DE968816C - Method for producing a prestressed concrete beam, in particular a prestressed concrete slab beam bridge, which runs through several fields - Google Patents

Description

Method for producing one that runs over several fields Prestressed concrete beam, in particular a prestressed concrete slab beam bridge The invention relates to a method for producing a prestressed concrete beam that runs through several fields, in particular a prestressed concrete girder bridge, with one or more comparatively large midfields and smaller endfields. With such span ratios As a rule, negative bearing pressures arise on the external supports and above the Central supports great moments that occur with a beam construction to be carried out at the same height difficult, e.g. B. can only be recorded with wide horizontal haunches.

In a known method of making one over two fields Continuous prestressed concrete slab beams make the individual fields through as single-field girders formed precast concrete beams bridged, the joint between the two one behind the other lying beams closed by concrete and over the supports to accommodate negative Special tendons introduced moments.

In contrast, the task at hand, one over several, z. B. Prestressed concrete beams running through three fields, in particular a prestressed concrete slab beam bridge, with a constant construction height while avoiding the difficulties indicated above produce, solved according to the invention in such a way that initially the carrier of the Middle field as a single field support or, in the case of several middle fields, the support of the middle fields manufactured as single-span girders and prestressed in such a way that this girder or these girders in the middle of the field do not have a bow and almost over the supports no angular rotation received, and that then the end span girders are concreted, their prestressing reinforcement connected with strands of the reinforcement of the central field or the central fields, preferably is screwed.

This bias then goes through the whole bar or the whole Bridge through it, which creates a slight uplift in the midfield, which z. B. at a bridge is compensated for by the subsequently applied road surface will. In this way, a structure is created that only has so much above the central supports negative moment as the T-bar can accommodate without reinforcement, and that does not require anchoring at the abutments. Compared to the known method for the construction of a prestressed concrete girder bridge that runs across several fields from factory-made prefabricated beams, the method according to the invention the advantage that the individual girders are concreted directly to one another, so that there are no joints over the supports, and that the tendons over the Run through the entire length of the bridge so that additional tendons are placed over the supports are dispensable. Since in the normal load condition (dead weight without significant Traffic load) there are only centric compressive stresses on average under the effects of shrinkage and creep no significant rearrangement of forces.

In a prestressed concrete beam produced by the method according to the invention the bars of the end fields are expediently the same height, but to reduce them of the moment of resistance has a smaller cross-sectional width than the bar of the middle field. As a result, the column moments, which are due to the traffic load, at which the system works as a continuous beam, which is significantly reduced is desired.

In the drawing is an example of one according to the method according to FIG Invention manufactured girder bridge shown.

Fig. I shows a longitudinal section through a prestressed concrete bridge, Fig. a shows a plan view from below and FIG. 3 shows a cross section.

The bridge shown in the drawing is a prestressed concrete slab beam running over three fields, which is moveable on the central support c and fixedly mounted on the central support d. The end fields have about a third of the span of the middle field. The construction height of the plate beam is the same along its entire length. The bridge is manufactured according to the invention in such a way that first of all the girder a of the central field is made as a single-span girder (beam on two supports) and is prestressed in such a way that the girder shows no deflection in the middle of the field and almost no angular rotation over the supports c, d. Then the girders b of the end fields are concreted to the girder a of the middle field. The prestressing reinforcement of the end fields is connected to strands of the reinforcement of the middle field, preferably screwed. Then the road surface is applied. In the exemplary embodiment, this consists of a sub-concrete e and an asphalt pavement f applied to it. The bars b of the end fields have a smaller width than the ball a of the middle field. Above the supports c, d, h, the balls a, b are connected by crossbars g.

It goes without saying that a two-field bar or a two-span bridges or multi-span structures with widely differing spans can be made in the same way.

Claims (1)

PATENT CLAIMS: i. Method for producing a prestressed concrete beam running through several openings, in particular a prestressed concrete slab girder bridge, with one or more comparatively large central fields and with smaller end fields, characterized in that initially the carrier (a) of the central field as a single-field carrier or, in the case of several central fields, the carrier of the cement fields as Single-span girders are manufactured and prestressed in such a way that the girder or girders in the middle of the span do not bend and almost no angular rotation above the supports, and that the girders (b j of the end spans are then concreted, their prestressed reinforcement with strands of the reinforcement of the middle field or Prestressed concrete beam, in particular prestressed concrete slab beam bridge, produced according to the method according to claim 1, characterized in that the girders (b) of the end areas have the same height, but a smaller cross-sectional width than the girder ( a) of the middle field or the bearers of the middle fields. Considered publications: "Beton- und Stahlbetonbau", ig5o, p. 137, z38.