DE461226C - Process for the production of parts for composite reinforced concrete poles - Google Patents

Description

Process for the production of sections for composite reinforced concrete poles. It is already known to manufacture reinforced concrete poles in such a way that factory-made Manufactured sections provided with recesses for receiving longitudinal reinforcement bars of the masts assembled at the construction site, the longitudinal reinforcements in the recesses used and the latter with cement mortar o. The like. Be poured. With these known arrangements, the sections themselves have no transverse reinforcement.

It is also known to produce reinforced concrete bodies in such a way that that the longitudinal reinforcement bars by transverse reinforcement bars inserted under tension be wrapped. In this case, however, the longitudinal reinforcements must already be used during manufacture of the piece of concrete and placed before the transverse reinforcements are attached, so that these concrete pieces for the assembly of masts with continuous longitudinal reinforcement are unsuitable. In addition, the outer reinforcements are tight around the longitudinal bars drawn and as a result the radius of curvature of the former too small. As is well known however, small displacements of the iron inlays must always be expected when concreting, so that in this case the crossbars no longer lie very close to the longitudinal bars, but a thin layer of concrete in between. The latter experiences this as a result The small radius of curvature of the crossbars is too stressful. To this To avoid this, the number of cross bars must be increased accordingly, which is a Incomplete utilization of the tensile strength of the iron layers means more expensive and increases the weight of the reinforced concrete body.

According to the invention, these disadvantages are eliminated in that the iron inlays (stirrups) forming the transverse reinforcement under tension around the later removable cores of the recesses for the longitudinal reinforcement. These Recesses have a larger diameter than the longitudinal reinforcement to be used in them and after removing the cores and inserting the longitudinal reinforcements in in a known manner with cement mortar o. The like. Poured. The transverse reinforcement encloses consequently the longitudinal reinforcements with a relatively large radius of curvature.

The drawing shows one produced according to the method of the invention Mast, namely shows: Fig. I a view of the mast and Figs. 2 and 3 cross sections two different embodiments of sections of the mast.

As Fig. I shows, the mast is made up of a large number of them lined up in a row composed of hollow sections a, which by means of continuous longitudinal reinforcement bars are connected in a known manner.

Booms are denoted by b, which in any direction and can be attached to each other offset as desired. In the lower part of the mast are shaped stones c arranged, which to increase the stability the mast have wings, which the ground pressure exerted by the mast to a greater Distribute area.

The sections a are provided with recesses d for receiving serve the continuous longitudinal iron. Here is the diameter of the recesses d greater than that of the rebars introduced into them. The one to absorb the shear forces used transverse reinforcement bars, which have the shape of stirrups or a continuous Spirals are drawn tightly around the mold cores of the recesses d, so that after removing these cores they lie tightly around the recesses d.

After inserting the longitudinal reinforcement eyelets into the recesses d these are filled with cement mortar. This results in a very favorable power transmission achieved between the stirrups and the longitudinal reinforcement bars surrounded by the cement mortar, because thin brackets are stretched tight on the one hand, and sufficient at the corners on the other Have radii of curvature.

The tensile strength of iron can therefore be fully utilized. This means that significantly fewer transverse reinforcements are required than with known masts, and that also reduces the weight of the mast will. This also means that the mast is easy to transport. He can in expediently put together in the factory and ready for use on site to be brought. This is despite the low weight and the low iron expenditure the strength of the mast is particularly high.

Claims (1)

PATENT CLAIM: Process for the production of parts for assemblable Reinforced concrete poles with crossbars, reinforcements and recesses for assembly of the masts to be used longitudinal reinforcements, characterized in that the Cross reinforcement forming iron inlays (bracket e) under tension around the later removing mold cores of the recesses (d) are wound, the latter being larger Have a diameter than the longitudinal reinforcement to be inserted into the recesses, see above @ that the transverse reinforcement forming iron inlays (bracket e) the longitudinal reinforcement enclose with relatively large radii of curvature.