RU195239U1 - Gravity Retaining Wall - Google Patents

Abstract

The utility model relates to the field of construction and can be used to strengthen slopes, slopes of roads and transport interchanges. The technical result achieved by the implementation of the utility model is to increase the stability of the gravitational retaining wall from the action of horizontal forces in height. To achieve a technical result, a gravitational retaining wall is proposed, including a structure consisting of reinforced concrete blocks (1) fastened by vertical ties passed through openings in the blocks joined along the height. What is new is that the blocks are made rectangular with two vertical holes (2) and along the entire height of the wall are joined by trunks (3) formed in the joined holes of the blocks, horizontal rows of which are formed when laying with offset pitch. The bottom of the wall is buried in the ground. In addition, the design is additionally equipped with devices for regulating the deviation of the retaining wall from the vertical, built into the wall at a distance of at least two blocks. Each built-in device contains a metal cable (4), which assumes a C-shaped shape, located behind the wall, during installation. The upper and lower sections of the cable are horizontally wound between the blocks with the possibility of moving at least the lower section. On the outside of the wall, the upper end of the cable is equipped with an anchor (5), and the lower end of the cable is connected to a reinforcing rod (6) having a threaded end protruding from the outside of the wall and equipped with a washer and nut (7). 2 s.p. f-ly, 4 ill.

Description

The utility model relates to the field of construction and can be used to strengthen slopes, slopes of roads and transport interchanges.

The gravitational retaining wall is known, which holds the creeping ground with its mass and is known as a massive wall. The value of the active soil pressure is reduced by tilting the face of the wall by giving the wall a trapezoid shape in cross section (Tetor A.N. et al. “Designing foundations.” Reference book. Kiev, Budivelnik, 1981. 177-189 p. Fig. X. 1.a).

The disadvantages of the known analogue are: insufficient stability in height from the action of horizontal forces, as well as high consumption of building materials.

Known retaining wall, adopted as a prototype, including stacked on top of each other in horizontal rows and combined in height by vertical rods blocks, each of which is made with widened front and tail and narrowed middle parts, and its upper and lower horizontal faces are made symmetrical with respect to the longitudinal axes with openings for introducing the lower and upper ends of the rods, made in the form of arcuate planes, and are removed from the longitudinal axis of the block and its rear face to a greater distance than an area for the establishment of the upper ends of the rods, and the side faces of the front and rear parts of the block are beveled towards the rear side, the tail part of the block being made smaller than the front, and to reinforce the wall blocks in the backfill, a reinforcing screed in the form of a geometric lattice is used ( Authors certificate of the USSR No. 1809848 A3, application No. 884355910 dated 05/13/1988, Convention priority 05/26/1987 US 87907077, author Paul J. Forsberg, US, prototype).

The disadvantages of the prototype are: the complex geometric shape of the block and the high complexity of installation.

The technical problem solved by the utility model is the creation of a reinforced structure of the gravitational retaining wall, which provides reliable stability in height, increased protection against possible landslides while reducing the material consumption and the complexity of installation.

To solve a technical problem and achieve a technical result, a gravitational retaining wall is proposed, which includes a structure consisting of reinforced concrete blocks fastened with vertical ties passed through holes in the blocks docked along the height. What is new is that the blocks are made rectangular with two vertical holes and are joined along the entire height of the wall by reinforced concrete trunks formed in the joined holes of the blocks, horizontal rows of which are formed when laying with a pitch offset. The bottom of the wall is buried in the ground. In addition, the design is additionally equipped with devices for regulating the deviation of the retaining wall from the vertical, built into the wall at a distance of at least two blocks. Each device contains a metal cable, which assumes a C-shaped shape during installation, located behind the wall. The upper and lower sections of the cable are horizontally wound between the blocks with the possibility of moving at least the lower section. On the outside of the wall, the upper end of the cable is equipped with an anchor, and the lower end of the cable is connected to a reinforcing rod having a threaded end protruding from the outside of the wall and equipped with a washer and nut.

According to a utility model, the blocks in contact with the cable are provided with metal corners, and the anchor is buried in the retaining wall and concreted.

In FIG. 1 schematically shows the design of a gravitational retaining wall, general view; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 - section BB in FIG. 1; in FIG. 4 schematically shows a reinforced concrete block, a perspective view.

Gravity retaining wall contains rectangular reinforced concrete blocks 1 made with two vertical holes 2 for joining the blocks along the height of the wall. Blocks 1 along the entire height of the wall are joined by reinforced concrete trunks 3 formed in the joined openings of 2 blocks located in horizontal rows with a step offset. The lower part of the gravitational wall is buried in the ground. The design of the gravitational retaining wall is equipped with devices for regulating the deviation of the retaining wall from the vertical, built into the wall with a certain step, for example through two blocks, as shown in FIG. 1. The built-in device contains a metal cable 4, which assumes a C-shaped shape located behind the wall during installation. In this case, the upper and lower sections of the cable are horizontally wound between the blocks 1 with the possibility of moving at least the lower section to ensure adjustment of the wall by tensioning the cable. The upper end of the cable is equipped with an anchor 5, which is recessed into the retaining wall from the outside and flush concreted. The lower end of the cable is connected to a reinforcing rod 6 having a threaded end protruding from the outside of the wall, on which a washer and nut 7 are mounted, which are used to adjust the tension of the cable 4. The ends of the cable 4 are passed through the holes 8, 9 made in the wall between the blocks, and in the places of contact of the cable 4 with the blocks, corners 10 are installed.

Installation of gravity retaining wall is as follows. Reinforced concrete blocks 1 are placed on the prepared soil in the deepening of the base of the natural slope with a displacement of the pitch, so that the holes 2 in the blocks coincide to combine them in height with reinforced concrete trunks 3, which are performed after the wall is erected by concreting the holes 2 with the frames placed in them . When performing installation, a device is built into the retaining wall structure with a certain step to control the deviation of the retaining wall from the vertical. After mounting the wall structure in its body, horizontal through holes 8, 9 are drilled between the blocks to establish the upper end of the cable 4, equipped with an anchor 5, and the lower end of the cable 4, equipped with a reinforcing rod 6. The upper hole 8 is made with broadening on the front side to accommodate the anchor . The cable 4 is led through the upper hole 8, passed along the rear side of the wall and led out through the lower hole 9, so that the armature 5 remains in the upper hole 8 from the front side, and the reinforcing bar 6 exits through the lower hole 9 also from the front side. The metal cable 4 is pulled with a nut 7 on the reinforcing bar 6, and the anchor 5 deepened from the cable tension is concreted. After that, they backfill the soil behind the wall from the side of the slope.

In the particular case of execution at the points of contact of the cable 4 with the blocks 1, metal corners 10 are installed when masonry blocks are used as embedded parts.

Thus, the technical result achieved by the implementation of the utility model is to increase the stability of the gravitational retaining wall from the action of horizontal forces in height in connection with the provision of adjusting the position of the wall in case of deviation from the vertical by the tension of the cable.

An advantage of the gravitational retaining wall is also the reduction of material consumption and the complexity of installation by reducing the mass of the blocks and simplifying their shape.

Claims (3)

1. Gravity retaining wall, including a structure consisting of reinforced concrete blocks fastened by vertical ties passing through vertically aligned holes in the blocks, characterized in that the blocks are rectangular with two vertical holes and are joined along the entire height of the wall by reinforced concrete trunks formed in joined the holes of the blocks, horizontal rows of which are formed when laying with a step offset, the lower part of the wall is buried in the ground, in addition, the design is additional but is equipped with devices for regulating the deviation of the retaining wall from the vertical, built into the wall at a distance of at least two blocks, each device contains a metal cable, which takes a C-shaped shape, located behind the wall during installation, the upper and lower sections of the cable are horizontally wound between the blocks with the possibility of moving at least the lower section from the outer side of the wall, the upper end of the cable is equipped with an anchor, and the lower end of the cable is connected to a reinforcing rod having a threaded end, high blunt on the outside of the wall and equipped with a washer and nut. 2. Gravity retaining wall according to claim 1, characterized in that the blocks in contact with the cable are provided with metal corners. 3. Gravity retaining wall according to claim 1, characterized in that the anchor is buried in the retaining wall and concreted.

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