RU143943U1 - FLEXIBLE CONCRETE MAT - Google Patents

Abstract

1. Flexible concrete mat, characterized in that it contains interconnected monolithic long-length connecting element concrete blocks made in the form of bilateral truncated pyramids with a common rectangular base and with smaller upper and lower bases, and at least part of the lower truncated pyramid and the lower base, additionally containing an anchor tooth or several anchor teeth, is made of concrete, including coarse basalt fiber, 3-15 mm long and 50-500 microns in diameter and at least part of the upper truncated pyramid and the upper base are made of concrete, including thickened basalt fiber, 5-1500 mm long and 15-25 microns in diameter, and the peripheral blocks of the concrete mat contain embedded metal parts for fastening long connecting elements when assembling parts of the concrete mat in horizontal and / or vertical plane. 2. The flexible concrete mat according to claim 1, characterized in that the concrete blocks contain surface water-repellent impregnation. The flexible concrete mat according to claim 1, characterized in that the lengthy connecting elements are made in the form of a synthetic fabric tape with a width of 70mm-200mm, a thickness of 3mm-5mm. The flexible concrete mat according to claim 1, characterized in that additional fiberglass rods are installed in the concrete blocks parallel to the faces of the base of the truncated pyramid. The flexible concrete mat according to claim 1, characterized in that the concrete blocks are made of concrete, including air-entraining additives, for example, saponified wood resin. The flexible concrete mat according to claim 1, characterized in that the embedded metal part is made in the form of a surface�

Description

The proposed utility model relates to the field of increasing the bearing capacity of bases for objects placed on it, namely, to means of increasing the bearing capacity of a soil base or subgrade in water-saturated soils. A flexible concrete mat can be used to protect road slopes, hydraulic structures from erosion, and to reinforce the soil foundations of roads, airfields, and other geotechnical objects.

A flexible protective concrete coating is known from the prior art, containing concrete blocks made in the form of double-sided strongly truncated pyramids with a common large rectangular base and interconnected in order and in rows in a single canvas of concrete blocks. Concrete blocks attached to its sides are introduced into the coating, made in the upper part in the form of strongly truncated pyramids, and in the lower part in the form of slightly truncated pyramids with a common large rectangular base. Moreover, the concrete blocks of both types are interconnected in order and in rows with artificial ropes, which are monolithic in concrete blocks (RU 2365702 C1, E02B 3/12, 08/27/2009).

Also known from the prior art is a universal flexible protective concrete coating, which contains concrete blocks made in the form of double-sided truncated pyramids with smaller truncated bases, which are the ends of the concrete blocks on which the recesses are made, and cables connected in series and in rows along other the bases of the pyramids. The bases of the double-sided truncated pyramids of concrete blocks are made rectangular, and the distance between adjacent concrete blocks is determined by the mathematical dependence. The area of the opening of the recess is more than half the area of the corresponding end face of the concrete block. At the ends of the concrete blocks, cushioning pads are installed. As the cables, kapron ropes monochromatic in concrete blocks (RU 2129635 C1, E02B 3/12, 04/27/1999) were used.

In addition, from the prior art it is known universal flexible protective concrete coating containing concrete blocks interconnected by a monolithic rope, made in the form of bilateral truncated pyramids with a common large rectangular base and with smaller vertices, characterized in that the concrete blocks are made asymmetric relative to the plane of a common rectangular the base of the pyramids (RU 2364678 C2, E02B 3/12, 08/27/2008).

A flexible protective concrete coating is known comprising concrete blocks interconnected by a monolithic long-length connecting element made in the form of double-sided truncated pyramids with a common rectangular base and with smaller vertices. The lower plane of each concrete block has an increased roughness relative to the rest of the surface of the concrete block (Pat RF on PM No. 102014)

The disadvantages of these coatings are their not completely satisfactory adhesion to the base, the possibility of displacement of the coatings under the influence of their own weight or underwater flows, especially on rocky substrates, clay bases, slopes and an increased possibility of cracking throughout the volume of blocks, an increased degree of abrasion of a rough surface under load.

The task to which the technical solution is directed is to create an effective tool for strengthening underwater surfaces, including those with a difficult topography, eliminating arbitrary displacements of the mat under the influence of the arising loads, increasing the friction coefficient of the mat as a whole while reducing its abrasion, and reducing crack formation.

The problem is solved due to the fact that the flexible concrete mat contains interconnected monolithic long-length connecting element concrete blocks made in the form of bilateral truncated pyramids with a common rectangular base and with smaller upper and lower bases, and at least part of the lower truncated pyramid and the lower base, additionally containing an anchor tooth or several anchor teeth, is made of concrete, including coarse basalt fiber, 3-15 mm long and with a diameter of 50-500 microns and, p At least part of the upper truncated pyramid and the upper base made of concrete comprising a thickened basalt fiber length 5-1500 mm and a diameter of 15-25 microns. The peripheral blocks of the concrete mat contain embedded metal parts for fastening long connecting elements when assembling parts of the concrete mat in a horizontal and / or vertical plane.

Additional impregnation of concrete blocks with a water-repellent mixture is possible.

Long connecting elements can be made in the form of a rope or synthetic fabric tape with a width of 70 mm - 200 mm, a thickness of 3 mm - 5 mm

In concrete blocks, it is possible to install additional fiberglass rods parallel to the faces of the base of the truncated pyramid.

Concrete blocks can be made of concrete, including air-entraining additives, for example, saponified wood resin.

The embedded metal part is made in the form of a platform with a U-shaped element welded to it.

The technical solution is illustrated by drawings presented for a particular case within the utility model formula.

In FIG. 1 shows a flexible concrete mat - general view and side view.

In FIG. 2 shows a embedded metal element when fastening long connecting elements.

In FIG. 3 shows the lower base of a truncated pyramid containing an anchor tooth.

In FIG. 4 shows the base of a truncated pyramid with additional fiberglass rods.

A universal flexible protective concrete mat contains concrete blocks 2 connected by a monolithic long-length connecting element - a rope or synthetic fabric tape 1. Concrete blocks 2 are made in the form of bilateral truncated pyramids - an upper truncated pyramid 3 with an upper base 4 and a lower truncated pyramid - 5 with a lower the base bis is a common rectangular base 7. The lower base 6 of the lower truncated pyramid - 5 is equipped with an anchor tooth 8 (Fig. 3). The peripheral blocks 9 of the concrete mat contain embedded metal elements 10 for attaching long connecting elements 1 when assembling parts of the concrete mat. The embedded metal elements 10 are made in the form of a pad 11 with a U-shaped element 12 welded to it (Fig. 2). The upper truncated pyramid 3 is equipped with additional rods of fiberglass 13 mounted parallel to the faces of the base of the truncated pyramid (Fig. 4).

To ensure transportation and movement of the mat, the long connecting element has outlets forming mounting loops that extend beyond the peripheral blocks.

Concrete blocks are connected to each other during the manufacturing process in order and in rows in a single canvas of concrete blocks with a long connecting element - synthetic fabric tape with a width of 70 mm - 200 mm, a thickness of 3 mm - 5 mm, which allows to increase the adhesion of the connecting element and concrete blocks by increasing contact area. Artificial tapes made of polypropylene, polyamide or polyester with a breaking load of 5000 to 10,000 kgf are used as a connecting element. When peripheral blocks are connected with synthetic fabric tape through embedded metal parts with a U-shaped element, optimal interaction of the plane of the tapes with the plane of the U-shaped element is ensured.

The technical result consists in providing increased adhesion of a flexible concrete mat with a protected surface, increasing the coefficient of friction of the lower parts of the blocks with the bottom by introducing coarse basalt fiber into the lower truncated pyramid while reducing the abrasion of the lower bases of the blocks. Additional stability of the mat as a whole and the absence of its displacements and fluctuations under the influence of variable and constant movements of water masses - underwater currents of tides, ebbs, slopes of the terrain is provided by the presence of one or more anchor teeth on the lower bases of the blocks. The implementation of the upper part of the truncated pyramid and the upper base of concrete, including thickened basalt fiber, allows additional drainage of the upper surface of the protective mat. Thus, the complex use in concrete blocks of two types of basalt fiber, which are corrosion-resistant and resistant to ultraviolet radiation, and air-entraining additives, which help plasticize the concrete mixture and reduce its delamination, ensures uniform water protrusion on the surface of the flexible mat and its removal, increased resistance of concrete blocks to abrasion and chipping, durability in conditions of freezing and thawing, due to the ability to tolerate large deformations in elastic state. Mats are capable of carrying a significant vertical load while protecting the surface of the slopes from erosion and destruction.

Claims (6)

1. Flexible concrete mat, characterized in that it contains interconnected monolithic long-length connecting element concrete blocks made in the form of bilateral truncated pyramids with a common rectangular base and with smaller upper and lower bases, and at least part of the lower truncated pyramid and the lower base, additionally containing an anchor tooth or several anchor teeth, is made of concrete, including coarse basalt fiber, 3-15 mm long and 50-500 microns in diameter and at least part of the upper truncated pyramid and the upper base are made of concrete, including thickened basalt fiber, 5-1500 mm long and 15-25 microns in diameter, and the peripheral blocks of the concrete mat contain embedded metal parts for fastening long connecting elements when assembling parts of the concrete mat in horizontal and / or vertical plane. 2. The flexible concrete mat according to claim 1, characterized in that the concrete blocks contain surface water-repellent impregnation. 3. The flexible concrete mat according to claim 1, characterized in that the lengthy connecting elements are made in the form of a synthetic fabric tape with a width of 70mm-200mm, a thickness of 3mm-5mm. 4. The flexible concrete mat according to claim 1, characterized in that the additional blocks of fiberglass are installed in the concrete blocks parallel to the faces of the base of the truncated pyramid. 5. The flexible concrete mat according to claim 1, characterized in that the concrete blocks are made of concrete, including air-entraining additives, for example, saponified wood resin. 6. The flexible concrete mat according to claim 1, characterized in that the embedded metal part is made in the form of a platform with a U-shaped element welded to it.