DE2702461B2 - Abutment for bridge structures - Google Patents

Description

The invention relates to an abutment for bridge structures with concreted on the foundation one-piece continuous abutment wall.

In the manufacture of abutments for relatively wide bridges, such as those in particular are common in the construction of motorway bridges, one is fixed to the foundation on a concrete foundation connected abutment wall erected on which the structural side members rest and the at their upper end merges into a chamber wall. The abutment wall is usually made as a one-piece wall concreted on the previously completed foundation. With reinforcements protruding from the foundation a firm connection between the foundation and the abutment wall is provided. After Finishing such abutments, fine cracks are very often observed in the abutment wall, that run upwards from the foundation. Although these cracks hardly affect the static function of the abutment affect, however, they provide drainage for existing in the ground behind the abutment wall and accumulating moisture that leaks forward through these cracks. This creates one as ugly Perceived soiling of the visible surface of the abutment wall, as the cracks are also very large Effort are not to be sealed.

The origin of the cracks can be explained theoretically and is due to the heat build-up that occurs in the Setting of the freshly concreted abutment wall arises and causes the abutment wall a has a much higher temperature than the foundation on which it is concreted and to which it is firmly connected is. The abutment wall, which is shortened by shrinking and shrinking during setting and cooling due to the firm connection to the foundation in this area, it is not able to To take part in shortening through shrinking and shrinking, as the rigid foundation of this movement does not give in. The consequence of this are tensile forces ip der

Abutment wall in the transition area to the foundation assume very high values and cause the concrete to crack with the above-mentioned formation vertical cracks

In order to avoid these cracks, was already done without the Knowing the cause of their emergence, intended to make the abutment wall from several sections and to form joints sealed with rubber seals between the individual sections. Such joints, sealed with a rubber band, are very difficult to produce because the rubber band is in the both adjoining end faces must be concreted in, which also leads to a special one Reinforcement routing in this area leads

There is also the disadvantage that when concreting improper attachment of the rubber band is usually not recognized and then after Completion of the abutment wall still leaks, which are extremely costly can be repaired. It is also found that even when good rubber materials are used, the Rubber band is subject to wear and tear and leaks, which leads to pollution the visible surface of the abutment wall occurs despite this measure, especially since the rubber bands so are set in concrete so that replacement is not provided.

The invention has for its object to provide an abutment for bridge structures in which the mentioned temperature cracks as a result of the shrinkage and shrinkage of the abutment wall avoided will.

This object is achieved according to the invention in that the foundation consists of several joints separate foundation blocks.

In the case of such an abutment, the temperature cracks described at the outset appear in the abutment wall avoided, as the foundation consisting of individual foundation blocks is a sufficient one Has compliance to go along with the shrinkage and shrinkage of the cooling abutment wall. The dimensions of the blocks are such that they have a maximum length in the direction of the Do not exceed the longitudinal extent of the abutment wall, thus also in the sub-area in which the The abutment wall is firmly connected to the foundation block, no tension from the shrinkage and Shrinkage occurs that exceeds the permissible tensile strength of the concrete. The joint width between the foundation blocks is basically arbitrary and results from requirements that are placed on the foundation as well as static considerations and the nature of the soil.

) e depending on the type of subsoil in which the foundation is being built and also depending on the structural requirements, the joints between the foundation blocks can be a width up to the width of the Have foundation blocks. The joints between the foundation blocks can be made after concreting and cooling the abutment wall are provided with filler material. The filler material is appropriate Concrete or other frost-resistant material.

To ensure that the foundation blocks follow the temperature movement of the abutment wall, it is advantageous to place this on a blinding layer that yields when the foundation blocks move Concreting lean concrete. Cracks in the blinding layer do not affect the quality of the foundation.

An exemplary embodiment of the invention is described with the aid of the drawing, namely shows

F i g. 1 an abutment for a bridge structure with a one-story abutment wall and

F i g. 2 shows a section along the line H-U of FIG. 1.

The in Fig. 1 shown abutment 10 is used to support the soil 11 on which the traffic Connection to the superstructure 12 of the bridge structure runs. The abutment 10 consists of foundation blocks 15, which lie on a blinding layer 16 made of magnesium clay and are fixed to the abutment wall 17 are connected. On the abutment are bearings 18 on which the superstructure 12 rests. In the upper area the Gegenlagsrwand 17 a cantilevered stem 19 is attached, on which a chamber wall 20 stands so that a free space between the end of the superstructure 12 and the chamber wall 20, i. H. the so-called Chamber, remains, which is accessible and intended for maintenance purposes.

As can be seen from Fig. 2, there is a foundation from three Fundainent blocks, between which joints 22 are formed. These joints 22 are either with Soil or filled with another material, if the already concreted abutment wall cooled down and thus the shrinking and shortening process is largely complete. During the Shrinkage and shortening of the abutment wall can the foundation blocks 15 on the. cleanliness layer 16 give in to the stresses introduced by the abutment wall and slightly the Participate in the shortening process. In this way, the shortening and shrinking of the Abutment wall defrosted temperature stresses that arise during cooling and thus the prerequisite Avoided vertical cracks in the abutment wall.

If, as is the case in the illustrated embodiment, the joints 22 between the Foundation blocks are in the frost-prone area of the ground and the requirement for a

H) if there is a frost-free foundation, these joints can be replaced after the abutment wall has been completed and cooled down, it can also be filled with concrete. It is also intended to provide another frost-resistant material for filling these joints 22. The width of the Foundation blocks 15 is preferably chosen so that the length of the cut of the abutment wall 17, which is firmly connected to the foundation block, a certain one resulting from calculation does not exceed the maximum length at which the strength of the concrete is sufficient to cover the foundation block to absorb the resulting temperature stresses.

It is also envisaged to make the joints 22 relatively narrow and a relatively large one To provide a variety of such joints, so that the length of the individual foundation blocks is much shorter than is the length that results as the maximum length to ensure a crack-free abutment wall. at Such narrow joints, it is useful to fill the joints with a frost-resistant material so

ju no moisture can penetrate.

1 sheet of drawings

Claims (5)

Patent claims: 1. Abutment for bridge structures with a one-piece, continuous, concreted on the foundation Abutment wall, characterized that the foundation consists of several foundation blocks separated from one another by joints (22) (15) exists. 2. abutment according to claim 1, characterized in that that the joints (22) between the foundation blocks (15) a width up to the width of the Have foundation blocks. 3. abutment according to claim 1 or 2, characterized in that the joints (22) between the Foundation blocks (15) after concreting and cooling of the abutment wall (17) with filler material be provided. 4. abutment according to claim 3, characterized in that that the filling material is concrete or another frost-resistant material 5. abutment according to one of claims 1 to 4, characterized in that the foundation blocks on a blinding layer (16) made of lean concrete, which yields when the foundation blocks move are concreted on.