DE3310482A1 - CONCRETE CARRIER, SUPPORT PLATE OD. DGL. - Google Patents

Description

14 928

Dp.-Ing. Heinrich Bechert Teckstrasse 44
7000 Stuttgart 1

Concrete carrier, support plate or dpi.

The invention relates to a concrete girder, support plate or the like, which consists of a lower plate, one consisting of webs Middle layer and a top plate composed. The cavities formed by the webs are in the known embodiments up and down on the radius of a circle, lying arch completed. However, the properties of such carriers are not entirely satisfactory, as they are, on the one hand, still very are heavy and on the other hand the load capacity is too low. The object of the invention is to provide a carrier that is larger Allows spans and heavier loads and has a lower weight. According to his invention, this is achieved by that the upper and / or the lower arch of the foal spaces as fl

lip or basket arches are formed. As a result of the associated Increasing the size of the cavities reduces the concrete consumption and thus the weight. In addition, there is a larger one Eccentricity of the preload and at the same time a greater centric Effect of the same. Due to the resulting larger core width, i.e. the ratio of the section modulus to Area, you also get larger spans and a higher load capacity.

For concrete girders or slabs with pre-stressed wire reinforcement the concrete becomes very much at the interfaces of the wires in the discharge area, especially in the webs of the middle layer heavily used, so that under certain circumstances stresses arise, which then lead to pissing in the material. To this stress: to decrease in the Kinleitunp-sbereich, the wires are after. Another feature of the invention from its interface into the carrier into a portion with a film or the like. wrapped around.

In order to better distribute high individual loads transversely, preferably run In addition to the longitudinal reinforcement wires, additional upper reinforcement wires at least in the lower part of the beam.

In order to connect several beams or plates with each other, are on the side surfaces usually provided composite joints, wherein the fugue as approximately perpendicular to the carrier surface in the side surface extending recess is formed. Preferably goes

the recess at the top and bottom with bevels in the side surface about »When pouring the joints with concrete, compression struts can develop in this way to avoid different deformations to exclude the elements. The inclined surfaces expediently run at an angle between 30 and 45 ° to the carrier surface, wherein the upper slope is arranged steeper than the lower. Particularly favorable conditions arise when the length of the Depression about half and that of the remaining side surface parts each about a quarter of the beam thickness. In order to be able to pour the concrete more easily, this is the upper side surface part set back from the lower one.

The drawing shows an embodiment of the invention. They represent:

Pig. I the cross-section of a concrete slab, FIG. 2 shows an enlarged detail from FIG. 1.

The support plate 1 made of concrete is composed of an upper plate 2, a lower plate 3 and a middle part 4, wherein the middle part is made up of webs 5. Cavities 6 are provided between the individual webs 5, the upper arch 7 and the lower arch 8 of the cavities 6 are designed as an elliptical arc. The elliptical arcs 7, 8 create larger cavities 6 allows, so that concrete and thus weight can be saved.

The plate is provided with wire reinforcement, the tension wires 9 running in the longitudinal direction. From their interfaces into the carrier, they are partially wrapped with a film 10 in order to reduce the stress on the concrete at the point of entry of the wires 9 and thus prevent front cracks. The wrapped piece of wire has a length of 50 to 70 cm . In addition to the longitudinal reinforcement wires 9 3 transverse reinforcement wires 11 are in the lower ^m rä gerteil arranged, whereby a cross füUnstigere distribution is at high loads.

The composite joint 12, which is used to connect to further panels, is composed of a recess 15 running approximately perpendicular to the carrier surface 13 in the side surface 14 and an upper bevel 36 and a lower bevel 17. While the lower slant? 17 runs at an angle of 30 ° to the plate surface 13, the angle at the upper inclined surface is 45 ° - The length of the recess 15 corresponds to about half the thickness of the plate 1, while for the lower side surface 18 and the upper rare surface 19, respectively a quarter of the plate thickness are provided. The upper side surface part 19 is set back with respect to the lower 18, so that an opening for pouring the concrete results when the plates are in contact with one another. Due to the inclined surfaces, compression struts are formed in the grouting concrete, which prevent the various deformations of the individual panels.

Claims (7)

14-928 claims 1. Concrete beam, support plate or the like with between a lower and an upper plate provided cavities, characterized in that the upper (7) and / or the lower (8) curvature of the Cavities. (6) are designed as an elliptical or basket arch. 2. Concrete girders, slabs or the like with pre-stressed wire reinforcement, characterized in that at least the lower wires (9) extend from their intersection into the carrier a section with a film (10) or the like. Are wrapped. 3. Carrier according to claim 2, characterized in that except the longitudinal reinforcement wires (9) at least in the lower support part (3) to a certain partial length or the entire length Run through the reinforcement wires (11). 4. Concrete beam, support plate or the like with a bonded joint for connection of further carriers, the joint as a depression running approximately perpendicular to the carrier surface in the side surface is formed, characterized in that the recess (15) above and below with bevels (16, 17) in the side surface (14) transforms. 5. A carrier according to claim 4, characterized in that the Inclined surfaces (16, 17) at an angle between 30 and 45 ° to Träperoberflache (13) run, the upper slope (16) is arranged steeper than the lower (17). 6. Carrier according to at least one of the preceding claims 4 to 5, characterized in that the length of the recess (15) is approximately half and that of the remaining side surface parts (18, 10) are each approximately a quarter of the carrier thickness. 7. carrier according to at least one ^r ■ i- preceding claims 4 to ^. characterized in that the upper side surface part (.1 ^) is set back relative to the lower (17).