RU176405U1 - SUPPORT WALL UNIT - Google Patents

Abstract

The inventive utility model relates to construction, namely the construction of a retaining wall of blocks.

The retaining wall block is used to hold above the ground, for example, on a hillside, to create the necessary horizontal surface below its level, for example, a playground or other playgrounds, or for artistic cultivation of a landscaped area in order to increase attractiveness.

The problem is solved in the block for the retaining wall, having a supporting surface located at an angle with respect to the front surface and intended for installation on it of at least one similar block, a through hole and a supporting element.

The difference from the prototype is that the block is a fixed formwork for the manufacture of monolithic retaining walls, the supporting surface has two through holes for laying vertical reinforcement, which are the internal supporting surface and located at the same distance from the front, rear and side walls of the block and separated by a thickened one a jumper on which from the side of the back wall of the block a support element is made in the form of a rectangular protrusion having a triangular notch on the side of the back wall of the block, in neither It portion of each of the side walls is formed a through groove for installing therein the support member for horizontal reinforcement pads, and in the bridge between the through through-holes formed through oblique trapezoidal groove with a maximum depth at the front wall of the horizontal reinforcement pads.

Description

The inventive utility model relates to construction, namely the construction of a retaining wall of blocks.

The retaining wall block is used to hold above the ground, for example, on a hillside, to create the necessary horizontal surface below its level, for example, a playground or other playgrounds, or for artistic cultivation of a landscaped area in order to increase attractiveness. The blocks of the retaining wall are mounted one on top of the other in front of the embankment, and the wall formed by the blocks extends vertically towards the embankment.

Such walls were previously built from concrete blocks of various configurations. Concrete blocks in the walls were used in various versions with or without cement mortar. It is known that blocks of a retaining wall, even in adverse soil conditions, can be stacked on each other higher than other blocks without using braces and geogrids. BPS blocks have an excellent stone look, hiding the joints and giving the finished wall a look that resembles masonry. They can be mounted on winding landscapes and even along large and small radius curves. In addition, BPS blocks are easily painted, complementing the surrounding landscape with a beautiful, weather and UV resistant paint

However, during the construction of the retaining wall, it is important to ensure that the BPS units cannot move outward under the influence of the mass of soil that they hold in adverse weather conditions.

Known BPS blocks of the company "Bogdanov and K" (bogdaiiov.org/betonnye-bloki-bps/), the standard block of which has a supporting surface located at an angle with respect to the front surface and intended for installation on it of at least one similar block, a through hole and a support element made in the form of an elongated parallelepiped with rounded corners with a metal loop, a front surface having an appearance under the stone. The through hole is filled with crushed stone. The connection of the blocks has a tenon-groove design.

The disadvantage of the design of the retaining wall assembled from such blocks is its lack of strength due to the fact that the passage openings of the blocks are filled with crushed stone.

Known block for retaining wall (patent US 2013034392, IPC E02D 29/02, E04C 1/00, publ. 02/07/2013, prototype) having a supporting surface located at an angle with respect to the front surface and intended for installation on it at least one such block; a through hole and supporting elements are two L-shaped elements on the supporting surface and on one of the side surfaces of the supporting element in the form of a rounded protrusion. On the other side surface of the block, a recess is made for installing one of the supporting elements of the next block in the row.

The disadvantage of this block design is the complexity of its manufacture.

The technical task of the utility model is to improve the design of the block for the retaining wall and increase its strength.

The problem is solved in the block for the retaining wall, having a supporting surface located at an angle with respect to the front surface and intended for installation on it of at least one similar block, a through hole and a supporting element.

The difference from the prototype is that the block is a fixed formwork for the manufacture of monolithic retaining walls, the supporting surface has two through holes for laying vertical reinforcement, which are the internal supporting surface and are located at the same distance from the front, rear and side walls of the block and are separated by a thickened a jumper on which from the side of the back wall of the block a support element is made in the form of a rectangular protrusion having a triangular notch on the side of the back wall of the block, in neither It portion of each of the side walls is formed a through groove for installing therein the support member for horizontal reinforcement pads, and in the bridge between the through through-holes formed through oblique trapezoidal groove with a maximum depth at the front wall of the horizontal reinforcement pads.

The technical result is to increase the strength of the retaining wall by improving the design of the proposed support element that holds the wall structure from shear, the use of horizontal and vertical reinforcement. And also the fact that the proposed block is a fixed formwork for the manufacture of monolithic retaining walls.

The proposed utility model is illustrated by drawings, where in FIG. 1 and 2 show a block for a retaining wall in a perspective view; in FIG. 3 - bottom view of the block; in FIG. 4 is a side view; in FIG. 5 is a top view; in FIG. 6 - section aa; in FIG. 7 and 8 - assembly of retaining wall from blocks.

The block for the retaining wall includes a supporting surface 1, located at an angle with respect to the front surface 2 and intended for installation on it of at least one similar block, a supporting element 3 and two through holes through passage 4 for laying vertical reinforcement, which are internal supporting surface and located at the same distance from the front 2, rear 5 and side walls of the block 6, 7 and separated by a thickened bridge 8. On the bridge 8 from the side of the rear wall 5 is made a supporting element 3 in the form e of a rectangular protrusion having a triangular notch on the side of the rear wall of the block. In the lower part of each of the side walls 6, 7 there is a through groove for installing the support element 3 in it and for laying horizontal reinforcement 9. Also in the bridge 8 between the through holes 4 there is a trapezoidal oblique through groove with the greatest depth at the front wall for laying horizontal reinforcement 10. In addition, in each through hole, the vertical reinforcement 9 is connected to the horizontal reinforcement 10.

Retaining wall is constructed as follows. On the prepared strip foundation, in which the outlets for vertical reinforcement 10 are made in advance, the first row of blocks for the retaining wall are installed horizontally. A horizontal reinforcement 9 is laid on top of the first row of blocks. Next, a next row of blocks is mounted in a checkerboard pattern on a number of installed blocks in such a way that part of the supporting element 3 enters into the grooves in the side walls 6, 7 and fixes the downstream block with it mounted on top. In the through hole 4, the vertical reinforcement 10 is connected to the horizontal reinforcement 9. On the upper of the installed blocks, horizontal reinforcement 9 is laid and the process continues depending on what height the retaining wall is needed. In this case, the through holes of the blocks 4 create a total volume that is filled with concrete.

The implementation of the support element 3 in the form of a rectangular protrusion, having a triangular cut from the side of the back wall of the block 5, as well as the use of reinforcement 9, 10 and the filling of the through holes 4 with concrete, ensures a high strength of the retaining wall.

Claims (1)

A block for a retaining wall having a support surface located at an angle with respect to the front surface and intended for installation on it of at least one similar block, a through hole and a support element, characterized in that the block is a fixed formwork for the manufacture of monolithic retaining walls, the supporting surface has two through holes for laying vertical reinforcement, which are the internal supporting surface and located at the same distance from the front, back and side new walls of the block, and separated by a thickened jumper, on which a support element is made in the form of a rectangular protrusion from the side of the back wall of the block, having a triangular cut from the side of the back wall of the block, a through groove is made in the lower part of each side wall to install a support element for laying horizontal reinforcement, and a trapezoidal oblique through groove with the greatest depth at the front wall for laying horizontal reinforcement is made in the bridge between through-through holes.

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