RU175280U1 - CELLULAR LATTICE - Google Patents

Abstract

The utility model relates to the field of construction. The utility model can be used to create artificial landscapes, to strengthen any soil surfaces - road slopes, slopes of quarries, coastlines of natural and artificial reservoirs. The task solved by the proposed utility model is the possibility of using lattices with a cellular structure (geogrids) to create artificial landscapes of complex relief , strengthening any soil surfaces in areas with complex terrain, including without the use of fixing anchors. The result is achieved due to the fact that in the known lattice with a cellular structure made of flexible polymer strips mounted on the ribs and connected to each other by perpendicular seams in a checkerboard pattern into a bag, which in a stretched working position forms a cellular structure, in contrast to the known strip width is different between each other, and the cell walls are perpendicular to the horizon. In addition, the width of the strips can be different among themselves only on one side of the geogrid web. Also, the lattice can be made of strips, the length of which is different.

Description

The utility model relates to the field of landscape construction. The utility model can be used to solve landscape design problems, create flower beds and flower beds, and other similar goals, as well as strengthen any soil surfaces - road slopes, slopes of quarries, coastlines of natural and artificial reservoirs, for reinforcing road bases.

Known lattice with a cellular structure for strengthening the soil surface (geogrid) according to patent RU No. 2136817 (E02D 17/20, publ. 09/10/1999), made of flexible polymer strips of the same height mounted on the ribs and connected to each other in a checkerboard pattern perpendicular welds with the formation in the stretched working condition of the canvas of a cellular structure with cells located along the canvas.

The disadvantage of such a geogrid is the impossibility of its use when creating volumetric landscapes, terraces, etc. In addition, in areas with an inclined relief, the faces of the cells will be non-perpendicular to the horizon, which reduces the lattice stability and leads to a deterioration in the appearance of the beds, flower beds, terraces and the entire landscape as a whole.

Known for another lattice with a cellular structure (geogrid) according to patent RU No. 2090702 (E02D 17/20, publ. 09/20/1997, prototype). The lattice is formed of flexible polymer strips of the same height, mounted on the ribs and connected to each other by perpendicular seams in a checkerboard pattern into a bag, which in a stretched working position forms a cellular structure. In the working stretched state, the lattice cells are located across the web.

The disadvantage of this solution is the same - the impossibility of using it to create voluminous, aesthetic landscapes, terraces, etc. In addition, in areas with an inclined relief, the edges of the cells will be non-perpendicular to the horizon, which reduces the stability of the geogrid and requires the installation of anchors, and also leads to a deterioration in the appearance of beds, flower beds, terraces and the entire landscape as a whole.

The problem solved by the proposed utility model is to provide the possibility of using geogrids to create highly aesthetic and stable types of landscapes: terraces, pyramids, beds with a curly section, for example triangular

The effect is achieved due to simple structural changes of the known lattice with a cellular structure (geogrid).

The result is achieved due to the fact that in the known lattice with a cellular structure made of flexible polymer strips mounted on the ribs and connected to each other by perpendicular seams in a checkerboard pattern into a bag, which in an extended working position forms a canvas lattice with a cellular structure, in contrast to the known the lattice bands have different widths and are set perpendicular to the horizon.

A specific embodiment is possible in which the width of the strips is different from each other only on one side of the lattice web.

Also, the lattice can be made of strips, the length of which is different from each other.

The proposed utility model is new, because currently solutions are not known, characterized by a given set of features. The differences of the claimed device are the varying widths of the geogrid stripes and their perpendicularity to the horizon.

The essence of the solution lies in the fact that due to the different widths of the ribbons, it is possible, for example, to obtain cells of different heights between each other, to obtain different forms of envelopes of both surfaces of the lattice web corresponding to the terrain, for the formation of which such gratings will be used. Obviously, in such a design a wide variety of forms is possible and, accordingly, use to form the most diverse landscapes. For example, on one side of the geogrid web, for example, a slide or a pyramid, a bed of triangular section can be formed. You can even design a slope of a flowerbed with an exponential surface. If the width of the geogrid ribbons is different not only on one side of the geogrid web, but also on the other, then such a grating can even be installed on curved surfaces, while the perpendicularity of the cell faces to the horizon will be preserved.

In the case when the structure is made of strips with unequal height in length, it is possible to create an artificial relief in order to direct the movement of surface water flows.

Thus, the use of the proposed lattices for landscape design makes it possible to create reinforced complex, diverse reliefs with excellent aesthetic indicators.

The proposed lattice works in the same way as the well-known geogrids and serves, first of all, to create original design solutions with high aesthetic indicators and high stability, as well as to strengthen soil surfaces. Installation on the ground is carried out by any of the known methods used to install such grids. It should be noted that since the edges of the geogrids are directed perpendicular to the horizon, in many cases it is possible to completely abandon the anchors for their fastening. If there is any obstacle at the installation site of the geogrid or the relief or design requires it, then tapes with different lengths are used.

In the manufacture of strips of flexible polymeric material are installed on the ribs and staggered to be welded together into a package, which in the extended working position forms a cellular structure with cells located across the canvas. The choice of the width of the strips, their length and the order of location in the package is determined by the required shape of the envelopes of both surfaces of the geogrid web, which is determined by its purpose, for example, the relief of the site for which it is intended to be formed, and aesthetic requirements.

The industrial applicability of the proposed lattice is obvious. Making it does not require the development of new technologies or equipment. It can be manufactured by any method known for the manufacture of such products, of which ultrasonic welding is the most common.

Claims (3)

1. A lattice with a cellular structure made of flexible polymer strips mounted on the ribs and connected to each other by perpendicular seams in a checkerboard pattern into a bag, which in the extended working position forms a lattice web with a cellular structure, characterized in that the lattice strips have different width and set perpendicular to the horizon. 2. The lattice according to claim 1, characterized in that the width of the strips is different among themselves only on one side of the lattice web. 3. The lattice under item 1, characterized in that the lattice is made of strips, the length of which is different from each other.