DE1207417B - Armament for the production of prestressed concrete bridges or the like. - Google Patents

Description

Armor for the manufacture of prestressed concrete bridges or the like. The invention relates to armaments for the manufacture of prestressed concrete bridges or the like, consisting of at least one cantilever spanning a bridge field . two structural supports supported and arranged above the bridge superstructure arches or frames and the formwork attached to this or an auxiliary assembly frame for prefabricated components.

Armaments have become known in which a bridge field is free Load-bearing formwork beams resting freely on the two structural supports Is formed in the shape of a frame. Furthermore, armor for the production of reinforced concrete or prestressed concrete bridges known, which consist of a cantilever spanning a bridge span, above 'the bridge superstructure arranged girders, the one from structural column to structural column is advanced, and there is formwork attached to it. As the carrier during the advance as a cantilever beam and in the concreting position as a beam acts two supports, it is designed as a parallel-belt carrier. Further armor are known that have a bow with a drawstring as a carrier, the underneath of the bridge superstructure and is supported on two structural supports.

The invention is based on the object discussed at the outset To improve armor so that the structural effort to absorb the internal tensile forces or the horizontal thrust of the frame or arch is lowered and its own weight armor is reduced.

This is achieved according to the invention in that the horizontal thrust of the armor is essentially absorbed by the tendons of the bridge superstructure, which are laid in their final position. With the most common bridge spans of around 30 to 50 m, each arch or frame is preferably erected as a whole in one go with a crane and at the same time it is expedient to suspend a light work frame and the formwork for the bridge superstructure. The horizontal thrust of the scaffolding loaded with the work scaffolding, the formwork and the reinforcement is preferably absorbed by the building supports or by a light temporary tie . As soon as the tendons are connected to the arch or frame, the scaffolding is able to withstand the loads of the fresh concrete and the concreting operation. In the case of bridges with smaller spans, the armor can be connected to the tendons before assembly and then erected. In the case of bridges with larger spans, the arches or frames are preferably provided with three joints and made in two parts. The two parts are set up at the same time with two cranes, with each part being pivoted around its transom joint until both parts meet in the vertex joint.

The armor according to the invention is also suitable for the production of prefabricated, Suitable for bridges divided by transverse joints. The preferably with cutouts prefabricated components provided for the tendons are placed on auxiliary assembly scaffolding, which is attached to the armor, advanced one after the other to their destination and then pretensioned and clamped together.

The armor according to the invention is also suitable for different bridge widths applicable as it consists of several arches or frames laid side by side that are not absolutely need to lie in a perpendicular plane with the tendons, assembled can be.

The armor according to the invention has the following advantages: Lowering the Material expenditure for the armor compared to the known armor, reduction the assembly weight of the armor, compensating for the deformation of the armor Tensioning of the tendons and unhindered deformation of the bridge superstructure during of prestressing without special construction measures.

The tendons can be attached to the arch or frame by hanging rods be connected, which are designed to withstand the various loads when concreting. A reduction in the dead weight of the armor can can be achieved when the arch or frame is made of tubes or box girders and these stiffening bars. The hollow cross-sections are mainly subjected to pressure, while the stiffeners absorb the bending moments that occur during concreting. Furthermore, the arch can be made up of straight pipe or hollow box sections which are detachably connected to one another be composed of whose Polygon points lie on an arc of a circle. This makes it possible to use a suit of armor designed according to the invention for different To use bridge spans. The items are preferably together connected by screwing. By removing or adding one or more Individual parts, the span of the armor can be changed at will.

To connect the tendons with the armor in the area of the To simplify supports, the use of continuous and expanded prestressing reinforcement The two base points can enable and facilitate the assembly of the armor of the arch or frame from concrete blocks that also form parts of the bridge superstructure exist in which the tendons are anchored. The concrete blocks take the support forces the armor on. They can also be provided with cragarines, increasing the span armor is reduced. Becomes a piece of armor assembled from individual parts is used, an exact adjustment to the bridge span width can be achieved by means of appropriate Choice of the lengths of the concrete blocks on which the armor is mounted.

An example of the invention is shown schematically in the drawing. It shows A b b. 1 the view of the armor and from b. 2 to 5 cross-sections of different types.

The flanged pipes or hollow boxes 1 are screwed together to form a polygon, the corners of which lie on a circle, and stiffened by the rods 2. The arch formed in this way is placed on the concrete blocks 5 located in the area of the bridge superstructure 8 with a crane after the hanging rods 4 and the working scaffold have been fastened. The work scaffolding and the reinforcements against horizontal forces are not shown for the sake of overlooked. During this assembly state, the horizontal thrust of the arch is directed over the concrete blocks 5 into the abutment 6 and the pillar 7 . The armor receives its final load-bearing capacity after the tendons 3 laid in their final position have been connected to the hanging rods 4.

A b b. Figure 2 shows a closed cross section with two tendons 3 and a pipe; it is particularly suitable for the production of prestressed concrete bridges from prefabricated components. From b. 3 shows a cross section with a tendon 3 and a tube which is stiffened by rods 2 arranged in a star shape, A b b. 4 shows a cross-section between two hollow boxes 1 and a tendon 3 and A b b. 5 shows a cross section with two tubes and two tendons 3 arranged one above the other.

Claims (2)

Claims: 1. Armor for the production of prestressed concrete bridges or the like, which consists of at least one arch or frame, which is cantilevered over a bridge field, supported on two building blocks and arranged above the bridge superstructure, and the formwork attached to it or an auxiliary assembly frame for prefabricated components, thereby characterized in that the horizontal thrust of the armor is essentially absorbed by tendons (3) of the bridge superstructure which are laid in their final position. 2. Armor according to claim 1, characterized in that the tendons (3) are connected to the arch or frame by rigid hanging rods (4). 3. Armor according to claim 1 or 2, characterized in that the arch or frame consists of tubes or hollow boxes (1) and these stiffening rods (2). 4. Armor according to claim 3 with at least one arch, characterized in that the arch is composed of releasably interconnected straight pipe or hollow box sections, the polygon points of which lie on an arc of a circle. 5. Armor according to one of claims 1 to 4, characterized in that the two base points of the arch or frame consist of concrete blocks (5) which also form parts of the bridge superstructure, in which the tendons (3) are anchored Patent # 620 511, 971 498. Journal "Beton, und Eisen", 1930, p. 207.