RU197972U9 - Geogrid - Google Patents

Abstract

The technical solution relates to the field of construction, namely to devices for strengthening and / or drainage of earth, rocky, mixed or other foundations, mainly slopes. The technical result consists in simplifying the design while improving water drainage. A geogrid, characterized by the fact that it consists of two rows of intersecting polymer rods - the upper row and the lower row, and the rods are soldered to form an open cell of the form, the geometric dimensions of which exceed the thickness of the rod, while on both sides of the mesh there are layers of non-woven polymer material, which are connected to polymer rods. 9 p.p. f-ly, 4 dwg

Description

The technical solution relates to the field of construction, namely to devices for strengthening and / or drainage of earthen, rocky, mixed or other foundations, mainly slopes.

From the prior art, an armored drainage composite geotextile material is known, including a matrix of non-woven filtering material and reinforcing elements, characterized in that strips of unidirectional roving glass yarn are used as reinforcing elements, pre-impregnated with thermoplastic glue, placed on the matrix along it with a constant pitch and fastened to matrix over the entire surface by exposure to temperature and pressure (RU 2103439 C1, E02D 17/18, 10.08.2002).

The closest analogue to the claimed technical solution is a reinforcing geolayer, which is a geogrid containing a lattice made of a roving bundle covered with a protective layer, characterized in that it is equipped with a non-woven or woven material attached to the lattice (RU 2186906 C1, E02D 17/18 , 10.08.2002).

Geocomposite for the roadbed of a transport structure, containing a geogrid and two layers of geotextile fixed on both of its planes, characterized in that the geogrid is made with a three-level structure for placing its elements, in which the cells have dimensions that prevent the layers of geotextile from closing when they are loaded (RU 61725 U1, E01C 5/22, 10.03.2007).

Drainage geocomposite containing, with the possibility of twisting into a roll, a geogrid with a two-level structure of placement of its elements forming cells, and two layers of geo-tissue fixed on the planes of the geogrid, characterized in that at least one of the corners of the cells is equipped with a partition, and the elements of the levels of the geogrid structure made in the form of trihedral prisms (RU 98428 U1, E02B 11/00, 2010.10.20).

The closest analogue is a geogrid with upper layers of nonwoven material and rods of circular cross-section located between them US 7470094 B2, 30.12.2008. The disadvantages of the closest analogue are the increased rigidity of the mesh, as well as the implementation of the rods rounded, which causes moisture to drain along the surface of the rods towards the lower layer and provides only minimal moisture movement along the rod.

The technical problem is to increase moisture removal (water drainage).

The technical result is to improve water drainage.

The technical result is achieved due to the fact that the geogrid consists of two rows of intersecting polymer rods - the upper row and the lower row, and the rods are soldered to form a cell, the geometric dimensions of which exceed the thickness of the rod, while on both sides of the mesh there are layers of non-woven polymer material, which are connected to polymer rods, while grooves are formed on the lateral surfaces of the rods, made along the entire length of the rods.

The layers of nonwoven polymeric material are connected to each other and to the polymeric rods by means of resistance welding, preferably turned ultrasonic welding.

The ultrasonic welding is in the form of rows of welded seams, preferably intermittent double seams.

The layers of non-woven polymer material are connected to polymer rods by spot resistance welding.

Both layers of nonwoven polymeric material are connected to the polymeric rods by rows of welds, preferably intermittent double seams.

The distance between the rows of double seams does not exceed the length of the seam, and the seams are preferably offset relative to each other.

The non-woven polymeric material is a textile non-woven fibrous material, preferably a fleece material or geotextile.

The rods are twisted and / or bent-wavy.

The rods are made of blanks with an initially rectangular cross-section, with grooves formed on the lateral surfaces of the rods, for example, in the form of recesses, grooves or recesses.

The rows of rods are superimposed at an angle to each other with the formation of a gap between the meshes, while the height of the lattice formed by the rods is from 5-15 mm, and there are through holes at the joints of the rods.

The device is illustrated by drawings:

in FIG. 1 shows a fragment of a geogrid with a bent (detached) edge of a layer of nonwoven polymer material;

in FIG. 2 shows a fragment of a geogrid in plan;

in FIG. 3 shows a section of a geogrid at the junctions (nodes) of its rods;

in FIG. 4 shows an enlarged detail of the location in FIG. 3.

The geogrid consists of two rows of intersecting, predominantly parallel polymer rods - the upper row 1 and the lower row 2, and the rods are soldered to form a cell (open shape), the geometric dimensions of which exceed the thickness of the rod, while on both sides of the mesh there are layers 3 and 4 of non-woven polymer material that are connected to polymer rods.

The layers of non-woven polymeric material are joined together by means of resistance welding, preferably ultrasonic welding.

The layers of nonwoven polymeric material can also be connected to each other and to the polymer rods by means of resistance welding, preferably ultrasonic welding.

The ultrasonic welding is in the form of rows of welded seams, preferably intermittent double seams. Ultrasonic welding connecting the layers of nonwoven material 3 and 4 and the rods 1 and 2 can be performed by spot or discrete.

Both layers 3 and 4 of a non-woven polymer material are connected to polymer rods by rows of welded seams 5, preferably intermittent double seams The distance between the rows of double seams 5 does not exceed the seam length, while the seams are offset relative to each other, which increases the strength of the connection and the reliability of the geogrid ...

The non-woven polymeric material is a textile non-woven fibrous material, preferably a fleece material or geotextile.

The rods 1 and 2 can be twisted and / or curved-wavy.

The rods 1 and 2 are made from blanks having an initially rectangular cross-section, while during the manufacturing process the blanks are deformed in such a way that grooves, grooves, recesses or recesses are formed on the lateral surfaces of the rods, preferably along the entire length of each rod 1 or 2.

The rows of upper and lower rods 1 and 2 are superimposed at an angle to each other, preferably at an acute angle, with the formation of a gap between the meshes, while the height of the lattice formed by the rods is from 5-15 mm, preferably about 10 mm with a height of one rod 5 mm , which, as shown by tests, provides the most intensive water drainage. Moreover, at the joints of the rods there are through holes 6 to ensure the flow of water, that is, the grooves or grooves do not completely overlap, for which the connection of the rods 1 and 2 occurs along their edges (Fig. 4).

The geogrid manufacturing process consists of two stages.

First, a lattice is made of rods, deforming rectangular blanks and making grooves or grooves on their surfaces, and welding rows of rods 1 and 2, then a composition consisting of a formed lattice covered on both sides with a non-woven polymer material is passed through the welding machine using a roller system. At certain intervals, the convectors are lowered onto the canvas, and using ultrasound, the layers of non-woven polymer material are welded to the grid.

The device works as follows. The device is laid on an inclined base and covered with soil or other loose building material. The non-woven polymeric material of layer 1 mainly performs the function of filtering water and excludes the ingress of soil into the device. A geogrid with a single layer of non-woven material will perform only a filtration function, and water will not be removed intensively. When a nonwoven material is soldered to the geogrid from both sides (Fig. 2), in general, the structure performs two functions at once, namely filtration and drainage (water drainage). The proposed geogrid, to which a non-woven material is soldered on both sides, has a rod cross-sectional height of 4-6 mm. This provides an optimal height for intensive water drainage, since if the height of the rod were less, then the amount of filtered water would be removed less intensively.

The main drainage is carried out by means of grooves or grooves formed on the lateral surfaces of the rods, as well as due to the lower layer of non-woven polymer material laid on the base. To improve drainage by means of the rods, holes 6 are made at their joints, which allow water to drain freely along the entire length of the rod. Also, drainage is carried out by the lower mesh 4, laid on the base.

Claims (10)

1. Geogrid, characterized by the fact that it consists of two rows of intersecting polymer rods - the upper row and the lower row, and the rods are soldered to form a cell, the geometric dimensions of which exceed the thickness of the rod, while on both sides of the mesh there are layers of non-woven polymer material, which are connected to polymer rods, while grooves are formed on the lateral surfaces of the rods, made along the entire length of the rods. 2. A geogrid according to claim 1, characterized in that the layers of nonwoven polymeric material are connected to each other and to the polymer rods by means of resistance welding, preferably ultrasonic spot welding. 3. A geogrid according to claim 2, characterized in that the ultrasonic welding is performed in the form of rows of welded seams, preferably intermittent double seams. 4. The geogrid according to claim 1, characterized in that the layers of nonwoven polymer material are connected to polymer rods by spot resistance welding. 5. A geogrid according to claim 1, characterized in that both layers of nonwoven polymeric material are connected to the polymeric rods by rows of welds, preferably intermittent double seams. 6. Geogrid according to claim 5, characterized in that the distance between the rows of double seams does not exceed the seam length, and the seams are preferably offset relative to each other. 7. The geogrid according to claim 1, characterized in that the nonwoven polymeric material is a textile nonwoven fibrous, preferably a fleecy material or geotextile. 8. Geogrid p. 1, characterized in that the rods are twisted and / or curved-wavy. 9. Geogrid of claim. 1, characterized in that the rods are made of blanks having an initially rectangular cross-section, while grooves are formed on the lateral surfaces of the rods, for example, in the form of depressions, grooves or recesses. 10. Geogrid p. 1, characterized in that the rows of rods are superimposed at an angle to each other with the formation of a gap between the grids, while the height of the lattice formed by the rods is from 5-15 mm, and there are through holes at the joints of the rods.

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