RU216304U1 - RETAINING WALL BLOCK - Google Patents

Abstract

The proposed retaining wall block is intended for the construction of thin-walled, including corner and buttress retaining walls. The retaining wall block has a foundation and front parts, made in the form of separate elements, connected during installation into a single structure. A distinctive feature of the proposed retaining wall block is a small mass, and, accordingly, a small mass of its elements. This makes it possible to simplify its transportation to the installation site, the installation process itself, since the use of heavy-duty vehicles and a crane installation is not required. Loading and unloading of block elements, installation can be done manually. A small mass of the elements and the block as a whole is achieved by reducing its length (size in the direction of the length of the wall). The proposed block involves loading and unloading, installation by no more than three people. Taking into account the fact that the load per employee should not exceed 50 kg, the mass of any of its elements does not exceed 150 kg.

Description

The utility model relates to the field of construction and is intended for the construction of retaining walls that hold the soil, for example, in areas with sloping terrain, or for fencing terraces, sites located at different levels, etc.

Retaining walls can be divided into two types: massive and thin-walled. Massive retaining walls hold the ground largely due to their mass. Thin-walled retaining walls hold soil primarily due to their design, for example, using the weight of soil to hold and/or anchors. One type of thin-walled retaining wall is a corner retaining wall, which consists of a foundation part and a front part rigidly connected to each other. The foundation part is located mainly horizontally, and the front part is located mainly vertically. The weight of the soil pressing on the foundation part keeps the retaining wall from shifting and overturning, and the front part keeps the soil. Another type of thin-walled retaining wall is the retaining wall with buttresses. It is similar to a corner retaining wall, but additionally has vertical ribs (buttresses), which increase the strength of the connection between the foundation and front parts.

The retaining wall may be monolithic or assembled from blocks, with each block consisting of separate connected elements.

The proposed retaining wall block is intended for the construction of thin-walled, including corner and buttress retaining walls using blocks consisting of individual elements.

A corner retaining wall is known from the prior art (patent KR 100799358 B1, published on 01/30/2008). The retaining wall is made up of blocks. Each block has a foundation part, a front part and a buttress, which are separate elements connected into a single structure.

The block has anchor rods located in the ground. Also, the block has rods and connections in the form of protrusions and depressions at the ends of the front part for fixing the block relative to neighboring blocks. This block cannot be a prototype for the proposed block, since it requires the presence of a buttress and anchor rods.

The disadvantage of the considered and similar blocks of retaining walls is the relative complexity of the construction process, because due to their large mass, including the mass of their individual parts, heavy-duty vehicles and a crane installation are required for loading and unloading and installation.

A distinctive feature of the proposed retaining wall block is a small mass, and, accordingly, a small mass of its elements. This simplifies transport to the installation site and installation, as heavy vehicles and cranes are not required. Loading and unloading of block elements, installation can be done manually. The absence of the need to use a crane installation makes it possible to reduce the cost of the process of constructing a retaining wall. It is also possible to use the block for the construction of retaining walls in places where there is no possibility of a direct access for transport and a crane installation. A small mass of the elements and the block as a whole is achieved by reducing its length (size in the direction of the length of the wall). The average size and shape of the elements of the proposed block allow three workers to grab them at the same time, in order to lift and transfer them.

According to paragraph 35 of the order of the Ministry of Labor of Russia dated October 28, 2020 N 753n "On approval of the Rules for labor protection during loading and unloading operations and placement of goods", manual loading and unloading of goods weighing more than 50 kg is allowed, provided that the load per employee does not exceed 50 kg.

The proposed block involves loading and unloading, installation by no more than three people, respectively, the mass of any of its elements does not exceed 150 kg.

The technical result is

1. Reducing the mass of the elements and the block of the retaining wall as a whole.

2. Possibility of loading and unloading, installation of a retaining wall block without the use of a crane installation by no more than three people.

3. Simplification and cheapening of the process of constructing a retaining wall.

4. Possibility of transportation of the retaining wall block by cars.

5. The possibility of using the block and constructing a retaining wall in places where there is no possibility of direct access for transport and crane installation.

The essence of the claimed utility model is as follows. The retaining wall block has a foundation and front parts, made in the form of separate elements, connected during installation into a single structure. Both the foundation and the front parts have such a shape and such a ratio of height, width (dimension in the direction from the front part to the retained soil) and thickness, which, taking into account the material from which the block is made, provides sufficient strength of the block and allows holding the backed soil. The length of the block (dimension in the direction of the length of the wall) is chosen in such a way that, taking into account the shape and geometric parameters of the parts of the block indicated above, and taking into account the material from which they are made, the mass of each part does not exceed 150 kg.

The consequence of the small mass and length of the block is its instability (mobility) when installed on the ground and backfill, and, as a result, the difficulty in centering and docking with neighboring blocks, the difficulty of forming a single solid wall. To solve this problem, a block may have means for fixing relative to neighboring blocks. Such means can be, for example, eyelets that allow the blocks to be fastened together with bolts. Or the block may have recesses at the side ends, while the fixation is carried out with the help of strips that are inserted into the recesses of two adjacent blocks.

The block has a recess in the base part, into which the front part is inserted. The block may have one or more buttresses connected to the foundation and front parts, while the mass of one buttress also does not exceed 150 kg. The block may have one or more rods, the ends of which are fixed on the foundation and front parts. In order to further reduce the mass, the foundation and front parts can be made with a decrease in thickness as they move away from their junction. The block may have means for draining water, for example, in the form of holes or cutouts.

In FIG. 1 shows a possible implementation of the proposed retaining wall block. The block has a foundation part (1) and a front part (2). The foundation part has a recess into which the front part is inserted, forming a single structure. The foundation part has a smaller thickness on the side opposite to the junction with the front part. The thickness of the foundation part at the junction with the front part is 0.25 m, on the opposite side - 0.15 m, the width of the block (W) - 0.8 m, the height of the front part - 1 m, the thickness of the front part - 0.15 m Taking into account the fact that the block is made ^of reinforced concrete, the block length (L) is chosen to be ^0.3 m. The block is made using M300 concrete, its specific gravity after hardening is 2183 kg/m ³ , respectively, the calculated weight of the foundation part is 91.686 kg, the weight of the front part is 98.235 kg. Depending on the material from which the reinforcement used in the block is made (steel or composite), the actual weight of the block elements may differ up or down, but given the amount of reinforcement in the block, this deviation can be neglected, since it will not significantly affect the overall the weight. The block has lugs (3) and recesses (4) for centering and fixing relative to adjacent blocks.

Claims (1)

Retaining wall block, which includes the foundation and front parts, made of reinforced concrete in the form of separate elements, interconnected by placing the front part in the recess of the foundation part, having such a length that, taking into account the shape, geometric dimensions of the foundation and front parts of the block, and also taking into account the material from which they are made, the mass of each of the parts is not more than 150 kg.

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