DE1257818B - Process for the segmental production of bridge structures or the like elongated structures made of in-situ concrete and precast concrete component for carrying out the process - Google Patents

Description

Method for the sectional production of bridge structures od. Like. Elongated structures made of in-situ concrete and precast concrete part for exercising the Process The invention relates to a process for the production of Bridge structures or the like. Elongated structures made of in-situ concrete. Such structures are concreted in formwork on a falsework. The sections to be concreted are separated from each other by transversely arranged formwork. The concreting sections separating formwork must be removed before the next section is concreted which means that you always have to wait for the concrete to set, before the next section can be concreted. Since such structures are longitudinal reinforcements, be it tendons or slack reinforcement, these must be supported by the the formwork delimiting the concreting sections are passed through as spacers works. Removing the formwork is made difficult by the reinforcement.

The invention is based on the object of developing a method in which this difficulty does not arise. The solution is that as formwork for the face of each of the concreting sections to be made one after the other Precast concrete components are used, which as permanent formwork in the building stay. Since in the method according to the invention, the lost formwork from precast concrete components exist, they combine with the in-situ concrete poured into the concreting sections, so they without. Further od in the concrete body of the bridge structure. Like. Can remain. It is thus spared the formwork, and it is possible above all that the Concreting work can proceed without having to wait until the concrete has hardened so far that the formwork can be removed. It will This not only saves stripping, but also saves construction progress accelerated. In the method according to the invention, the pretensioning and / or slack reinforcement led out of these through openings in the precast concrete components will. The precast concrete components are used in a known manner when introducing the In-situ concrete as spacers. While the reinforcements have so far been used when stripping the the formwork delimiting the concreting sections and the stripping were disruptive difficult, there is now the advantage that the spacers in the concrete body of the Bridge structure or the like remain and therefore as the concreting work progresses, as long as the concrete has not yet hardened, ensure that the reinforcement is in the correct position.

Since the precast concrete components or the like must remain in the bridge structure their outline corresponds to the cross-section of the structure. Therefore, the formwork for the long sides of the bridge structure or the like applied to the precast concrete elements will. The precast concrete components determined the cross-section like a template of the structure.

It is known to assemble bridge structures from prefabricated components. For this purpose, however, prefabricated parts are used with great weight, which on the Construction site and must be brought into its location. In the method according to the invention the weight of the precast concrete components can be largely reduced, since the precast concrete components only have to fulfill the task of a formwork delimiting the concreting sections. Precast concrete components suitable for practicing the method according to the invention are, therefore, according to the invention, disk-shaped with one of the outline of the bridge structure Od. Like. Corresponding outline and have openings for the reinforcements on. Such a disc-shaped precast concrete component has a low weight, the is smaller than that of a conventional prefabricated component for bridges. The prefabricated part can have at least one cantilevered console.

An exemplary embodiment is explained using the drawing. It shows F. i g. 1 shows a cross section through a railway bridge, FIG. 2 is a side view on this, F i g. 3 a precast concrete component with the reinforcements before the introduction of the In-situ concrete in a view, F i g. 4 shows a section in the plane IV-IV of FIG. F i g. 5 the formwork of a concreting section of a bridge structure -according to F i G. 1 and 2 in cross section and FIG. 6 the bridge during construction.

In the case of the in FIG. 1 and 2 is the railway bridge shown with 1 the in-situ concrete and designated by 3 a disc-shaped precast concrete component. The precast concrete component 3 protrudes over the in-situ concrete body by about the thickness of the formwork. The long sides the precast concrete components 3 run parallel to the long sides of the in-situ concrete sections of the bridge structure in such a way that the disc-shaped prefabricated concrete components serve as a template serve for the formwork for the in-situ concrete. The precast concrete elements point to the side 3 a console 4 for supporting a sidewalk 5.

The F i g. 3 and 4 show a prefabricated concrete component 3, which serves as a spacer for the reinforcement. The prefabricated component has openings 6 for the reinforcements 7 to be prestressed and openings 8 for the slack reinforcements 9. The precast concrete component 3 is provided with niches 10 above and below; which are not designed as continuous perforations and only serve for a better connection with the in-situ concrete in the manner of dowelling. This task is taken over by the breakthroughs -8 on both sides.

F i g. 5 shows the formwork of a concreting section between two prefabricated panels. The outer formwork consists essentially of vertical beams 11 and formwork panels 12 attached to them. The beams 11 are held together by tension locks 13: The correct position of the formwork elements is ensured by guide beams 14, which are stretched from precast element to precast element. The inner formwork consists of a formwork carriage, similar to the one used in tunnel construction. A scaffold 17 to be moved on wheels 16 runs on two longitudinal girders 15 and carries the formwork elements 19 on spindles 18 : 20 represents the support girders of the falsework.

F i g. 6 shows a state of construction during the fore-building of the bridge structure. In the fourth field 21 are on prepared scaffold yokes 22 armor 20 from the first field 23 laid, while in the third field 24 on the already laid formwork base 25, the prefabricated concrete components 3 offset and by the guide beam, not shown are held in their position. The prestressed reinforcement and then the slack reinforcement was laid. In the second field 26 is in sections the formwork is set up and, after concreting and hardening of the concrete, into the next field offset. After the last section of the second field 26 has hardened, a number Tendons tense and thus the load-bearing capacity of the bay for the girder's dead weight and the crane load established. The structure has been completed in the first field; the Equipment carriers have already been expanded.

Claims (5)

Claims: 1. Method for the production of bridge structures in sections or the like elongated structures made of in-situ concrete, d u r c h e k e n n -z e i c h n e t that as formwork for the face of each of the to be produced one after the other Concreting sections of precast concrete components are used, which are used as permanent formwork stay in the building. 2. The method according to claim 1, characterized in that the Formwork for the long sides of the bridge structure or the like on the precast concrete components be created. 3. The method according to claim 1 or 2, characterized in that the pre-stressed and / or slack reinforcements through openings in the precast concrete components be led out of these. 4. Precast concrete component for practicing the method according to one of claims 1 to 3, characterized in that the precast concrete component (3) Disc-shaped with a shape corresponding to the outline of the bridge structure or the like Outline is formed and openings (6 and 8) for the reinforcements (7 and 9) having. 5. Precast concrete component according to claim 4, characterized in that there is at least one cantilevered console (4) aufwe . Considered publications: German utility model No. 1842 854; Journal "Beton-Produktion, Einsatz", 1959, p. 175, fig. 47.