DE3523656A1 - Shear reinforcement system for area-covering structural elements - Google Patents

Abstract

A shear reinforcement system for area-covering structural elements, which can be transported in a space-saving manner, consists of a group of mutually identical, grid-type, ladder-type or framework-type individual elements (10, 10') which are bent in a V-shape so that they can be fitted one inside the other for transportation and, when fitted together, remain in an upright position without special measures. These individual elements are arranged on an area-covering reinforcement corresponding to the requirements of the shear covering, e.g. axisymmetrically above a column. <IMAGE>

Description

Shear reinforcement system for planar structures

The invention relates to a shear reinforcement system for planar structures, as well as individual elements from which this shear reinforcement system is built can.

It is known for such shear reinforcement ladder-like structures to use which are cut to the desired length and placed in a planar structure be laid upright in the area of increased shear loads.

Such shear reinforcements are especially known as punching shear reinforcements arranged above the heads of pillars.

For this purpose, for example, sections of ladder-like Elements bent into rings and individually or, in the case of heavy use, in several Relocated in a concentric arrangement around the column heads. Another possibility consists of putting a number of straight sections of such elements square around one To arrange column head around.

The known elements can also be used in the area of linear supports, For example, in a planar structure supporting walls or beams, in a or several rows on both sides of the support and parallel to it to be ordered.

In any case, the use of the known, ladder-like elements associated with a considerable amount of work, because the elements initially on the cut to the desired length, then possibly brought into the desired shape and fixed in this, and finally also in its position be fixed must, especially since they do not stand on edge by themselves without special measures stay.

The object of the invention is to create a shear reinforcement system, which is made up of individual elements that are easy to handle and transportable in a space-saving manner are in the upright position required for their use without special measures and aids remain and to shear reinforcement of any shape and purpose can be easily put together.

In a shear reinforcement system according to the invention intended for planar structures this problem is solved in that it is made up of a group of equal, upright lattice, ladder or truss-like, essentially V-shaped There is curved individual elements, which correspond to the requirements of the shear cover are arranged.

A preferred individual element because it is particularly easy to manufacture for such a reinforcement system consists of a V-shaped bent, lattice or Ladder-like strips of welded longitudinal and transverse wires, with the strip edges two closely spaced longitudinal wires are arranged.

The invention will now be referred to on the basis of exemplary embodiments described in more detail on the drawings.

1 shows an individual element according to the invention, which consists of a Ladder-like strips of two parallel longitudinal wires on each edge and between consists of these welded cross wires, in a perspective view, Fig. 2 and 3 two other strip shapes, which are used for the production of V-shaped elements, similar to those of FIG. 1, can be used, and FIGS. 4-6 different ones Shear reinforcement systems according to the invention, which consist of individual elements according to FIG. 1 or similar individual elements are assembled, in plan view.

In Fig. 1 you can see pairs of longitudinal wires 1, 2 and 3, 4 on the two edges of a generally designated 10 ladder-like, V-shaped bent and thereby by itself upright element, with between the edge longitudinal wires rung-like transverse wires 5 are welded.

By using two line wires on each edge, everyone is Cross wire connected at its ends by two spot welds with longitudinal wires and can therefore absorb high shear forces.

The strip shown in Fig. 2 for the production of an element according to Fig. 1 consists only of two longitudinal wires 1 and 4 at each edge, between which a wave-shaped infill 6 is arranged. To have a great anchoring effect to secure, the wave crests 7 are led out beyond the longitudinal wires 1 and 4, so that they form loops which are welded to the longitudinal wires at two points each and can be filled with concrete.

A similar formation of a strip is shown in FIG. 3, only with the difference that the infill has a meander shape in this case which the connecting wires 6 in the area between the longitudinal wires 1 and 4 is practical run parallel to each other. A manufactured from a strip according to Fig. 3, Reinforcement element bent in a V-shape is therefore capable of significantly greater shear forces as an element made from a strip of FIG.

Fig. 4 shows a reinforcement system for absorbing the shear stresses above a pillar. Several reinforcement elements 10 of the type of FIG. 1 are with after inwardly directed vertices star-shaped around the only indicated by their central axis Column grouped around. In the case of large punching loads, additional Rows of elements 10 ', indicated by dashed lines in Fig. 4, around the column head and arranged in an interleaved manner with the elements 10.

In Figs. 5 and 6 walls or beams are indicated by their dash-dotted lines Central axes indicated. In the reinforcement system according to FIG. 5, the apexes have the Shear reinforcement elements 10 alternately in opposite directions.

If necessary, if this should be required by heavy loads, can also in this case another row or more rows of in the Elements 10 herringbone-like engaging elements 10 'are provided.

Finally, FIG. 6 shows a series of fishbones arranged in a herringbone fashion Shear reinforcement elements 10 along a wall or a girder.

In order to secure the elements 10 in their mutual position, it can be expedient to provide connecting rods 11 on which all elements, for example by tie wire or other suitable means.

Such a position securing is of course in all cases, for example also with arrangements according to FIGS. 4 and 5, possible.

A particular advantage of the V-shaped shear reinforcement elements consists, apart from the fact that they can stand upright on their own, also in the fact that they are pushed into one another Can be transported in a space-saving manner.

Claims (8)

Claims: 1. Shear reinforcement system for surface structures, thereby characterized in that it is made up of a group of mutually identical, standing on edge Lattice-like, ladder-like or truss-like, essentially V-shaped individual elements (10, 10 '), which are arranged according to the requirements of the thrust cover are. 2. Shear reinforcement according to claim 1, in particular as punching shear reinforcement, characterized in that several V-shaped curved individual elements (10) with after inwardly directed vertices are arranged in a star shape (Fig. 4). 3. shear reinforcement according to claim 1, characterized in that it has the shape of a linear group of V-shaped curved individual elements (10), wherein the vertices of the individual elements alternately point to different sides (Fig. 5). 4. shear reinforcement according to claim 1, characterized in that V-shaped curved individual elements (10) are arranged like a herringbone (Fig. 6). 5. shear reinforcement according to claim 2 or 3, characterized in that that several V-shaped curved and herringbone-like arranged individual elements (10 ') are included in the star-shaped or linear group (Figs. 4, 5 and 6). 6. shear reinforcement according to one of claims 1 to 5, characterized in that that the individual elements (10) of each group by connecting rods (11) firmly together are connected (Fig. 6). 7. Individual element for shear reinforcement according to one of the claims 1 to 6, characterized in that it consists of a V-shaped bent, lattice or Ladder-like strips (10) made of welded longitudinal and transverse wires (1 - 4; 5) consists, with two closely spaced longitudinal wires (1, 2; 3, 4) are arranged (Fig. 1). 8. Individual element for shear reinforcement according to one of the claims 1 to 6, characterized in that it consists of a V-shaped curved framework strip with a wave-shaped infill (6), the wave crests (7) on both Sides protrude over the edge longitudinal wires (1, 4) and at two points each with these are welded.