RU98763U1 - DEVICE FOR STRENGTHENING THE SOIL - Google Patents

Abstract

 1. A device for strengthening the soil, containing, with the possibility of assembly into a bag (3), flexible strips (2), which are made of a polyolefin or a mixture of polyolefins and whose surface is structured by diagonal mesh corrugation (8) in the form of rhombs (9), the flexible strips ( 2) interconnected using several rows of spot welds (1) of ultrasonic welding with the possibility of forming a geogrid (13) when unfolding the package (3), characterized in that the package (3) is twisted to form two small and one large loops (5 ) and (6) pulled to At least one fastening element (4), while the ends (7) of the package (3) are located near the large loop (6), in addition, at least two opposite corners of the diamonds (9) of the mesh diagonal corrugation (8) are interconnected by an additional element (11) corrugation. ! 2. The device according to claim 1, characterized in that the point seams (1) are made in the form of rectangles (10). ! 3. The device according to claim 1, characterized in that the point seams (1) are made in the form of circles. ! 4. The device according to claim 1, characterized in that the point seams (1) are staggered.

Description

The utility model relates to the field of construction, namely, to road structures for creating reinforced layers of pavement, while reinforcing slopes in combination with various aggregates (soils, including reinforced, granular materials, concrete).

A device [1] for strengthening the soil is known, containing flexible strips 1-2 mm thick, assembled in a rectangular package and interconnected by ultrasonic welding with the possibility of forming a geogrid when unfolding a rectangular package.

Moreover, the flexible strips are made of a variety of low pressure polyolefin-polyethylene with the introduction of a light stabilizer in the form of black soot, and contain structural elements made in the form of combinations of corrugations and / or holes, for example, in the form of a mesh structure formed by diagonally intersecting corrugations with pitch 2 ... 4 mm at an angle of 30 degrees and a number of through holes, of various configurations, arranged in a checkerboard pattern.

The disadvantage of the analogue [1] is the complexity of its design due to the need to perform combinations of various structural elements on polymer strips. As a result of this, it is also necessary to carry out complex calculations in order to determine the necessary strength of the manufactured device. In addition, a rectangular bag in some cases, with a large length of flexible strips, will take up a lot of space during its storage or transportation.

More simpler is the device [2] for soil stabilization, containing flexible strips 1-2 mm thick, made of a variety of low pressure polyolefin-polyethylene and interconnected to form a geogrid. In this case, the flexible strips are connected by two continuous parallel seams by ultrasonic welding, and are equipped with perforations in the form of ordered rows of holes and are structured in the form of a uniform diagonal mesh corrugation.

However, the implementation of two parallel seams solid at the analogue [2] complicates the manufacturing technology of the device and leads to an increase in the cost of such a product. In addition, like the analogue [1], the analogue [2] has a rectangular package, which in some cases, with a long length of flexible strips, will take up a lot of space during its storage or transportation

More technologically advanced than the analogues [1 and 2], the device [3] for soil strengthening, adopted as a prototype of a utility model. It contains flexible strips 1-2 mm thick made of a mixture of polyolefins - compositions of high pressure polyethylene and low pressure polyethylene with the addition of carbon and / or tint. Flexible bands are interconnected to form a geogrid. Flexible stripes are also structured in the form of a uniform diagonal mesh corrugation. To increase the manufacturability of the device, flexible strips are connected by several rows of spot welds using ultrasonic welding. To improve the grip qualities of the grating, the flexible strips have notches on their ribs.

The disadvantage of the prototype device [3] is a similar disadvantage of analogues [1 and 2] - the presence of a rectangular package, which in some cases, with a large length of flexible strips, will take up a lot of space during its storage or transportation.

Another disadvantage is a certain complication of the design due to an additional element - notches on the flexible tapes of flexible strips. They were introduced to enhance the effect of adhesion of the geogrid in the layers of a building structure along with diagonal corrugation.

The objective of the utility model is to increase the compactness of the device for strengthening the soil in order to conveniently store and transport this device, as well as simplifying its design.

The problem is solved in that the device for strengthening the soil, containing with the possibility of assembling in a package flexible strips that are made of polyolefin or a mixture of polyolefins and the surface of which is structured with diagonal mesh corrugation in the form of rhombs, the flexible strips being interconnected using several rows of point seams ultrasonic welding with the possibility of forming a geogrid when unfolding the package, has distinctive features: the package is twisted with the formation of two small and one large loop, tightened to at least one fastening element, wherein the package ends are located near the large loop, in addition, at least two opposite corners of the grid rhombuses diagonal corrugations interconnected corrugations additional element.

The implementation of the package twisted will reduce its dimensions, and the formation of two small and one large loop will allow you to place flexible stripes of considerable length in the package. Tightening with at least one fastener of these loops will increase the convenience of storage and transportation of the device. The location of the ends of the package near the large loop is aimed at the formation of compact packages without protruding ends of the strips.

The connection between an additional element of the corrugation of at least two opposite angles of diamonds mesh diagonal corrugation, will increase the adhesion surface of the flexible tapes of the device with other elements of building materials.

In order to strengthen the place of fastening of the flexible strips, the point seams are made in the form of either rectangles or in the form of circles, while they can be staggered.

Figure 1 shows a pre-twisted rectangular package of a device for strengthening the soil. Figure 2 - a lot of such devices in the process of storage or transportation. Figure 3 is a fragment of the welds in view of figure 1. In Fig.4 is a fragment of a mesh diagonal corrugation in view of Fig.1 and 3. Fig.5 is an expanded geotechnical grid from a package. In Fig.6 is a fragment of such a lattice in Fig.5. 7 is an example of the location of the geogrid on the prepared soil. On Fig - an example of its location in the finished building structure.

The device for strengthening the soil contains flexible strips 2 connected by means of seams 1 (Fig. 1), which are assembled into an elongated rectangular package 3, pre-twisted, using at least one fastening element, for example, a bundle 4, in a compact design for the convenience of its storage or transportation along with other similar packages (figure 2).

The package is twisted to form two small and one large loop 5, 6, tightened by a bundle 4. The ends 7 of the package 3 are located near the large loop 6. They can even be located inside it.

Flexible stripes 2 are made of a polyolefin or a mixture of polyolefins, for example, from low pressure polyethylene or from a composition of low and high pressure polyethylene.

Flexible strips 2 are structured (Fig. 3) in the form of diamonds 8 of a mesh diagonal corrugation 9. Flexible strips 2 are interconnected using several rows of spot welds 1 of ultrasonic welding.

In order to strengthen the fastening points of the flexible strips 2, the point seams 1 can be made in the form of either rectangles 10 (as shown) or in the form of circles (not shown). Moreover, such elements can be staggered (see Fig.7)

To improve the adhesion properties of the surface of the flexible ribbons 2, at least two opposite corners of the rhombuses 8 (Fig. 4) of the mesh diagonal corrugation are interconnected by an additional corrugation element 11 (another variant “cross” is not shown). It is also desirable to make through holes 12 in flexible tapes (see Fig. 7) for better ventilation of the building structure and increase its drainage properties. The same holes 12 can be made in one of the halves of the rhombuses 8.

After liberation from the harness 4 (figure 1 and 2) and the promotion of the package 3, it is ready for use (figure 5).

A specific choice of the implementation of the expanded volumetric design (dimensions A, B and H in Fig.6) of the device for strengthening the soil and the method of its installation is carried out for certain operating conditions.

In all cases, a device for strengthening the soil is used as follows.

Stretch the package 3 (Fig. 5) in the direction normal to the surface of the flexible strips 2, with the possibility of forming rows of the cellular structure of the geogrid 13 (Fig. 6). With this stretching, due to its flexibility, the strips 2 bend in a sinusoidal manner and form many cells 14.

Next, the deployed geotechnical grate is laid on a previously compacted or loosened flat surface of a slope or section of the road manually or by mechanical means. Cells 14 are fixed to the surface by known means, for example, anchors (not shown).

After that, soil material, gravel 15 (Fig. 7), or concrete, is laid in the fixed cells 14, depending on the type of building structure.

At the same time, the strengthened soil will be a continuous coating of cellular structures bonded to each other and filled with soil or other material.

In the case of the use of several such geotechnical gratings 13 to strengthen a large area of soil, it is allowed to connect them together with polymer clamps (not shown). It is also possible additional reinforcement of weakly bearing soil 16 with two geogrids 13 mounted on top of each other (as shown in Fig. 8), the cells 14 of which are filled with a binder material, and are located, for example, under the roadway 17.

Under load, the filled geotechnical gratings 13 operate as elastic flexible plates on a soil or other foundation, acting as a reinforcing means to strengthen building structures.

Such use of a geotechnical grid is preferable to strengthen the road base 17, to give it a high bearing capacity.

In any case, the use of the device described above will increase the durability of the reinforced surfaces due to the increased stiffness of the cells 14 and the strength of the joints 1 of the flexible strips 2, as well as due to the dispersion of the load distribution on their corrugations 9 and holes 12.

In addition, the drainage properties of such slope and pavement reinforcements are also significantly improved by making holes 12 together with the above-described design of diagonal corrugations 8 of diagonal corrugations in flexible strips 2 of the geotechnical grid 13.

Ultimately, the technical results of the utility model described above will enhance the reliability of its use for strengthening various surfaces.

Information sources:

1. Patent BY 3635 U, IPC E02D 17/20, priority from 2006.11.27, published 2007.06.30.

2. Certificate of the Russian Federation No. 40751 U1, IPC E01C 5/00, priority dated 2004.06.23, published 2004.09.27.

3. Patent UA 18496 U IPC E02D 17/20, priority from 2006.07.24, publication from 11/15/2006 / prototype /.

Claims (4)

1. A device for strengthening the soil, containing, with the possibility of assembly into a bag (3), flexible strips (2), which are made of a polyolefin or a mixture of polyolefins and whose surface is structured by diagonal mesh corrugation (8) in the form of rhombs (9), the flexible strips ( 2) interconnected using several rows of spot welds (1) of ultrasonic welding with the possibility of forming a geogrid (13) when unfolding the package (3), characterized in that the package (3) is twisted to form two small and one large loops (5 ) and (6) pulled to At least one fastening element (4), while the ends (7) of the package (3) are located near the large loop (6), in addition, at least two opposite corners of the diamonds (9) of the mesh diagonal corrugation (8) are interconnected by an additional element (11) corrugation. 2. The device according to claim 1, characterized in that the point seams (1) are made in the form of rectangles (10). 3. The device according to claim 1, characterized in that the point seams (1) are made in the form of circles. 4. The device according to claim 1, characterized in that the point seams (1) are staggered.