RU115366U1 - FLEXIBLE COVERING FROM CONCRETE BLOCKS - Google Patents

Abstract

1. A flexible covering of concrete blocks containing concrete blocks connected in series by flexible ties, characterized in that in each block on its lateral side adjacent to the blocks of an adjacent row, two through holes are made, the axes of which are parallel to each other and are located symmetrically in the horizontal plane relative to the vertical plane of symmetry of the block, and each subsequent row of blocks is displaced relative to the previous one in the direction along the row in such a way that the above holes of each block of one row, lining up coaxially with the holes of two adjacent blocks of an adjacent row, form rectilinear channels for flexible connections, with each element flexible connection is passed through two adjacent rectilinear channels with the formation of a loop behind the peripheral row of coating blocks, after which its free ends are connected to each other. ! 2. Flexible coating according to claim 1, characterized in that identical blocks are used, each of which has the shape of a rectangular parallelepiped with two through holes made on opposite side faces, the axes of which are perpendicular to the long side face of the block. ! 3. Flexible coating according to any one of claims 1 and 2, characterized in that each subsequent row of blocks is displaced relative to the previous one in the direction along the row by half the length of the block. ! 4. Flexible coating according to any one of claims 1 and 2, characterized in that the blocks are made by semi-dry vibrocompression. ! 5. Flexible coating according to claim 3, characterized in that the blocks are made by the method of semi-dry vibrocompression. ! 6. Flexible coating according to any one of claims 1 and 2, characterized in that the blocks have a mass of not more than 30 kg. ! 7. Flexible

Description

The invention relates to transport and hydraulic engineering construction and is a flexible protective surface coating (GLP) made of concrete blocks interconnected by flexible bonds, mounted as a unit on the site of the device or previously in the factory. GPP can be used to strengthen slopes, slopes of embankments and excavations, cones of small and medium bridges, culvert heads, riverbeds, riverbanks, canals and ponds, in the construction of pedestrian roads, for the strengthening of soil bases, the construction of fences and the construction of reinforced ground structures.

Known (AS No. 2225474) is a universal flexible concrete mat, which is a construction of a coating of concrete blocks interconnected by orderly flexible cables, while the blocks are made in the upper part in the form of rectangular parallelepipeds. The preferred dimensions of the individual block are 400 × 400 × 300 mm.

It is known ("Typical building structures, products and units. Series 3.501.1-156. Strengthening channels, cones and slopes of the embankment at small and medium bridges and culverts", TsITP Gosstroy USSR, 1990). also a family of flexible structures made of concrete blocks interconnected by reinforcing rods, designed to strengthen channels, cones and slopes of the embankment at small and medium bridges and culverts. The mass of the blocks used in these designs is from 230 to 1820 kg, the blocks are mounted in a single structure in the factory during the manufacturing of blocks using embedded elements (reinforcing bars).

An analysis of the above technical solutions showed that the installation of concrete blocks in a single flexible coating directly at the assembly site is difficult for the first of them (the blocks are connected not only in order, but also in rows, and the mass of a concrete block with preferred dimensions is more than 100 kg) and is impossible for second due to the design used. This means that the laying of such flexible coatings of concrete blocks requires the use of heavy loading equipment, which is not always possible in real construction work.

In addition, concrete blocks used as part of flexible surface coatings in the above technical solutions are made by injection molding, which limits the ability to achieve high strength and durability of the finished coating.

The problem to which the claimed invention is directed, is to increase the range of building structures using GPP.

The main technical result that can be obtained as a result of the invention is to create a flexible coating design with increased reliability and durability.

This technical result is achieved due to the fact that in a flexible coating containing concrete blocks connected by orderly flexible connections, in each block, on its side adjacent to the blocks of the adjacent row, two through holes are made, the axes of which are parallel to each other and are located in horizontal the plane is symmetrical about the vertical plane of symmetry of the block, and each subsequent row of blocks is offset relative to the previous one in the direction along the row so that the above holes of each block of one row, lining up coaxially with the holes of two adjacent blocks of the adjacent row, form straight channels for flexible connections, while each flexible connection element is passed through two adjacent straight channels with a loop behind the peripheral row of coating blocks, after which its free ends are connected to each other.

High reliability of the claimed design of the GLP is provided by the above method of connecting the blocks, in which, even in the case of a local (in one place) break of the flexible connection, the integrity of the common carpet of the coating is maintained. The strength of the flexible connection is designed in such a way that the possibility of its rupture is practically excluded.

Using in the proposed method only an orderly one (blocks of one row are connected to blocks of another row), with ligation of each row of connection of blocks simplifies the technology of assembling blocks into a single structure compared to the prototype, where connection of blocks in rows is also used.

The preferred dimensions of the block are 145 × 200 × 440 mm, the weight of the block is not more than 30 kg. The recommended technology for manufacturing blocks is semi-dry vibrocompression.

The production of concrete blocks by the method of semi-dry vibrocompression ensures their high strength (at least B20), frost resistance (at least F200), water resistance (at least W6) and durability - at least 50 years.

Compared to such an injection unit (obtained by casting), the unit is approximately 5% denser and, accordingly, heavier. Reducing the weight of the blocks used in the design of the GPP to 30 kg allows you to mount the coating manually and directly at the place of construction work (laying the GPP), without the use of heavy loading equipment, which reduces the cost of installation work (additional technical result).

At the same time, the scope (additional technical result) of the GPP is expanded, because it becomes possible to lay GPP in places where the use of heavy loading equipment is undesirable or impossible.

Despite the foregoing, it is possible to install flexible prefabricated coatings in the factory. In this case, fragments of the coating (for example, with dimensions of 3150 × 1960 mm) are delivered to the construction site, where they are laid to the surface using lifting equipment equipped with sling equipment.

However, it should be noted that in the design of the GLP used in watercourses, the surface density of the coating depends on the flow velocity, and therefore more massive blocks are used in the composition of such a GLP.

The concrete blocks used as part of the claimed invention may have various sizes and configurations. It is preferable to use identical blocks, each of which has the shape of a rectangular parallelepiped (Fig. 1) with two through holes made on opposite side faces, whose axes are perpendicular to the long side face of the block. Using in the same row blocks of the same size, as well as shifting each subsequent row of blocks relative to the previous one in the direction along the row by half the length of the block, is preferable, because increases the density of the coating (the relative position of the blocks in the coating).

To increase the flexibility of the coating, the protrusions of the blocks in the places of bending of the coating are reduced by making bevels on the upper and tender faces of the block. The angle and length of the bevels are of fundamental importance: the bevel is designed so that when the structure is bent, the corners of the blocks do not protrude outward.

Unlike masonry, the rows of blocks in the GPP can have a non-horizontal orientation.

The essence of the claimed invention is illustrated by drawings:

Figure 1 - isometric view of the block

Figure 2 - sketch of a block with dimensions (top view and side)

Figure 3 - connection diagram of the blocks in the GPP (1 - block, 2 - cable)

Figure 4 is a fragment of the installation of the GLP on an inclined and curved surface

(placement of cables on the surface)

5 is a fragment of the installation of the GPP on an inclined and curved surface (mount

loose cable ends)

6 is a sequence of Assembly of the GPP when it is mounted on an inclined and

curved surface

The following is information confirming the implementation of the claimed invention with the receipt of the above main technical result.

Figures 1 and 2 show a concrete block of the most optimal shape with preferred dimensions. The connection of such blocks with flexible connections into a single GLP is carried out according to the scheme shown in Fig.3.

Flexible communication between blocks can be provided by application, for example:

- rope (cable) of polypropylene twisted three-strand;

- rope (cable) of polyamide twisted three-strand;

- rope (cable) steel single lay;

- flexible fittings

The installation process of a flexible prefabricated coating of concrete blocks is carried out by an orderly connection of the blocks, for example, cables, by dragging the latter through the holes in the side faces of the blocks, followed by fixing the free ends of each cable (connection by knot or welding, or clamp, or twist).

At the same time, there are various installation conditions for the GPP depending on the orientation of the surface to be covered:

1. Mounting on a horizontal surface.

2. Mounting on an inclined surface (slope).

3. Installation with the descent of the coating to the bottom of the reservoir.

Installation on a horizontal surface is carried out in the following sequence. Harnesses (flexible ties) of the required length are harvested and laid out on the surface. Then, concrete blocks are delivered to the assembly place, which are strung on cables in accordance with the scheme (Fig. 3). The assembly of the coating is possible, both with a single cloth of design dimensions, and with separate fragments, then connected to each other.

Installation on an inclined and curved surface requires the safe movement of workers. For this, various temporary removable ladders, safety rails, removable platforms can be used. Assembly on inclined and curved surfaces must be from bottom to top.

The assembly option with the descent of the blocks to the bottom of the reservoir involves the use of floating equipment. The following assembly order is recommended:

1. First, a pipe or a thick metal rod is lowered to the bottom of the reservoir with a length equal to the width of the coating to be mounted, tied with a step equal to the distance between the axes of the holes in the block, the ends of the connecting cables, as shown in Fig. 4.

2. The free ends of the cables are fixed on board the boat with the help of a device (mounting stopper) made of a board or metal profile. The device is equipped with pads that perform the function of stoppers, allowing you to arrange the location of the free ends of the cables and prevents them from being poured into water (Fig. 5).

3. Concrete blocks are put on pairs of connecting cables (cables are pulled into the holes of concrete blocks), then, holding the free ends of the cables, the rows of blocks are dumped to the bottom. Having regrouped the pairs of cables, blocks of the next row are put on and dropped, etc. The assembly sequence is presented in Fig.6.

Claims (8)

1. A flexible coating of concrete blocks, containing concrete blocks connected by orderly flexible connections, characterized in that in each block on its lateral side adjacent to the blocks of the adjacent row, two through holes are made, the axes of which are parallel to each other and are located symmetrically in the horizontal plane relative to the vertical plane of symmetry of the block, and each subsequent row of blocks is offset relative to the previous one in the direction along the row so that the above holes of each block of one row are aligned Aligning coaxially with the holes of two adjacent blocks of the adjacent row, they form straight channels for flexible connections, while each flexible connection element is passed through two adjacent straight channels with the formation of a loop behind the peripheral row of coating units, after which its free ends are interconnected. 2. The flexible coating according to claim 1, characterized in that the same blocks are used, each of which has the shape of a rectangular parallelepiped with two through holes made on opposite side faces, whose axes are perpendicular to the long side face of the block. 3. A flexible coating according to any one of claims 1 and 2, characterized in that each subsequent row of blocks is offset from the previous one in the direction along the row by half the length of the block. 4. A flexible coating according to any one of claims 1 and 2, characterized in that the blocks are made by semi-dry vibrocompression. 5. The flexible coating according to claim 3, characterized in that the blocks are made by semi-dry vibropressing. 6. A flexible coating according to any one of claims 1 and 2, characterized in that the blocks have a mass of not more than 30 kg. 7. The flexible coating according to claim 3, characterized in that the blocks have a mass of not more than 30 kg. 8. The flexible coating according to claim 5, characterized in that the blocks have a mass of not more than 30 kg.