole on the outer formwork plate insert part 4 of the jumper 1 and fix it on the plate with the end plate 2. Install part 5 of the jumper 1 in the hole on the inner plate of the formwork and also fix it on the specified plate with the end plate 2. Connect parts 4 and 5 of the jumper 1 using the fixing elements 6, laying one on the other parts 4, 5 and combining and closing the fixing elements 6 - holes 7 and protrusions 8 . If necessary, the manufacture of formwork ki of greater thickness use an extension cord 11, for which the latter is installed between parts 4, 5 (Fig. 1), similarly combining and closing the locking elements 12 — holes 13 and the protrusions 14 of the extension cord 11 with the locking elements 6 — holes 7 and protrusions 8 of parts 4, 5 jumpers 1. Other variants of fixing elements of parts 4, 5 and extension 11 are possible, ensuring their reliable fastening relative to each other, for example, through, screw connection of parts 4, 5 and extension 11. The operation is repeated for all drilled formwork holes.

In the case of reinforcing the formwork with reinforcement, it is necessary to install construction ties in the formwork from the bottom row. After all the screeds are assembled, the construction of the lower row stacks horizontal reinforcement (not shown in the figure) in special projections 15 for fixing the reinforcement elements. Then collect the middle row of screeds construction. Lay horizontal reinforcement in accordance with the project, then install screed construction of the upper row. The optimal consumption of screed construction per 1 meter cubic formwork is approximately 16-17 pieces.

The average consumption of reinforcement per 1 square meter of wall (for 1-2 storey buildings) is 6-8 kg.

To strengthen the connection of parts 4 and 5, it is possible to screw through the provided holes 16. When using an extension 9 (for the manufacture of formwork with a larger thickness) to strengthen the jumper 1 in the middle part (not shown in the figure), you can also tighten the screws through the provided holes 16 of the part 4.5 and extension 11. This will increase the cross-section of the bridge and allow the use of heavier concrete grades for pouring formwork, as well as the installation of increased cross-section reinforcement in the protrusions 15.

Screed construction is a fixture for reliable connection of the walls of the formwork, with the subsequent installation of reinforcement and pouring concrete. The uniqueness of the fastening system for formwork is that the developer can choose any sheet material of sufficient strength and moisture resistance as the walls of the formwork, and get a difference in cost as an additional benefit. Screed construction can be made of various materials corresponding to the required strength of the building structure - formwork. The construction screed, for example, made of polycarbonate, additionally has several advantages over the fasteners of other systems: high tensile strength with low weight (150 kgf according to experimental data); inertness to building materials; high corrosion resistance; lack of "cold bridges" in the finished design. It is possible to choose the thickness of the concrete part from 100 to 250 mm in increments of, for example, 50 mm (internal partitions, load-bearing walls, lightweight foundations). A wall with a thickness of 150 mm allows buildings to be erected up to eight floors, even in earthquake-prone areas, the use of a screed together with a building extension allows you to expand the thickness of the concrete part from 300 to 600 mm in increments of 50 mm (highly loaded load-bearing walls, foundations).

Information sources:

1. Patent for invention No. 2081263 (Nering Alexander), 06/10/1997, "Modular wall design."

2. RF patent for utility model No. 29737 (Koliev OS, Piontkovsky IG, Evstafiev V.N ..), December 30, 2002, “Building module”.

Claims (3)

1. A construction screed containing a bridge, at each end of which two plates are installed perpendicular to the bridge axis, one of which is an end plate, and the second, internal, is removed from it by a distance equal to the thickness of the wall panel, characterized in that the end plates are removable and the jumper is detachable, has a shank with grooves on each end and contains fixation elements. 2. The screed construction according to claim 1, characterized in that it has an extension cord with fixing elements. 3. The screed construction according to claim 1, characterized in that it has protrusions for fixing the reinforcement elements.

Images