RU166729U1 - CONSTRUCTION STRIP - Google Patents

Abstract

1. A screed construction, containing two elements interconnected with the formation of a bridge, two plates are installed at each end perpendicular to the axis of the bridge, one of which is a retainer and is located at the end, and the second, internal, is removed from it by a distance equal to the thickness wall panel, at the same time, at each end of the jumper there is a shank with grooves corresponding to the retainer, characterized in that the jumper consists of two identical parts equipped with clips of reinforcement connected by fixing elements, and the jumper and EET projections and responses to them pazy.2. The screed construction according to claim 1, characterized in that it is equipped with an extension cord with fixing elements.

Description

E04G 17/00

CONSTRUCTION STRIP

The device 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 forms part of the building structure.

Known screed construction formwork, consisting of a bridge, at each end of which are perpendicular to the axis of the bridge two plates are installed, one of which is an 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, designed to fix the pin of the trailer coupler. The removable trailer is equipped with an axial screw, and a threaded counter-hole is made at the end of the screed. At the other end of the removable trailer there is a second transversely mounted plate. 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. At the other end of the removable trailer there is a second, transversely mounted plate having a bend in the upper part, designed to fix the trailer on the end plate of the screed [RU 29737, E04B2 / 84, publ. 03/27/2003]

The disadvantage of the analogue 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.

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 bar. 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 reinforcement bar, protrusions located on the upper edges of the jumper are equidistant with respect to the holder of the vertical reinforcement bar, 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. [RU 2081263, E04B2 / 00, E04B2 / 28, E04B2 / 40, publ. 06/10/1997]

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 complexity of the use of various materials for the manufacture of removable and fixed formwork.

The closest analogue in terms of technical nature and the achieved effect is a construction screed containing a jumper, at each end of which two plates are installed perpendicular to the jumper axis, one of which is an end plate and the second one is internal. Each inner plate is removed from the corresponding end plate by a distance equal to the thickness of the formwork, the jumper is detachable and consists of parts. The jumper contains fixing elements in the form of holes and protrusions. The jumper has a groove on each end. The end plates are removable and are installed in the necessary groove located on the shank. The screed construction may have an extension cord with fixing elements in the form of holes and protrusions similar to holes and protrusions, respectively. The construction coupler may have protrusions for fixing reinforcement elements. Through-holes are provided in the jumper parts and in the extension cord. [RU 127108, E04G9 / 00, publ. 04/20/2013]

The disadvantages of the above analogue are the complexity of fastening and assembling the reinforcing cage inside the formwork, as well as the complexity of assembling the screed. The jumper parts have different configurations, so when assembling directly at the construction site or when being supplied by the supplier, it is necessary to constantly monitor the number and compliance of the jumper parts.

The technical problem of the proposed technical solution is to improve the technological process of assembling the formwork (reducing assembly time, simplifying assembly, increasing productivity), as well as expanding the arsenal of technical equipment for a similar purpose.

Technical results are the ability to fix the longitudinal bars of the reinforcement without preliminary knitting, the implementation of the task.

The technical result is achieved by the fact that in the screed construction, containing two elements interconnected to form a jumper, two plates are installed at each end perpendicular to the axis of the jumper, one of which is a latch and is located at the end, and the second, internal, is removed from it at a distance equal to the thickness of the wall panel, while at each end of the jumper there is a shank with grooves that respond to the latch, according to the claimed utility model, the jumper consists of two identical fittings equipped with clips ur parts connected by fixing elements, and the jumper has protrusions and their corresponding grooves. Screed construction can be equipped with an extension cord with fixing elements.

The presence of a construction screed on the jumper, which consists of two identical parts, reinforcement clips allows you to reliably hold the reinforcing bar during the assembly of the reinforcing cage, which improves the technological process of assembling the formwork, that is, reduces assembly time, simplifies assembly, and increases productivity. The implementation of the jumper parts the same can significantly save time on the assembly and completion of the formwork and the building object, which, in general, also simplifies the assembly process of the screed.

The screed is illustrated by drawings, where in FIG. 1 - a construction screed assembly is presented, in FIG. 2 - jumper element with a latch, in FIG. 3 - clip reinforcement, in FIG. 4 - extension cord.

The screed is building, contains two elements (not shown in the figure) interconnected to form a bridge 1 (Fig. 1), at each end of which two plates are installed perpendicular to the axis of the bridge 1, one of which is a retainer 2, located at the end, and the second , the inner plate 3 is removed from it by a distance equal to the thickness of the wall panel, serves to abut the inner part of the sheet formwork material. In the gap between the elements, if necessary, increase the thickness of the concrete core can be installed extension 4 (Fig. 4). The jumper 1 (Fig. 1, 4) and the extension cord 4 have fixing elements, which are protrusions 5 and grooves 6. For attaching the formwork to the sheet material at each end of the jumper 1 (Fig. 1), a shank 7 (Fig. 1) is provided, having grooves 8 for connection with a latch 2 having a similar groove 9 (Fig. 2). The connection of two elements of the jumper 1 is formed by grooves 6 and mating protrusions 5, similar to the grooves and protrusions of the extension 4. If necessary, to increase the required thickness of the concrete core, an extension 4 is installed in the gap between the two elements of the jumper 1, having similar grooves 6 and protrusions 5 for fastenings to elements of a coupler construction. The jumper elements 1 have reinforcement clips 10 installed in the upper part of the jumper element 1 and secured by means of grooves 11 (Fig. 3) and protrusions 12 (Fig. 2). Reinforcement clips 10 (Fig. 1) allow to fix reinforcement bars with dimensions of Ø 8-12 mm (not shown in the figure). If necessary, it is possible to make and install clips of reinforcement 10 of the size or configuration necessary for construction work.

Screed construction is used as follows:

In the sheet material (DSP, STsP, SML, GVL, plywood, OSB) markup and drill a hole, install one of the elements of the jumper 1 on the side of the extension cord in the hole. Firmly pressing the inner plate 3 to the sheet material, fix the retainer 2 on the shank 7 until it stops. Next, attach another element of the jumper 1, for example, in a heat insulation plate, puncture the heat insulation plate with a shank 7. For the convenience of working with low-density formwork materials, a pointed shank 7 is provided. On the back side of the heat insulation plate, fix a latch 2 on the shank 7 until it stops, securing it in the groove 8 of the shank 7. Next, fasten both elements of the jumper 1, combining the fixation elements, grooves 6 and protrusions 5. The clip of the reinforcement 10 should be on the same side of the screed. The longitudinal bars of the reinforcement are laid and fastened with the aid of the reinforcement clip 10. The reinforcement clip 10 in the experimental model allows the reinforcement bars to be fixed with dimensions of Ø 8-12 mm. Next, the reinforcing cage is installed inside the formed formwork, the concrete mixture is poured with vibration compaction or bayonet. The jumper element 1 can be used as a mortgage for fixing facing or heat-insulating materials. For this, the jumper element 1 is laid when laying with bricks or blocks in the mortar joints with a shank 7 with a fixed fixer 2, after the masonry has hardened, the second jumper element 1 is fastened and connected to a sheet or plate material for subsequent concreting by means of a shank 7 and a fixer 2. The sequence of actions can be in any order. It is also possible to fix the reinforcement in the clips of the reinforcement 10, if necessary, to create the design thickness of the formwork. The construction of formwork is possible from any moisture-resistant sheet, plate, masonry building materials. Formwork can be either removable or non-removable. The thickness of the formwork plane can be from 1 (centimeter) to 12.5 (centimeters) in increments of 5 (millimeters). To increase the thickness of the formwork, several extension cords 4 can be installed, connecting them to each other until the required thickness of the concrete core is obtained. The thickness of the concrete core can be from 15 cm to infinity with an extension cord and pitch of 2.5 (centimeters)
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 fixing 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 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).

Claims (2)

1. A screed construction, containing two elements interconnected with the formation of a bridge, two plates are installed at each end perpendicular to the axis of the bridge, one of which is a retainer and is located at the end, and the second, internal, is removed from it by a distance equal to the thickness wall panel, at the same time, at each end of the jumper there is a shank with grooves corresponding to the retainer, characterized in that the jumper consists of two identical parts equipped with clips of reinforcement connected by fixing elements, and the jumper and EET ridges and grooves of the response to them. 2. The screed construction according to claim 1, characterized in that it is equipped with an extension cord with fixing elements.

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