SU953111A1 - Method of reducing vertical pressure of soil onto underground structure - Google Patents

Description

The invention relates to the construction of earth bulk structures, which include pipes.

In the construction of pipes under embankments, the vertical pressure on them sometimes reaches twice the weight of the overlying soil. Therefore, with high embankments, pipe structures are very heavy. In this regard, pipes under the embankments must be erected so as to reduce the vertical pressure of the soil on them.

A known method of erecting a pipe under the embankment, including mounting the supporting structure of the pipe, placing plastic material on the upper part of the pipe, filling the embankment and releasing a layer of plastic material into the pipe cavity during operation through the channels in the pipe body [1J.

The disadvantage of this method is the low unloading ability.

There is also a method of reducing the vertical pressure of the soil on an underground structure, including mounting a supporting structure, placing an intermediate layer on the upper part of the supporting structure, filling the embankment and removing the intermediate layer [2 /),

The disadvantage of this method is the lack of effectiveness in reducing the vertical pressure of the soil, since part of the sand may be unwashed.

The aim of the invention is to increase the efficiency of reducing vertical soil pressure on an underground structure.

This goal is achieved in that the intermediate layer is placed with the formation of a cavity between it and the upper part of the supporting structure, and the removal of the intermediate layer is carried out by crushing it in bulk.

In FIG. 1 shows a structure, a vertical section; in FIG. 2 - the same, with the destroyed intermediate layer and soil pressure arch.

The method is as follows.

After the erection of the supporting structure 1, an intermediate layer is laid over it, made, for example, in the form of a concrete vault 2, resting it on the ledges 3 of the walls of the structural structure and leaving a cavity 4 between. concrete ”4 with arch 2 and the upper part of the supporting 'structure. Then fill the embankment 5, compacting it to volumetric weight. When filling the embankment above the concrete arch 2, the vertical load from it is transferred to the walls of the supporting structure 1. 5

When the embankment reaches the specified height, the load on the concrete arch 2 reaches its maximum limit and the drive collapses, descending into the cavity

4. The destruction of concrete vault 2 can 10 be caused artificially, for example, by explosion of an overhead extended charge, explosives attached to the roof of the vault. If for some reason at a given height 5 of the embankment the protective arch does not collapse, the embankment continues to be dumped, since increased (compared to the specified) loads perceived by concrete arch 2 are transferred to the walls of the supporting structure 1, which are designed to absorb the full weight of the overlying thickness soil embankment. Moreover, the upper part of the supporting structure 1, being protected by a concrete vault 2, does not experience load.

When the concrete vault 2 is destroyed (position 6 in Fig. 2), part of the soil of the embankment located in the so-called soil vault 7 of pressure crumbles; and fills the cavity 4 with a looser structure (with bulk density y). In this case, the vertical pressure of the soil on the supporting structure is significantly reduced, since the prism of the embankment body 5, due to the development of friction forces, transfers its weight to the side zones of the embankment body 1. The prism of the soil, as it were, hangs on the side faces of the supporting structure.

The proposed method allows to reduce the vertical pressure of the soil on the supporting structures of underground structures in comparison with the known technical solutions.

Claims (2)

The invention relates to the construction of bulk earth structures that include pipes. During the construction of pipes under embankments, the vertical pressure on them sometimes reaches double the weight of the overlying stratum. Therefore, with high mounds, the pipe designs are very heavy. In connection with this, the pipes under the mounds should be erected so as to reduce the vertical pressure of the soil on them. There is a method of erecting a pipe under the embankment, including mounting the pipe supporting structure, placing a plastic material on top of the pipe, filling the embankment and releasing a layer of plastic material into the pipe cavity during operation through the channels in the pipe body ij. The disadvantage of this method is low unloading capacity. There is also known a method of reducing the vertical pressure of the soil on the earth structure, including mounting the supporting structure, placing the intermediate layer on the upper structure of the supporting structure, filling the embankment and removing the intermediate layer C2J. The disadvantage of this method is the insufficient effectiveness of reducing the vertical pressure of the soil, because some sand may not be washed. The aim of the invention is to improve. A decrease in the effectiveness of reducing the vertical pressure of the soil on the underground structure. The goal is achieved by stirring the intermediate layer to form a cavity between it and the upper part of the supporting structure, and removing the intermediate layer by crushing it in bulk. FIG. 1 shows the structure; vertical section r in FIG. 2 - the same, with the destroyed intermediate layer and the ground with a pressure arch. The method is implemented as follows. After the construction of Jesumé Construcion 1 over; it is placed intermediate layer, made, for example, in the form of a concrete arch 2, resting it on the ledges 3 of the supporting structure and left the cavity between. Concrete 1 (vault 2 and the upper part of the construction design. Then pour embankment 5 compacted it to bulk density J. When filling embankment above concrete arch 2, the vertical load from it is transferred to the walls of the insolation structure 1. When the specified elevation reaches the concrete elevation, the load on the concrete arch 2 reaches its maximum limit and the shaft will collapse, lowering into cavity 4. The destruction of concrete arch 2 can be caused by artificial means, for example, by the explosion of an applied elongated charge, explosives attached to the roof sheath. for some reason, at a given embankment height, the protective roof will not collapse, the embankment will continue to be poured, since the increased (compared to the predetermined) loads perceived by the concrete roof 2 are transmitted to the walls of the supporting structure 1, which are designed to absorb the full weight of the overlying layer of soil mound -and. At the same time, the upper part of the supporting structure 1, being protected by a concrete arch 2, does not experience a load. When the concrete arch 2 is destroyed (position 6, see. 2) part of the soil on the rash located in the so-called soil arch 7 pressure, showered and fills the cavity 4 with a looser structure (with a bulk weight}}) At the same time, the vertical pressure of the soil on the supporting structure is significantly reduced, as the body prism on rash 5, due to the development of the forces of tre., transfers its weight to the side of the supporting structure of 1 zone of the body, we can see. The prism of the soil at the same time as it hangs on the side faces of the supporting structure. The proposed method makes it possible to reduce the vertical pressure of the soil on the supporting structures of the underground structures as compared with the known technical solutions. Claims The method of reducing the vertical pressure of the soil on an underground structure, including mounting the foundations of the structure, placing an intermediate layer on the top of the supporting structure, dumping the embankment and removing the intermediate layer, characterized in that, in order to increase the effectiveness of reducing the vertical pressure of the soil on the underground structure, the intermediate the layer is placed with the formation of a cavity between it and the upper part of the supporting structure, and the removal of the intermediate layer is carried out by crushing it Ivani bulk. Sources of information taken into account in the examination 1. The author's certificate of the USSR 666248, cl. E 02 D 29/10, 1977. 2. USSR author's certificate number 696104, cl. E 02 O 29/10, 1978.. / fy / 7- ff iSffi i fvif / ;;: y / iy / ifi l il -V four R