RU210979U1 - GEOMODUL - Google Patents

Abstract

The utility model relates to the field of construction and is designed to strengthen the weak foundations of earth (road) structures and / or sites for various purposes. To solve the problem and achieve the claimed technical result, a GP geomodule is proposed, containing a matrix formed by cells in the form of a parallelepiped, while the cells are made of technical fabric by stitching at predetermined points, a stiffening frame made with the possibility of separation from the matrix, fixing tapes, for fixing the stiffening frame with the matrix, each fixing tape is fixed on the upper section of the outer edge of each cell around the entire perimeter of the matrix, a bandage tape made around the entire perimeter of the matrix, while the bandage tape is fixed on the matrix on the outer edge of each cell around the entire perimeter of the matrix . The technical result achieved when using the utility model is that the design of the geomodule reduces the load on the seams, thereby reducing the likelihood of rupture.

Description

FIELD OF TECHNOLOGY

The utility model relates to the field of construction and is designed to strengthen the weak foundations of earth (road) structures and / or sites for various purposes.

BACKGROUND OF THE INVENTION

A geomodule is known from the prior art, which is formed by tapes made of synthetic permeable woven material installed on the edge and having means for connecting adjacent geomodules, bent with the formation of each tape in terms of through rectangular cells open on one of the sides, to which it is sewn along the lines facing it bending, the subsequent curved tape also closes the rectangular cells open on one of the lateral sides of the previous tape, and the open cells of the first and last curved tapes are closed by inserts sewn into the edges of these cells in the form of tape segments. In addition, the first and last tapes forming it and the inserts sewn into them are made of a synthetic permeable woven material and are made of a material whose breaking load (tensile strength) exceeds the breaking load of the tapes located between them. The geomodule is equipped with a base made of filtering material attached on its two adjacent sides, and its other two sides are made with a release beyond the geomodule contour (RF patent 168621, 06/10/2016).

A geomodule is also known from the prior art, containing cells made of flexible strips of technical fabric and combined into a cellular structure, forming the sides of the geomodule with a common strip, while a reinforcing tape bent in the longitudinal direction is attached to the upper edges of the geomodule, covering its edges from two sides , and on at least one of the sides of the geomodule, the reinforcing tape is connected in such a way that a link is formed into which a flexible element is inserted with ends emerging through the side holes of the link, designed to connect the edges of adjacent geomodules to each other and tension the edges after their connection, moreover holes are made at the connection points of the cells with at least one side in the wings, through which the geomodule is attached to the mounting frame by means of a flexible element (RF patent 165503, 10/14/2015).

The closest of the prior art is a geomodule containing tapes, at least part of which is made of a synthetic polymeric material with filtering ability, and the tapes are interconnected to form their planes in plan linearly or sequentially along the length or width of the geomodule of rectangular or quasi-rectangular shape, and the geomodule is provided with a panel discretely or continuously attached to the tapes or strip segments discretely or continuously attached to at least a part of the tapes, forming a bottom made of synthetic polymeric material with filtering ability, connected to at least a part of the tapes to form an open from above and divided into the mentioned cells of a flexible box (RF patent 78233, 08.07.2008).

The disadvantage of the known devices is that the designs of these geomodules have low operational reliability, in particular, they have a high probability of rupture of the seams during installation or during operation.

ESSENCE OF THE UTILITY MODEL

The technical problem solved by the claimed utility model is to create a new geomodule with increased operational reliability, with a decrease in the probability of rupture.

The technical result achieved when using the utility model is that the design of the geomodule reduces the load on the seams, thereby reducing the likelihood of rupture.

To solve the problem and achieve the claimed technical result, a geomodule is proposed that contains a matrix formed by cells in the form of a parallelepiped, while the cells are made of technical fabric by stitching at predetermined points, a stiffening frame that can be separated from the matrix, fixing tapes for fixing stiffening frame with matrix, wherein each fixing tape is fixed on the upper section of the outer edge of each cell around the entire perimeter of the matrix, a bandage tape made around the entire perimeter of the matrix, while the bandage tape is fixed on the matrix on the outer edge of each cell around the entire perimeter of the matrix.

In addition, the geomodule can be designed so that each seam is made with a double stitch.

In addition, the geomodule can be made so that the connection of stitches is invisible on either side of the material to be sewn with additional tape fasteners.

BRIEF DESCRIPTION OF THE DRAWINGS

The utility model is illustrated by drawings. The drawings are presented in a volume sufficient for the understanding of the utility model by specialists, and in no way limit the scope of the utility model. In the drawings, the same elements are indicated by the same positions.

On FIG. 1 shows a general view of the geomodule.

DESCRIPTION OF THE IMPLEMENTATION OF THE UTILITY MODEL

As shown in FIG. 1, the geomodule is a matrix formed by cells 1 intended to be filled with material, in particular soil. In this case, the cells have the shape of a parallelepiped, in particular, they can have the shape of a cube, and are made of technical fabric, while the formation of the cell occurs by stitching the material. As a technical fabric, any synthetic fabric can be used that meets the service requirements specific to these products, in particular, it can be a fabric made of non-woven synthetic material with a surface density of at least 200 g/sq.m and a breaking load of at least 1.0 kN/m, or it can be TBK-100 basalt fabric. Seams are sewn with a closed stitch of a double-thread type with a length of 7 mm. Due to the fact that the seam is made with a closed stitch, it is invisible from any side of the sewn material, thereby reducing the environmental impact on the threads, thereby allowing them to maintain their strength and reliability during their service life.

As shown in FIG. 1, the geomodule has a stiffening frame 2, which runs along the perimeter of the upper part of the matrix 1, has a spacer middle part 3 and vertical posts 4, located along the edges of the matrix 1, as well as the central parts of the side faces and directly in the center of the matrix 1 itself. The stiffening frame 2 made of profiled metal. At the same time, the stiffening frame 2 is made with the possibility of separation from the matrix 1.

The connection of the matrix 1 and the stiffening frame 2, as shown in Fig. 1, is provided by fixing tapes 5 of a removable-detachable type, made of the same material as the matrix 1. Each fixing tape 5 tape is fixed with a seam on the upper section of the outer edge of each cell around the entire perimeter of the matrix 1. Thus, a uniform distribution is achieved. loads on the stiffening frame during installation of the geomodule. With a uniform distribution of the load, the load on the seams that form the cells of the matrix 1 is reduced, thereby reducing the risk of rupture.

Just as shown in FIG. 1, the geomodule has a bandage tape 6 made around the entire perimeter of the matrix 1 from the same material as the matrix 1, while the bandage tape 6 is fixed on the matrix 1 on the outer edge of each cell around the entire perimeter of the matrix with additional tape fasteners 7, made from the same material as the matrix 1. The fixation of the bandage tape 6 and tape fasteners 7 is also carried out due to the seam connection. Fixation of tape fasteners 7 on the outer edges of the cells of the matrix 1 increases the strength of the section of the seam connection of the cells of the matrix 1, thereby reducing the likelihood of rupture during operation.

The utility model works as follows: the cells of the matrix 1 are filled with soil, and the stiffening frame 2, connected to the matrix 1 by fixing tapes 5, allows you to evenly distribute the load exerted on the matrix 1, due to the spacer middle part 3 and vertical posts 4, and the bandage tape 6, connected by tape fasteners 7 with the cells of the matrix 1, has a fixing effect on the side surface of the matrix 1.

The useful effect achieved when using the utility model is achieved due to the fact that the design of the geomodule reduces the negative impact of the environment on the seam connection of the cells, as well as increases the operational reliability of the geomodule, due to the uniform distribution of the load and the strengthening of the external edges of the geomodule cells, thereby reducing rupture probability.

Claims (3)

1. A geomodule containing a matrix formed by cells in the form of a parallelepiped, while the cells are made of technical fabric by stitching at predetermined points, a stiffening frame that can be separated from the matrix, fixing tapes for fixing the stiffening frame with a matrix, each the fixing tape is made with the possibility of fixing on the upper section of the outer edge of each cell around the entire perimeter of the matrix, the banding tape is made around the entire perimeter of the matrix, while the banding tape is made with the possibility of fixing on the matrix on the outer edge of each cell around the entire perimeter of the matrix with additional tape fasteners. 2. Geomodule according to claim 1, in which each seam is a double stitch. 3. Geomodule according to claim 1 or 2, in which the seam connection is invisible on either side of the material to be sewn.

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