DE459038C - Rod network - Google Patents

Description

Rod network. The invention relates to a composed of individual rods Network for space-delimiting components such as walls, vaults, roofs, etc., and aims in particular. such networks in a simple manner and with favorable utilization of building materials to be able to produce from metal, namely from relatively thin sheet metal strips. It is known to arrange the members of a network in a diamond shape so that the adjacent ends of two rods following one another in one direction, respectively bump against the center of a stick in the opposite direction.

The novelty lies in the fact that the sides of the quadrilaterals are made up of four individual ones Similar, Vigvn-like shaped metal rods exist, the flat, vertical ends facing the network area for unification in the nodes in align Curved in direction, laid flat on top of one another and resistant to bending thanks to shear connections are united with each other and finite with the bars of the adjacent netting quadrilaterals.

Another. running in the direction of the common triangle base, appropriately similar to the outline rods and at the nodes An inclined bar firmly connected to these results in the triangle negotiation of this' network.

The rods can be relatively short and can therefore also in the case of a simple design with little building material content - «- a nd and correspondingly cheaper He generation, for example from sheet metal strips, enough almost and certainly form.

The drawing illustrates the invention in some exemplary embodiments, namely Fig. 1 and 2 show a network in plan and elevation for a barrel roof, Fig.3 the node of such a network on an enlarged scale Fig. 4 shows another embodiment of the node for the same network; the fig. 5 and 6 again show in plan and elevation a barrel roof with a different layout ; Fig. 7 shows again on an enlarged scale a node of this network; Figs. 8, 9 and 10 show, on a larger scale, a rod of the new network of the side, in longitudinal section and in cross section; Fig.r i shows the end, Fig.12 the Cross section of a further embodiment of a N network bar. The network according to Fig. i and 2 is composed of quadrilaterals that are separated from each other by the four same metal rods i i, 12, 13, 14 are formed. Alignment to the ridge line Metal bars io form the triangular bond.

In the network according to Figs. 5 and 6, the U mrißstänke 21, 22, 23, 24 again the same under each other, and the inclined bars 20 run vertically to the Ridge line, so here they support the other bars in absorbing arch bending forces.

The area of the network can also be curved instead of, for example be flat (wall, corner) or broken (gable roof).

At the nodes according to Figs. 3 and 7 are the ends of all rods flat and in all (Fig. 3) or only in the four crack bars (Fig. 7) bent in such a way that they have patches of surface which are aligned with one another and which are directly placed on top of each other and by means of through bolts (screws, 1; iete o. the like.) can be connected to one another in a rigid manner. In the example according to Fig. 4. the flat ends of the rods have received another bend, which turns out to be a clings to the neighboring bar and thus creates even more connection options. In addition, this further bend makes it difficult to pull out the rod in question from the node so that the connecting bolts are relieved of shear forces.

In Fig. 8, 9 and io the network rod consists of a sheet metal strip i, the side edges of which are folded over like a tube, around the rod for inclusion to make suitable of compressive forces. The ends of the rod are flat and, as Fig. 8 shows, initially bent in such a way that the main mounting surfaces 2 arise, the ends also have another bend 3, which hugs a neighboring stick. The turns 2 are for bars for arched networks designed trapezoidal, corresponding to the shape of the vault conditional angular position of successive bars. The rod according to Fig, i i and 12 is roughly Z-shaped in the cutout, and that which forms the cutout Sheet metal is spread out in a plane at the ends, so that the rod is wider there than is between the ends.

In the case of vaults with a strong curvature, this may be necessary, as shown in Fig. 8 and i t the kinking of the rod at the ends can be seen during manufacture of the rods from `straight metal strips by compressing the inner and stretching the Reach the outside in a relatively simple manner, so that even those kinked Rod shapes can be executed with the least amount of building material.

The cross section of the bars can also be designed differently be. Sample trips can also be round or flat tubes with flattened ends be used.

Claims (2)

PATENT CLAIMS: i. Rod network for room closures from network quadrilaterals connected rods, characterized in that the net quadrilaterals consist of four similar, Metal rods bent at the ends and laid flat on top of each other, lighter sheet metal or of a similar type that are resistant to shear and bending in the nodes are connected. 2. Rod network according to claim i, characterized in that the longitudinal edges of the rods between the rod connection points to opposite Directions are folded tubular or bent into a Z-shaped rod cross-section.