DE7002620U - LATTICE GIRDER FOR REINFORCED CONCRETE COMPONENTS. - Google Patents

Description

Karl Bottenschein

79 ULM / Danube
Fairy tale path 16

LATTICE GIRDER FOR REINFORCED CONCRETE COMPONENTS

The innovation relates to a lattice girder for reinforced concrete components made from a diagonal helix and at least one longitudinal rod which is welded to the upper area of the space enclosed by the diagonal helix is, exists. The lower longitudinal bars can be both inside and outside of the diagonal helix are welded or "» bound to them. Lattice girder, consisting of a V - shaped spider, a longitudinal bar as an upper = belt, as well as two lower longitudinal bars, which are outside of the spiral around = captured space are welded to the spiral are known.

The innovation is based on the task of producing a lattice girder, which Can be bent and twisted both in the vertical and in the horizontal direction Although the previously known lattice girders have proven themselves as long as the Be = load does not exceed a certain value, the upper longitudinal bar {e - because the side opposite the pressure rods off as soon as this load value Is exceeded. It is therefore the task of the innovation to present it = known lattice girders for reinforced concrete components so that the upper longitudinal = rod does not experience any deformation even under a relatively high load. To the solution This object is proposed according to the invention to ensure that the legs of the diagonal en-Wendeis are so deformed that an alternating up and descending leg of the diagonal spiral, which is connected with an arch, lie together on one level. The horrizontal force of ascending and descending Leg, is thus mutually canceled.

The innovation is shown on the basis of three exemplary embodiments

illustrated.

It shows:

Figure 1 shows a cross section of a lattice girder, with the upper longitudinal bar

above and the lower longitudinal bars within that of the Diago =

nalen-helix enclosed space ,. FIG. 2 shows a cross section of a lattice girder, with the upper longitudinal bar

above and the lower longitudinal bars outside that of the Diago =

nalen-helix encompassed space, Figure 3 is a cross section of a lattice girder, with the upper longitudinal bar

lies between the upper arches of the legs of the diagonal helix and is welded to it. The lower longitudinal bars be = are found within the comprised by the diagonal helix

Space,
FIG. 4 shows a cross section of a lattice girder, with the upper longitudinal bar

lies between the upper arches of the legs of the diagonal helix and is welded to it. The lower longitudinal bars be = can be found below that encompassed by the diagonal helix

Space and are welded to these, Figure 5 side view of a lattice girder, in which the upper longitudinal bar

above and the lower longitudinal bars within that of the Diago =

na! »r» -Wer> del '.' »»! Figure 6 side view of a lattice girder, in which the upper longitudinal bar

is located between the legs of the diagonal helix, FIG. 7 top view of FIG. 5

FIG. 8 top view of FIG. 6 FIG. 9 is an isometric view of the lattice girder according to the figures

1 -8.

The longitudinal bar 1 is welded to the diagonal helix. The lower one Longitudinal bars 2, 2 are located inside, while the longitudinal bars 3, 3 are located outside of the diagonal helix. The legs of the diagonal spiral 4, 5, are each connected by means of arches 6, and are located in one plane.

7C02620

The legs of the diagonal coil 7, 8 are also located on it one level and are each connected to the arches 9, but the leg of the diagonal en-turn I 4.5 opposite side.

Claims (6)

ti 1 ι: ι PROTECTION CLAIMS 1. Lattice girder for reinforced concrete - components consisting of a diagonal spiral and at least one longitudinal rod, characterized in that two legs of the diagonal helix 4, 5; 7, 8 by means of one arc 6; 9 are connected and lie on a parallel plane. 2. Lattice girder according to claim 1, characterized in that the legs of the diagonals - helix 4.5; 7.8 from the vertical = plane (V) are alternately deformed to the left and right (Fig. 1,2,3,4,7). 3. Lattice girder according to claim 1, characterized in that the upper longitudinal rod 1 each -between the arches 6.9, which the Connect legs 4, 5 and 7, 8 (Fig. 3, 4, 6 and 8). 4. Lattice girder according to claim 1, characterized in that the upper longitudinal bar is above the arches 6,9 (Fig. 1,2). 5. Lattice girder according to claim 1, characterized in that the upper longitudinal bar consists of a round or profile bar. 6. Lattice girder according to claim 1, characterized in that the leg pairs 4,5; 7.8 by means of a flattened bow are connected (Fig. 1, 2, 3, 4).