SU1476039A1 - Retaining wall - Google Patents

Abstract

The invention relates to the construction of hydraulic structures. The purpose of the invention is to increase the carrying capacity, simplify installation and reduce material consumption. The retaining wall includes an enclosing wall 2, inclined on the slope of the filling 1, a horizontal plate 3 rigidly connected to the wall on the sole, and a front panel 5, the lower end section 7 of which is buried in the bottom of the base below the erosion level. The horizontal plate 3 faces the filling side and is located beneath it at the base level, and the front panel is placed on the enclosing wall with the ability to move along it, while the end portion of the embankment embedded in the ground is wedge-shaped. The horizontal plate 3 has a length not less than the projection of the enclosing wall onto the base. The retaining wall is equipped with its discretely recessed into the base in the frontal direction, and the enclosing wall and plate in the area of their joining are supported on the pile heads, while the plate has a length not less than the projection of the wall section to the center of its weight. The retaining wall is provided with a rear panel fixed on the end portion of the horizontal plate parallel to the enclosing wall and connected to it by rigid straps. 3 hp f-ly, 6 ill.

Description

The invention relates to the construction of hydraulic structures and can be used in the retaining walls of embankments, moorings, abutments of bridges, trenches and is intended to strengthen the slopes and protect the base from erosion.

The purpose of the invention is to increase the carrying capacity, reducing the complexity of installation and material consumption of the retaining wall.

FIG. 1 shows a retaining wall with its horizontal plate resting on the base, a transverse section; in fig. 2 is a view A of FIG. one; in fig. 3 - retaining wall with its support on the piles; FIG. 4 is a view B in FIG. 2; in fig. 5 - retaining wall with a rear panel; in fig. 6 is a section bb of FIG. five.

The retaining wall includes, obliquely placed on the slope of the filling 1, the wall 2 facing the backfilling 1 horizontal plate 3 rigidly connected to the wall 2 along the base and placed on the base 4 under the filling 1. Front panel 5 is freely laid on the sloping wall 2 with the possibility sliding against the wall, which allows the panel 5 under the action of its own weight as the soil 6 of the bottom 6 in the pond sinks. The end portion 7 of the panel 5 is wedge-shaped and buried in the bottom soil of the bottom below the erosion level. The weight of the panel 5 creates additional pressure acting on the wall 2 in the direction of backfill 1, opposite to the pressure of the soil and partially balancing it.

In this case, various options for embedding the horizontal plate 3 are possible, ensuring the stability of the wall 2 and balancing the pressure of the soil of the backfill 1.

One option is to make a horizontal plate 3 with a length not less than the projection of wall 2 onto the base 4. In this case, the lateral pressure of the soil backfill 1 onto the wall 2 is balanced by the weight of the same volume of soil acting in the vertical direction on the slab 3, i.e. balancing is ensured due to the fact that the same volume of soil acts on the wall and on the slab.

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The length of the slab ensures the stability of the wall with the slab on the base without backfill, which does not require fixing the wall with straps before dumping the soil and thereby simplifies the installation process. The length of the slab can be increased in specific cases, for example, in high embankments or in case of weak soils, taking into account the optimum consumption of material.

Another option that ensures the reliability of the embedding and the stability of the wall is to support the walls 2 with the slab 3 in the area of their joining to the tip 8 of the piles 9 discretely buried in the base 4 in the frontal direction. In this case, the plate 3 should have a length not less than a section of the wall 2 to the center of its plate 10 on the base 4. In this case, the pressure of the soil of the backfill 1 on the enclosing wall 2 is transferred to the tips 8 and is perceived by its own 9, which is preferably inclined towards the backfill . The length of the slab J not less than the projection of the wall section to the center of its gravity on the base is necessary to ensure its stability without filling the ground, reducing the length of the slab will lead to overturning and require its temporary strengthening with assembly straps. The increase in the length of the plate 3 is possible for any length, due only to reasonable material consumption. At high embankment heights, where the horizontal pressure of the soil on the wall from the backfill side is strong

0 increases, reliability and wall stability can be ensured by the presence of a rear panel 11 mounted on a horizontal plate 3 parallel to the enclosing wall 2, to which the panel is connected by means of rigid struts 12. The height of panel 11 is determined by calculation depending on the embankment height and pressure ground. An upper structure can be strengthened on the upper part of the wall, for example a cantilever beam of pavement 13 with a vertical and protective shield 14. The angle of inclination of the enclosing wall can vary from 10 to 45 and depends on specific conditions: embankment height, presence of a pavement, specific use object walls, it is necessary to take into account the coefficient

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The friction panel face 5 along wall 2, which depends on their materials and is determined but the reference book. The front panel 5 is made in the front direction from blocks 15 and can be connected to the wall through guides (not shown) for fixing the panel blocks during installation. and moving down. The guides can be made of any design, for example, in the form of vertical grooves in the wall and the protrusions of the panels included in them. Horizontal plate 3 eliminates the pressure of the backfill soil 1 on the surface of the lower end portion of the panel 5 facing the embankment.

The retaining wall is mounted as follows. Initially, a horizontal plate 3 is installed on the base 4, pre-rigidly connected to the enclosing wall 2 along its base. If it is advisable to reinforce the structure on the basis of calculations and specific conditions, namely the density of soils and coastal topography, then piles 9 are deepened into the base discretely along the front of the reservoir, their head end is removed at the level of the basement and the enclosing wall 2 with a horizontal plate 3, in the zone of their joint, they are supported on the tips of the piles 8.

In this case, in any embodiment of the retaining wall, the plate 3 has a length sufficient to ensure the stability of the wall without auxiliary means before dumping the soil. After installation of the slab with the wall onto the base, the soil is dumped, preferably with compaction in layers. Then, from the top side of the truck, the blocks 15 of the panel 5 are mounted on the wall 2, which, under the action of their own weight, move along the wall, descend down, and cut the wedge-shaped end into the base soil to a depth below the washout level. Based on practical data, the panel plunge will be at a level of 0.7-1.5 m.

Further, the installation of an upper structure, such as a pavement or embankment elements, or a mooring can be carried out. During operation, this structure ensures the stability of the structure and reliability of operation due to the fact that

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the soil ground pressure acting on the wall 2 is balanced by the weight of the same soil acting on the horizontal plate 3 or on the rear panel 11 and plate 3, or transmitted to embedded piles 9 at the base.

At the same time, the front panel 5 with its weight creates additional pressure on the enclosing wall. As the bottom is washed out, the soil in the zone becomes more loose in the place of erosion, the block or several blocks of the panel 5, moving along the wall 2, descend below, cutting the wedge-shaped end into the ground within its loosening from erosion.

The free positioning of the faceplate 5 on the wall 2 with the possibility of movement eliminates the occurrence of moment loads in the panel and plunging it only by the amount of local erosion, which excludes the initial stationary depth of the panel to the erosion by a significant amount of 35 m, and also balancing the soil pressure thin-walled and reduce the overall material consumption of the structure.

Ensuring the stability of the structure by balancing the pressure of the soil allows the retaining wall to be used in the absence of statistical stability, i.e. in conditions of embankments, and not only in trenches that are torn off. The free placement of the panel on the wall makes it easy to install and reliably protect the base from erosion due to the fact that a slight decrease in the density of the bottom soil will entail further introduction of the panel into the ground, protecting the base from erosion without constructing special devices requiring additional material consumption, Automatic self-defense of the retaining wall against erosion, as well as ensuring its stability with respect to the pressure of the backfill soil at any embankment height increases the bearing capacity of the sub wall that will allow to use it in any hydraulic engineering structures.

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Editor A. Dolinich

Compiled by R. Nagorn

Tehred M. Khodanich Proofreader L. Patay

FIG. B

Claims (4)

Claim 1. A retaining wall, including an enclosing wall inclined obliquely on the slope of the backfill, a horizontal plate rigidly connected to the wall on the sole, and a front panel, the lower end portion of which is buried in the ground of the base below the level of erosion, characterized in that, in order to increase the bearing the ability to simplify installation and reduce material consumption, the horizontal plate is facing the backfill and placed below it at the base level, and the front panel is placed on the enclosing wall with the ability to move along it, at m buried in the ground terminal section panel adapted klinovid - 2. Wall pop. ^ characterized in that the horizontal slab has a length not less than the length of the horizontal projection of the enclosing wall onto the base. 3. Wall pop. 1, excellent I 'w w a jar I in that it is provided with piles discretely recessed in axes ₁₀ Considerations in the front direction, and the panel wall and the plate in the area of their mating are simply supported on the pile heads, said plate has a length not less than the length of the horizontal projection of the wall portion to the center of her gravity. 4. Wall popp. 1 and 3, characterized in that the wall is equipped with a rear panel mounted on the end section of the horizontal 2θ of the second plate parallel to the enclosing wall and rigid connected to it 1476039 ' Widb 15 / / 1 t --- 1 | 1 1 Jj 1 \ 1 1 5 I \ _E 7 at η ι TO.. Fig. J 9 Fig 5