SE461538B - GRILL BAR - Google Patents

Abstract

The present invention relates to a lattice girder for reinforcing sandwich panels and like structures of concrete, comprising longitudinal wires (1) extending in parallel on different levels, and zigzag wire stirrups (2) interconnecting said longitudinal wires. The invention is characterised in that the wire stirrups (2) extend, at least on one side, beyond the respective longitudinal wire (1) so as to form loops (3) outside the wire. Adjacent the longitudinal wire, the loops are cut open to form grooves (4) into which transverse wires (5) are insertable to connect the lattice girder with other reinforcement units.

Description

461 10 15 20 25 30 35 538 2 Recently, there has also been prefabrication of such reinforcement baskets, where the position of the stirrups has been fixed by means of spot welding between longitudinal and transverse bars.

One way of achieving the combination of bending and transverse reinforcement, which at the same time improves the function of the reinforcement in the concrete structure, is through the welded lattice beams that have been patented for use in lightweight ballast concrete (Swedish Offenlegungsschrift No. 404 708).

The present invention relates to a lattice beam which can be connected to prefabricated reinforcement units such as other lattice beams or welded reinforcement nets, without connection to thin wood (sewing) in order to be able to simultaneously connect a large number of reinforcement bars in their proper position so that this structure forms a connected unit. . The individual reinforcement units are parallel to the longitudinal bars that they are to connect.

The design of the individual reinforcement units enables the connection and is able to transfer tensile stresses in the finished construction.

The invention enables great time savings in the reinforcement work. Reinforcement baskets can be produced in a fraction of the time needed today for conventional sewing of stirrups to longitudinal bars.

Compared with welding of stirrups to the longitudinal rods, interconnection according to the present invention can be achieved without significant investment in welding equipment.

The connection is made by a lattice beam consisting of three longitudinal steel bars and two zigzag bent wires, alternatively a lattice beam with two or four longitudinal wires and a zigzag bent wire, which is placed on one side of the longitudinal wires, or two zigzag strands. sack bent wires which are placed on each side of the longitudinal wires, so that they are symmetrical for the purpose of absorbing force. The described lattice beam can be designed in triangular shape or in a plane.

The grid beam according to the invention is characterized in that at least some of the loops are cut next to the longitudinal wire to form grooves, into which transverse wires can be inserted to connect the grid beam to other reinforcing units.

The grid beam is bonded by means of the loops to welded reinforcement nets of varying width and shape, or to other reinforcement beams, so that the joint forms a triangular, square or rectangular section. By means of this construction, a reinforcement is provided which in concrete constructions is able to absorb tensile stresses in the concrete and which functions as an enclosing reinforcement, whereby the connection in the construction is included in the sub-elements. This allows large reinforcement structures to be produced in a very short time and with great accuracy. This reinforcement structure is rigid and can be transported as a unit, which facilitates handling at the workplace. It is also able to absorb the torsional stresses that arise in concrete structural parts when they are lifted or loaded in the final structure.

The invention will now be described in more detail with reference to the accompanying drawings, in which: Figure 1 is a perspective view of a lattice beam designed according to the present invention, Figure 2 schematically shows alternative designs of the lattice beam, and Figures 3 - 5 schematically show different uses areas for a lattice beam according to the invention.

Referring to Figure 1, there is shown in perspective a lattice beam consisting of three longitudinal wires 1, which are connected to each other by means of zigzag-bent wire shackles 2 to form a lattice beam with a triangular profile. The wire hoops 2 extend slightly past the respective longitudinal wires 1, so that loops 3 are formed outside the longitudinal wires. The loops 3 are cut on one side next to the longitudinal wire 1, so that a groove 4 is formed, into which a transverse wire 5 can be inserted. As shown at the bottom left in Figure 1, the loops 3 can in this case be cut parallel to each other in adjacent wire brackets, or can, as shown on the right in the figure, be cut in opposite directions, so that the transverse wire 5 can be inserted into the grooves 4 by twisting. The wire 5 may be a single wire for connecting several lattice beams to each other, or may be a wire in a reinforcing mesh or other prefabricated reinforcing unit.

Figure 2 shows alternative embodiments of the grid beam.

This can thus consist of two or four longitudinal wires 1 and a zigzag-bent wire bracket 2, which lies on one side of the longitudinal wires 1 or between longitudinally arranged longitudinal wires, as can be seen from the upper part of Figure 2, where the left part shows the grid beam in section and the right part shows the grid beam from the side. In the lower part of Figure 2 a further variant of the grid beam is shown, comprising two longitudinal wires 1 and on each side of these horizontal wire hoops 2, as can be seen from the left part of the figure. The wire hoops 2 may be arranged parallel to each other, as can be seen from the middle part of the figure, or may be arranged offset relative to each other, as can be seen from the right part of the figure.

Figures 3-5 show examples of how a lattice beam according to any of the above embodiments can be used as reinforcement in a structural element of concrete.

Various modifications can, of course, be made to the grid beams exemplified above. Thus, the wire hoops can be extended to loops only on one side of the grid beam. Furthermore, not all the loops need to be cut to form tracks. The invention is therefore not limited to the embodiments described above and shown in the drawings, but can be modified within the scope of the appended claims.

Claims (4)

l0 15 20 - 461 538 PATENT REQUIREMENTS 1. l. Grid beam as reinforcement for sandwich elements and similar constructions in concrete, comprising parallel at different levels, longitudinal wires (1) and these connecting zig-zag bent wire shackles (2), the wire shackles (2) extending past at least one side longitudinal wire (1) for forming loops (3) lying outside the wire, characterized in that at least some of the loops (3) are cut next to the longitudinal wire (1) to form grooves (4), in which transverse wires (5) can be inserted to connect the grid beam to other reinforcement units. Grid beam according to claim 1, wherein it comprises two parallel wire brackets (2) lying on each side of longitudinal wires (1), characterized in that the loops (3) of the wire brackets are cut parallel, so that the transverse wires (5) can be inserted into the grooves (4) from one side. Grid beam according to claim 1, wherein it comprises two parallel wire brackets (2) lying on either side of the longitudinal wires (1), characterized in that the loops (3) of the wire brackets are cut opposite, so that the transverse wires (5) can be inserted into the grooves (4) by twisting. Grid beam according to one of the preceding claims, characterized in that the wire hoops (2) form loops (3) on both sides of the grid beam.