DE1301036B - Reinforced concrete hollow beams for bridge or ceiling panels - Google Patents

Description

The invention relates to reinforced concrete hollow beams for bridges or ceiling panels, which are made up of several adjacent and consist of hollow beams clamped together in the transverse direction by means of tie rods. At a Previously known design, these hollow beams have flat side surfaces. One of those Hollow beam existing bridge or ceiling plate has the disadvantage that this plate with regard to the flat side surfaces of the bars only relatively small Can transmit forces from beam to beam. Another disadvantage of this reinforced concrete hollow beam results from the manufacture. A shuttering base with longitudinal grooves is used for this purpose which are the flat formwork panels, which are reinforced and supported by posts are to be plugged in. Since now when filling this formwork with concrete, greater pressure loads occur, bending of these formwork panels cannot be avoided, an exactly vertical position of these flat formwork panels is also not necessary to achieve.

Since the hollow beams produced in this way are not exactly flat and have side surfaces perpendicular to the bottom of the formwork, the Assembly of the hollow beams laid them next to each other in exactly the same order and clamped together as they were created in the formwork. This is necessary so that the touching irregular side surfaces fit together exactly.

The previously mentioned type of hollow beam with planar Side surfaces also has the disadvantage that with such hollow beams only flat bridge or ceiling panels can be produced.

To eliminate the aforementioned shortcomings, form according to the invention in the case of hollow reinforced concrete beams used to manufacture bridge or ceiling slabs the long sides of the same kinked or curved surfaces, one of which is concave and the other is convex. The two long sides of this advantageously form it Hollow beam cylindrical surfaces.

Reinforced concrete hollow beams of this type, which are made using tie rods are clamped together to bridge or ceiling plates, have compared to the previously known significant benefits. Due to the kinked or curved design of the side surfaces With such a beam plate, significantly greater forces can be exerted from beam to beam be transmitted. In the case of a curved design of the hollow bar side surfaces, it is expedient Form cylindrical surfaces, it is also possible to use the adjacent hollow beams to be offset in height from each other, so that it is possible, too Manufacture any curved or roof-shaped panels. This is particular Desired for bridge slabs, as the cross profiles of bridges are generally different, So not only flat, but also concave or convex or even roof-shaped are.

Another important advantage is that with hollow beams with kinked or curved side surfaces a formwork device with accordingly kinked or curved formwork can be used, one opposite flat formwork panels have considerably greater rigidity and accordingly themselves Do not bend during manufacture or when filling the formwork device. As a result, a number of reinforced concrete hollow beams with such a formwork device can be produced that all have exactly the same kinked or curved side surfaces have, so that when assembling these beams to form a beam plate, the hollow beams can be placed side by side in any order and clamped together.

The details of the invention are set out below with reference to in the Drawing illustrated embodiments explained in more detail. It shows F i g. 1 the partial cross-section through a beam ceiling made of hollow reinforced concrete beams, F i g. 2 such a beam ceiling in a curved design.

In Fig. 1 are denoted by 1 or 1a hollow reinforced concrete beams, which lie next to one another without an intermediate joint, ie with direct contact and are clamped together in the transverse direction by means of tie rods, which are indicated with a dash-dotted line at 2. In the two lateral hollow beams 1 a, the necessary anchoring plates are indicated at 3. These hollow reinforced concrete beams, which form a beam ceiling, are therefore clamped together in the transverse direction with considerable prestress in the tie rods 2.

As shown in FIG. 1 can be seen, form the long sides of the hollow beams bent surfaces 4, 5, of which one surface 4 is concave and the other surface 5 is convex. Thanks to this training can consist of such a hollow beam Beam plate transfer very large forces from beam to beam.

In the case of the in FIG. 2, the two long sides of the hollow beams form curved surfaces 4 a and 5 a, these curved surfaces advantageously forming cylinder surfaces. With this design it is possible to move two adjacent hollow beams 1 slightly against each other, ie to arrange them offset in height so that their central planes, which are indicated at a, b and c, enclose a small acute angle a and ß. F i g. 2 shows that it is possible in this way to achieve any curved or roof-shaped beam ceiling. As can be seen from the drawing, the longitudinal cavities of the hollow beams are achieved during manufacture in a known manner by arranging cylindrical bodies 6 made of lightweight foam (Styrofoam) or the like.

The drawing also shows that at the top and bottom edges the reinforced concrete hollow beam longitudinal grooves 7 and 8 are provided, with the at the top provided longitudinal grooves 7 after making the beam ceiling for casting with cement mortar can serve.

The reinforced concrete hollow beams according to the invention are preferably used as Prestressed concrete beams made. These bars, which are approximately square in cross-section have, for example, a height of 60 to 80 cm and a length of for example 8 to 28 m. The beam ceiling produced with these prestressed concrete beams can have a width of 4 to 12 m.

Claims (4)

Claims: 1. Reinforced concrete hollow beams for bridge or ceiling slabs, those made up of several juxtaposed without an intermediate joint and in the transverse direction by means of Tension rods clamped together hollow beams exist, marked thereby e t that the long sides of the hollow beams form kinked or curved surfaces, of one of which is concave and the other is convex. 2. Reinforced concrete hollow beam according to claim 1, characterized in that the two long sides form cylindrical surfaces. 3. Reinforced concrete hollow beam according to claim 1 or 2, characterized in that at least Longitudinal grooves (7) on the upper edges of the reinforced concrete hollow beams for grouting with cement mortar or the like. Are provided. 4. Ceiling slab made of reinforced concrete hollow beams according to claim 2, characterized in that the hollow beams are arranged offset from one another in height are so that their central planes enclose a small acute angle (a "B).