DE1658585B1 - Method for the section-by-section, free front construction of multi-span prestressed concrete bridge structures - Google Patents

Description

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The invention relates to a method for ab-, joints are arranged, so z. B. Tanner Bearer, Create section-wise free porch of multi-span to their full length in free porch Prestressed concrete bridge structures that can in at least.

a superstructure field at least one not in the middle of the field. This object is achieved in that of each

lying, horizontal movements and / or angular 5 of the two pillars delimiting a superstructure field have rotations enabling joint. is built in front so that the two cantilever arms

In the section-by-section front structure, either in the middle of the field, i.e. also in the one through the using falsework trestles that can be driven over on a fixed subframe, joint or the joints interrupted, or - in the case of the open apron, meet and are concreted together there, and construction - using on the already herge io that the mobility of the camp during the free made the bridge part movable, cantilevered or porch to absorb the full cantilever moment on one over the area of the to be established by a tensile connection of the two through the Superstructure part extending auxiliary beam of movable articulated parts connected to the superstructure top Scaffolding of the superstructure of the prestressed concrete bridge support and a pressure-resistant connection to the superstructure concrete is turned off in individual sections one after the other.

is ned, can be particularly advantageous from cantilever With the method according to the invention it is possible-

girders produce existing superstructures, their borrowed, including the area of the superstructure in which the Double cantilever arms are symmetrical to the respective end state, the horizontal movements and / or Pillar up to the center of the field or, if both fields are effective, a joint that enables angular rotation is effective, have the same spans up to a point er 20 in the free front structure, although despite the from stretch, the joint joint in the unfinished part that was present from the beginning in the section-wise free porch The full cantilever moments are transferred to the pillar structure delimiting the relevant superstructure, learning or pillars and abutments can be reached from can and on which the cantilever ends are released by one of the blocking of the bearing and its free take-up by transverse forces serving as well as brought about longitudinal mobility.

Vertex joint permitting displacements connected A particularly useful embodiment of the

will. The location of the joints outside of the field procedure is that for the tensile means in the case of unequal spans of the adjacent tie on the top of the superstructure, the cover used Fields results from the known method from the cantilever moment required in the construction stage the need to balance the of the 30 tendons used against one two pillars in the opposite direction in front of the pressure hull arranged in the joint Maintain cantilever arms. be tensioned. The tendons can be

This method can also be used to hit the arrow joint by means of a detachable connection learn horizontally displaceable continuous beams. Such a pressure body is advantageous ger. Used for the free stem of the 35, its pressure absorption capacity is adjustable double cantilever arms the mobility of the bearing is bar, z. B. one or more hydraulic presses, Maintained on the pillars during the construction phase by being dismantled during the pre-construction Supports are switched off in order to avoid a tilting of the pressure after the relevant superstructure has been closed To prevent superstructures. Close after steering and loosening the tendon connections the overbuilding fields and being left together.

concreting the ends of the cantilever arm, the supports will be The procedure is based on the in the drawing

gene on the pillars removed and the free moveable- illustrated embodiments explained,
speed of the bearing of the current continuous beam It shows

manufactured. 45 Fig. 1 is a side view of a three-field

The static advantages of bridge structures, bridge structures with a suspension beam in the those in the manner of a so-called tannery carrier with a middle field,

are equipped with a suspension bracket, which is shown in Fig. 2 is a side view of a three-field

Solen at the ends of the bridge structure projecting over the pillars with only one joint in the middle Support rests are known; they are mainly 50 fields and

in the reduction of the column moments in favor of F i g. 3 shows an enlarged longitudinal section of the region of an enlargement of the generally easier articulation area A in FIG.

increasing positive field moments. According to Fig. 1, the superstructure also consists of two edge

Beams are already cantilevered beams 1 or Γ and in the section-wise free front building has been manufactured. So far, however, the porch was only a one-piece arranged in the middle part of the inner field to the mostly in the area of the moment zero suspension beam 2.

points of the continuous beam lying joints in F i g. 3, the end section of the cantilever is possible with 3. The free hanging support carrier 1, which expires in a console 4, had to be used using special lifting equipment or other heavy equipment as a whole 60 is provided with a console 6 on its end face. Difficulties arose between the consoles 4 and 6 , especially on bridges over water, where a known bearing 7 is arranged with a roller,
The relatively heavy suspension brackets are used to absorb the cantilever moment in the following

floated and sections no longer required to be lifted with hoists had to. 65 the end section 3 of the cantilever 1 ending

The object of the invention is to provide a possibility for tension members 8 in a manner known per se create to also bridges where anchored in the area with anchoring bodies 9. The to the order Cantilever girders to be produced in the open front would take the cantilever moments in the cantilever girder.

Provided part of the suspension support 2 required tendons 10, of which the first in the area of inner end of the end section 5 are anchored with anchoring bodies 9 ', are longitudinally movable passed over the joint 16 and met there with a connecting sleeve 11.

Then in the area of a recess 12 arranged on the top of the superstructure, in which the Tensioning members 10 and the connecting sleeves 11 are exposed, one or more hydraulic presses 13 built-in. At the same time, steel pressure plates 14 used. A pressure-distributing intermediate layer 15 is arranged in between. After the Concrete of the first, the end section 5 and the bracket 6 comprehensive concreting section of the suspension beam 2 the tendons anchored there are tensioned in the usual way, whereby the The compressive force to be absorbed in the area of the top of the superstructure from the prestressing of the concreting section is introduced into the hydraulic presses 13. In this way it is possible to use the tendons 10 should be put under full pretension right away, in order to allow later elastic yielding with increasing To avoid cantilever moment.

When the middle of the field is reached at the end of the section-wise free porch and the merger of the two cantilevers has taken place, the pressure in the presses 13 is released. Through this the intermediate layer 15 on the underside of the superstructure is free, and the connecting sleeves 11 of the tendons 10 can be solved. The full mobility of the bearing 7 is thus established.

This mode of operation is not limited to the production of bridge structures with symmetrically arranged Suspension brackets according to FIG. 1 limited, but it can be according to the same method Bridge structures are produced in which, for example, only one joint is asymmetrical in the field is arranged (Fig. 2). This reduces the degree of static uncertainty, and it is possible to to reduce the column moments in order to make better use of the bridge cross-section.

Claims (5)

Patent claims: 1. Procedure for the section-by-section free pre-construction of multi-span prestressed concrete bridge structures, in at least one superstructure field at least one not in the middle of the field, Have horizontal movements and / or angular rotations enabling joint, thereby characterized in that from each of the two pillar delimiting a superstructure field is built in front so that the two Cantilever arms in each case in the middle of the field, i.e. also in the one interrupted by the joint or joints Overbuilding field, meet and be concreted together there, and that the mobility of the bearing (7) during the free front end to absorb the full cantilever moment a tensile connection of the two parts connected by the hinge on the top of the superstructure and a flameproof connection on the underside of the superstructure is switched off. 2. The method according to claim 1, characterized in that that for the tensile connection on the top of the superstructure to cover the cantilever moment Tendons (10) required in the construction stage are used, which press against a pressure body arranged in the joint be excited. 3. The method according to claim 2, characterized in that the tendons (10) in the Joint joints are joined by means of a detachable connection. 4. The method according to claim 2 or 3, characterized by the use of a pressure body, whose pressure absorption capacity is adjustable. 5. The method according to claim 4, characterized in that the pressure body in the joint one or more hydraulic presses (13) are used, whose during the front end maintaining pressure after closing the relevant superstructure field to bring it about the mobility of the joint and loosening of the tendon connections. 1 sheet of GOPY drawings