DE4427916C1 - Prodn. of rungs for ladder in concrete shaft - Google Patents

Abstract

The tube, for installation in an access shaft, is bent into a U-shape to form the rung. The two arms (2) of the U-shape lie horizontal and parallel to each other and their ends (4) have a sawtooth profile so that they act at anchors set into the cast concrete rings forming the shaft. At the bottom end of the arms there are two right-angle bends (7) so that the horizontal tread or runner (3) is at a slightly lower level than the side arms. The U-shape consists of a hardened metal tube covered in plastics material. The tube is heated at the bending points before being bent into the U-shape.

Description

The invention relates to a method for manufacturing a stirrup for manholes.

Essentially U-shaped stirrups are known as stirrups for manholes, which can be designed in very different ways:
Stirrups can consist of a cast material or of rod material to produce the strength-determining metallic core. In any case, this core is coated in a corrosion-resistant manner.

With a stirrup, such as that from AT-PS 264 389 is known, the core is through a metal tube educated. Such stirrups have in the Practice proven very well and especially in Compared to other constructions a clear one reduced weight. This has the advantage that when casting concrete rings for the production of Shaft elements the generic stirrups optimal during the manufacture of the concrete shaft can be arranged in the concrete shaft and this Maintain arrangement without due to own weight to change their predetermined position and so later possible in the operation of the shaft wise to be held less tightly in the shaft.

To meet the highest possible security requirements speak, it is desirable that the stirrups are as resilient as possible, without permanent Ver  To show formations in the form of deflections.

The invention is based on the object Process for producing such a path stirrup so that the stirrup is still has the lowest possible weight and additionally has increased resilience.

This object is achieved according to the invention in a method according to the preamble of claim 1 in that that a hardened metal pipe is used which is heated at the bending points before they are deformed.  

The hardened metal tube allows higher tensile loads, without causing a permanent deflection of this Pipe or the stirrup made from it is coming. It would therefore be generally desirable if the stirrup tube is fully hardened would. However, if first a conventional metal tube deformed and then hardened, can this tube warp when hardening, so that the Dimensional stability of the stirrup no longer guaranteed is accomplished.

It has surprisingly turned out that the climb iron out excellent strength even then indicates when a hardened tube as a raw material is used, which heats up at the bending points and then deformed there. By warming the pipe loses in the area of this bend  represent its strength achieved by hardening. However, it has been found that the overall finished stirrups with in contrast to Generic stirrups significantly enlarged Loads is resilient without it remaining one the deformation, for example to a deflection of the stirrup is coming.

The invention is based on an Ausfüh Example explained approximately. It shows

Fig. 1 is a schematic perspective view of a stirrup and

Fig. 2 shows a section through the center of the stirrup of Fig. 1,.

In Fig. 1, 1 is generally a stirrup be characterized, as it is used for example in sewer shafts. The stirrup 1 has two parallel sections 2 and a central tread section 3 . This middle Trittab section 3 is offset by a relatively small amount in relation to the two sections 2 , so that overall a substantially U-shaped configuration of the stirrup 1 is achieved.

The two parallel sections 2 have anchoring areas 4 with which the stirrup 1 is anchored in the shaft.

From Fig. 2 it can be seen that the stirrup has an inner tube 5 which forms the core of the stirrup 1 and which is encased on all sides by a corrosion-protective plastic cover 6 .

Between the individual sections 2 and 3 and due to the height offset between each two adjacent these sections, there are a total of four bending points 7 in the stirrup 1 shown .

The tube 5 is a hardened metal tube which has been heated in the region of the bending points 7 . So the corresponding bends can be performed without damage to the tube 5 , for. B. without cracks or without unwanted kinks. Overall, the stirrup 1 has a resilience that is considerably higher than that of a stirrup 1 which is basically the same, but which has no hardened material for the tube 5 .

Claims (1)

Method for producing a stirrup for manholes, wherein a metal tube is bent into an approximately U-shaped shape at two or more bending points, characterized in that a hardened metal tube ( 5 ) is used which heats up at the bending points ( 7 ) before they are deformed becomes.